biolab
High Quality Solutions
biolab established in 1987 as a group within United Engineering
Co. Ltd. and starting from 1992 Biolab became an independent
company as a leading supplier and manufacturer of high quality
laboratory equipments.
biolab is built on a lifetime’s experience in the field which gives
high priority to technical expertise and customer support for all our
products.
biolab now is a leading supplier in the field of Fuels, Oils and
Biotechnology laboratory instruments including; Fuel & Oil Analysis
Spectrometers, Oil Condition Monitoring Systems, Turn-Key Fuel &
Oil Labs, Predictive Maintenance Labs, Turn-Key Mobile Fuel & Oil
Lab, On-Site Environmental Fuel & Oil Testing Kits.
biolab
provides full in-land at site warranty, technical service
and support for all instruments before and after sales, supported
through highly qualified technical engineers who follow directly the
customer technical demands.
Fuel & Oil Elemental Analysis Systems............................... 4
Oil Degradation & Contamination Monitoring................... 16
Particle Counting & Shape Imaging.................................... 22
Viscosity Measurement...................................................... 28
62
Distillation Analysis............................................................ 66
Gasoline & Diesel Analyzers............................................... 84
Vapor Pressure Analyzers................................................... 94
Flash Point Testers.............................................................. 100
Sulfur Analyzers.................................................................. 106
Density Meters................................................................... 116
Color Measurement........................................................... 120
Water Content Analysis...................................................... 124
TAN / TBN Analysis............................................................. 130
Analyzers for Cold Properties............................................. 136
Oxidation, Corrosion & Rust Testing................................... 142
Foam Testing...................................................................... 150
Refractometers................................................................... 156
Asphalt Analyzers............................................................... 160
Other Petroluem Products................................................. 166
Mobile Fuel & Oil Laboratory............................................. 174
On-Site Environmental Oil & Fuel Testing.......................... 178
Industrial Tribology Laboratory..........................................
Fuel & Oil Elemantal Analysis System
Spectroil M/F , Fuel Analysis
Spectroil M/C , Oil Analysis
Spectroil M/N, Oil Analysis (Military version)
Spectroil M/F/Cynan SW, Fuel & Oil Analysis
Spectroil Q 100 Oil & Fuel Analysis Spectrometer
Accessories & Consumables
HD Maxine-Multi-Element Top Trace Metal Analyzer
Clora Bench-Top Total Chlorine Analyzer
Phoebe Bench-Top Phosphorous Analyzer
Signal Bench-Top Silicon Analyzer
Spectroil M/F
Fuel Analysis Spectrometer
Conforms to ASTM D6728
Features
Applications
• Conforms to ASTM D6728 requirements.
• Fuel quality analysis for liquid fired
gas turbines and diesel engines at:
• Bench-top and transportable.
• No sample preparation for typical fuels.
• Simple to operate without special training
or background.
- Fuel treatments systems
- Shipboard propulsion systems
• Standard and readily available
consumables.
• Qualification of fuel treatment
system effectiveness
• Requires no special utilities or gases, only
AC power.
Advantages
• A heat exchanger is used for cooling,
preventing ingression of dust, sand, oil,
or moisture to the sealed electronics
and optics.
• Optional Turbine Cleaning Water and
Injection Water Analysis.
• Capable of analyzing naptha or highly
volatile fuels with a sample preparation kit
• Optional Sulfur Analysis Capability.
• Windows® Operating System
6
- Electric power generation stations
• Fast and simultaneous analysis
of all key metals in fuel
samples.
• One 30 second “burn”
measures all the sub-ppm
levels of metals such as Na, K,
Li, V, Mg, Pb, Ni, Ca, Mn, Cr, Si,
Fe, Al, Cu, and Zn.
• Capable of analyzing fuels
from distillates to heavy
residuals.
• Continuously available for
immediate analysis of fuel
samples.
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Spectroil M/C
Fuel Analysis Spectrometer
Conforms to ASTM D6595
Features
Applications
• Conforms to ASTM D6595 Method
• Commercial Laboratories
• Meets stringent Department of Defense
requirements (JOAP)
• Oil Companies
• No sample preparation
• Airlines
• 30 second analysis time
• Bench-top and transportable
• Analyzes up to 32 elements
simultaneously
• Always ready to analyze samples
• Simple to operate without special
training or background
• Standard and readily available
consumables
• Environmentally sealed
• Requires no special utilities or gases,
only AC power
• Railroads
• Public Transportation
Companies
• Electric Power Generation
Companies
• Mines
• Refineries
• Construction Equipment
Dealers
• Chemical Processors
• Steel Mills
• Manufacturing Plants
• Marine Fleets
• Military
• Windows® Operating System
Benefits of Oil Analysis
• Optional Large Particle Analysis Capability
• Reduce maintenance costs
• Optional Robotic Sample Changer
• Reduce unexpected downtime
• Optional Sulfur Analysis Capability
• Increase equipment availability
• Improve safety
biolab@biolab.com.tr
7
Spectroil M/N (Military Version)
Oil Analysis Spectrometer
Conforms to ASTM D6595
Features
Applications
• Conforms to ASTM D6595 requirements
• Military
• Meets stringent Department of
Defense requirements (JOAP)
• Commercial Laboratories
• Bench-top and transportable
• Airlines
• Simple to operate without special
training or background
• Public Transportation
Companies
• 30 second analysis time
• Electric Power Generation
Companies
• No sample preparation
• Always ready to analyze samples
• Standard and readily available consumables
• Analyzes up to 32 elements
simultaneously
• Railroads
• Mines
• Refineries
• Construction Equipment Dealers
• Chemical Processors
• Environmentally sealed
• Steel Mills
• Requires no special utilities or gases,
only AC power
• Manufacturing Plants
• Windows® Operating System
• Oil Companies
• Optional Large Particle Analysis Capability
Benefits of Oil Analysis
• Optional Robotic Sample Changer
• Reduce maintenance costs
• Optional Sulfur Analysis Capability
• Reduce unexpected downtime
• Optional Coolant Analysis Capability
• Increase equipment availability
• Marine Fleets
• Improve safety
8
www.biolab.com.tr
Spectroil M/F/Cynan Fuel & Oil
Analysis Spectrometer
Conforms to ASTM D6728 & D6595
Applications
Features
• Fuel quality analysis for liquid fired gas
turbines and diesel engines at
- Electric power generation stations
• Conforms to ASTM D6728 for Fuels
and ASTM D6595 for Oils.
- Qualification of fuel treatment system
effectiveness
• Meets stringent Department of
Defense requirements (JOAP)
• Bench-top and transportable
• Rapid analysis of wear metals, contaminants • No sample preparation for typical
fuels and oils
and additives in lubricants, hydraulic fluids,
and coolants
• Simple to operate without special
- Predictive Maintenance By Used Oil Analysis training or background
- Commercial Laboratories, Oil Companies,
• Standard and readily available
Electrical Power Generation Plants, Mines,
consumables
Refineries, Construction Equipments,
Chemical Processors, Manufacturing Plants, • Analyzes up to 32 elements
simultaneously
Steel Mills, Military
Advantages of
Fuel & Oil Analysis
• Requires no special utilities or gases,
only AC power
• Fast and simultaneous analysis of all key
metals in fuel and oil samples.
• Optional Turbine Cleaning Water And
Injection Water Analysis
• One 30 second “burn” measures
all the sub-ppm levels of metals.
• Capable of analyzing fuels from distillates
to heavy residuals to lubricating oils.
• Continuously available for immediate
analysis of fuel and oil samples.
biolab@biolab.com.tr
• Always ready to analyze samples
• Capable of analyzing naptha or
highly volatile fuels with a sample
preparation kit
• Optional Large Particle Analysis
Capability
• Optional Sulfur Analysis Capability.
• Windows® Operating System
9
Spectroil Q100 Oil & Fuel
Analysis Spectrometer
Conforms to ASTM D6595
Features
Applications
• Conforms to ASTM D6595 requirements
• Commercial Laboratories
• No sample preparation
• Oil Companies
• 30 second analysis time
• Railroads
• Bench-top and transportable, small
footprint
• Airlines
• Analyzes up to 32 elements
simultaneously
• Always ready to analyze samples
• Simple to operate without special training
or background
• Standard and readily available
consumables
• Public Transportation
Companies
• Electric Power Generation
Companies
• Mines
• Refineries
• Construction Equipment Dealers
• Requires no special utilities or gases,
only AC power
• Chemical Processors
• Controlled by an External Computer
• Manufacturing Plants
• Windows® Operating System
• Marine Fleets
• Optional Coolant Analysis Capability
Benefits of Oil Analysis
• Steel Mills
• Reduce maintenance costs
• Reduce unexpected downtime
• Increase equipment availability
• Improve safety
10
www.biolab.com.tr
Accessories & Consumables
for Spectroil M Units
Large Particle Analysis
Automated Rotrode Filter Spectroscopy (A-RFS) is a device that uses
the rotrode filter spectroscopy technique to enable the Spectroil
M/C-W or Spectroil M/N-W to detect and quantify large wear and
contaminant particles in a used oil sample.
Automation
The Double Disc Rapid Robot (D2R2) automates the operation of the
Spectroil M/C-W or Spectroil M/N-W. It is an innovative design that
consists of two parts, a robot to exchange consumables and an
automatic sample changer. Up to 80 used oil samples can be analyzed
per hour.
“Burnt Oil” Analysis
The Tandem Conductivity Technique (TCT) is a hardware and software
option that provides the Spectroil M/N-W with the additional
capability of simultaneous measurement of oil thermal breakdown
(burnt oil) along with the normal analysis. Analytical data is in COBRA
units.
Transit Case
The Spectroil transit case is a complete oil analysis laboratory in a
deployable container. It features a shock mounted cradle designed for
the Spectroil and its accessories and consumables. A gas cylinder
mechanism is used to rise the spectrometer to a comfortable
operating height (variable).
Database Software
The PINPOINT software is a database program and report generator
based on the JOAP operating requirements. The program has the
capability to store, sort, retrieve, do statistical analysis and set alarms
for the data.
biolab@biolab.com.tr
11
HD Maxine Multi-Element
Trace Metal Analyzer
Features and Benefits
ACCU-FLOW Technology
• Fits on any bench.
• Plug-it-in and measure:
no additional utilities required.
• Touch Screen user interface.
• Utilizes ACCU-CELL pre-assembled
and pre-vented sample cups for
enhanced precision, extreme
ease-of-use and enhanced
productivity.
• No sample dilution, conversion
gases, heating elements,
quartz tubes or columns.
• Air-cooled excitation tube.
• Eliminates particulate settling effects
• Simple design, optimized for
everyday use
• Available add-on for all M-series
analyzers
ACCU-CELL Sample Cups
Application Areas
• Contaminants, Additives, Wear Metals.
• Refineries, Lubricant Plants,
Engine Service Centers.
• Crudes and downstream hydrocarbons,
lubricants and used oil.
• Elements: S, Cl, P, K, Ca, V, Mn, Fe, Co, Ni,
Cu, Zn, Hg, As, Pb, Se.
12
• No assembly of separate film & cup
components
• Pre-vented sample cups
• Eliminates sample & cup contamination
• 1 ml pipette will fill the cup
www.biolab.com.tr
Clora Bench-Top
Total Chlorine Analyzer
Compliant with ASTM D7536
Features and Benefits
Application Areas
• LOD: 0.06 ppm wt. for aromatics.
• Total Chlorine analysis from aqueous
solutions and aromatic products to
heavy fuels, crudes and catalyst.
• Dynamic range:
Standard: 0.06 ppm wt.
up to 3000 ppm wt.
XR Package: 0.06 ppm wt.
up to 4% wt.
• Fits on any bench, in any lab:
37 cm (w) x 50 cm (d) x 34 cm (h).
• For refineries, petrochemical and
additive plants, pipeline terminals
and test labs.
Autosampler
• Plug-it-in and measure.
Standard wall power is only
utility required.
• User-friendly with
touch screen interface.
• User programmable measurement time:
30-900 s
• Extremely low maintenance:
- No conversion gases
- No columns
- No heating elements
- No quartz tubing
• Replaceable air-cooled x-ray tube.
• No sample conversion or combustible
gases required.
• Robust polyamide window for
easy cleaning.
biolab@biolab.com.tr
• 8 sample cell capacity
• Increases productivity
• Utilitizes XOS Accu-Cell cups
ACCU-CELL Sample Cups
• No assembly of separate film & cup
components
• Pre-vented sample cups
• Eliminates sample & cup contamination
• 1 ml pipette will fill the cup
13
Phoebe Bench-Top
Phosphorous Analyzer
Phosphorus Determination in
Hydrocarbon and Aqueous
Matrices
From crude oil to bio-fuels, in additives or
water, PHOEBE Bench-Top Analyzer delivers
unprecedented precision and accuracy for
quantification of phosphorus. Based on
XOS’s MWD XRF analytical platform, (as is
found in SINDIE and CLORA Analyzers)
PHOEBE offers a LOD of 0.4 ppm in
hydrocarbon matrices in a ten minute
measurement cycle. The analyzer’s extreme
easy of use with straightforward touch
screen operation allows for use in a broad
range of industrial environments. PHOEBE
is a plug-it-in and measure analytical
solution and does not require extensive
sample preparation, consumable gases or
sample conversion.
Features and Benefits
• LOD: 0.4 ppm in 600s.
• Dynamic Range: 0.4-3000 ppm wt.
• Fits on any bench and is compatible
for use in mobile labs.
• Robust touch-screen user interface.
• User programmable
measurement time: 30 -900 s.
• No conversion or combustible gazes
required. No heating elements,
quartz tubes or columns.
• Low power air-cooled
excitation x-ray tube.
Application Areas
Typical repeatability (r) & reproducibility (R) • Total phosphorus analysis in
values, at 95% confidence.
hydrocarbons (including crude-oil),
Measurement time: 600 s.
bio-fuels and aqueous matrices.
Phosphorus
r (ppm) R (ppm)
• For use in refinery, additive plants,
(ppm) in crude oil
oil recycle facilities and test labs.
14
2
0.8
1.2
5
1.0
1.6
10
1.4
2.0
15
1.7
2.5
20
1.9
2.8
www.biolab.com.tr
Signal Bench-Top
Silicon Analyzer
Silicon Analysis in Petroleum
and Bio Fuels
From gasoline to ethanol and toluene, the
Signal bench-top analyzer delivers unique
precision and accuracy in quantitative
analysis of silicon. The analyzer is based on
XOS’ MWD XRF technology platform (as
applied in Sindie and Clora analyzers)
ensuring a robust analysis solution for
demanding petroleum and industrial
environments.
Application Areas
• Total silicon analysis in hydrocarbons
and biofuels.
• For use in refinery labs, pipeline
terminals, additive plants and
inspection laboratories.
Features and Benefits:
• LOD: 0.5 ppm at 600 s.
• Dynamic Range: 0.5 ppm to 3000 ppm.
Typical repeatability (r) and reproducibility
(R) values in gasoline, at 95% confidence.
600 s measurement time.
biolab@biolab.com.tr
• Fits on any bench.
• Touch Screen user interface.
Silicon
r
R
2
0.4
0.7
5
0.5
0.8
8
0.6
1.0
• No conversion gasses,
heating elements, quartz tubes
or columns.
• 75 W air-cooled excitation tube.
15
0.8
1.4
100
2
4
500
5
10
• User programmable
measurement time: 30-900 s.
15
Oil Degradation & Contamination
Monitoring
Spectro FTIR Q410 Alpha Oil Analyzer
Fluidscan Series Handheld Lubricant Condition Monitor
Fuel Dilution Measurement
Spectro FTIR Alpha Q410
Oil Analyzer
Complies with ASTM E2412
Features
• Instrument and software specifically
designed for the analysis of in-service oil.
The Spectro FTIR Q410
Spectrometer is a complete
In-Service Oil Analysis System
• Software for in-service oil analysis.
• Complies with ASTM E2412 Standard
Practice for Condition Monitoring of Used • Permanently aligned, high sample
Lubricants by Trend Analysis Using Fourier
throughput interferometer.
Transform Infrared (FT-IR) Spectrometry.
• Software that continuously
• Quantitative TAN and TBN analyses
monitors all optical components
(in mgKOH/g).
and accessories.
• Patent-pending flip-top sample cell
eliminates need for solvents and
simplifies cleaning .
• Ability to analyze fluids with a wide
range of viscosities, including greases.
• Fixed interferometer, does not require
software or manual alignment.
18
• Infrared source is easily replaced
without special training.
• Fixed interferometer which avoids
the need for time consuming and
complex alignment.
• Exceptional stability and reliability in
harsh operating environments.
• Internal Validation Unit (IVU)
with calibration standards to
systematically validate the
system.
• Completely sealed and desiccated to
prevent humidity interferences.
• Computer and monitor,
Windows® Operating System.
• Bench-top, requires little counter space.
• Ethernet connection for spectrometer
operation from a PC, laptop or network.
www.biolab.com.tr
Spectro FTIR Alpha Q410 Flip Top Cell Eliminates the Need
for Solvents and is Easy to Clean and Use with a Wide
Range of Fluid Viscosities.
1. Removal Cell
2. Open Cell
3. Clean Cell
4. Place drop of Oil on Cell
5. Close Cell
6. Replace Cell in Spectrometer and
Measure Sample
The Spectro FTIR Alpha Q410 Oil Analyzer is specifically designed for the
molecular analysis of lubricating oil to determine oil degradation and
contamination. It was developed and optimized for predictive maintenance
programs according to JOAP and DIN standards for the rapid determination of
oxidation, nitration, sulfation, water, coolant, fuel dilution, soot and wear additive
depletion in used lubricating oils. It also provides quantitative TBN analysis (in
mgKOH/g) for mineral based engine oils and TAN analysis (in mgKOH/g) for polyo
lester based synthetic turbine fluids.
The Spectro FTIR Alpha Q410 is a bench-top instrument that requires little counter
space for operation. It uses an innovative patented flip-top cell to introduce and
analyze the sample. Sample introduction is thus extremely simple, reliable and
eliminates the need for a peristaltic pump and solvents. The system is easy to use
and requires little training for operation since it is optimized for one application:
in-service oil analysis.
biolab@biolab.com.tr
19
FluidScan Series
Handheld Lubricant Condition Monitor
Highly Repeatable and
Reproducible Results
450 fluids for immediate, out of the
box operation
• ASTM D7889 Compliant - “Standard Test
Method for Field Determination of
In-service Fluid Properties
Using IR Spectroscopy”
• Results for critical properties such as
TAN and water contamination for
industrial lubricants or TBN, water,
glycol and soot for engine oils
• High correlation to KF water, TAN & TBN
laboratory tests
Fluid Manager desktop application
• Reproducibility and repeatability
comparable to bench-top FTIR method
ASTM E2412
• Data analysis compliant to ASTM E1655
• Generates sample and trend reports
• Supports and synchronizes
multiple instruments
• Provides additional data storage
and backup
Determine When In Service Oil
• Structured asset management capability
is No Longer Fit For Use Due To
Liquid Contamination Or Degradation Applications
Applicable to any large mechanical
• Direct immediate measurement of water,
system where unexpected down time
TAN and oxidation for lubricants used in
is unacceptable.
gearboxes, turbines and hydraulic systems
Ideal applications include:
• Also measures TBN, water, glycol, soot,
• Engines
additive depletion oxidation for engine oil
• Hydraulics
Easy to Use
• Needs just one drop of oil &
one minute to test
• No solvents required to clean
• Color-coded, user adjustable alarm limits
Comprehensive Fluid Library
• 12 use type categories with over
20
• Gas Turbines
• Steam Turbines
• Wind Turbines
• Gears
• Transmissions
• Compressors
• Biodiesel Quality Control
www.biolab.com.tr
SpectroFDM Q6000
Fuel Dilution Meter
Features
The Q6000 is a portable fuel dilution
meter (“fuel sniffer”) that can be used in
• Innovative headspace sampling system
the laboratory or the field to provide
• Memory for up to 3 fuel in oil calibrations rapid and accurate measurements of fuel
contamination in engine oil.Excessive fuel
for quick start up
in the lubricant causes wear and loss of
• Touchscreen interface
performance.
Benefits
• Minimizes the worry and errors that
come with learning different methods
and equipment
Developed in collaboration with the U.S.
Navy, the Spectro Q6000 is widely used
for rapid detection of fuel contamination
in railway, marine, mining and other
industries.
• Lets you maintain equipment at peak
performance with less downtime
• Fast analysis
• Simple-to-use
• Results correlate to expensive
GC methods
• Portable, Battery Powered
biolab@biolab.com.tr
21
Particle Counting & Shape Imaging
LaserNet Fines Q200 Particle Shape Classifier & Counter
Q500 Analytical Ferrography Laboratory
Mini Mobile Oil Lab Q5800 Expeditionary Analysis System
Oil Analysis MiniLab 5200 Trivector Analyzer
LaserNet Fines Q200
Particle Counter & Shape Classifier
Conforms to
ASTM D7596, D6786,
ISO 4406,
NAS 1638,
NAVAIR 01-1A-17,
SAE AS 4059, HAL
Features and Benefits
• Particle count is an indication of a fluid’s
cleanliness
•
•
•
•
•
•
• Highest saturation level of any particle
counter for oil analysis >5,000,000
Data outputs include particle type
identification, image maps, size trends and particles per ml
ISO, NAS, and NAVAIR cleanliness codes
• Counts all particles >4 μm to 100 μm
and provides results per ASTM 7596
Algorithms to perform shape analysis,
ISO 4406, NAS 1638, SAE 4059,
wear particle identification and machine
NAVAIR, GOST HAL, ASTM D6786
condition assessment
and user defined standards
Large particles are classed by a neural
network as “cutting, fatigue, severe sliding, • Counts and classifies the number of
wear particles in separate categories:
nonmetallic, free water droplets or fibers”
cutting wear, sliding wear, fatigue
Provides image maps of all particles
wear and nonmetallic
greater than 20 µm
• Differentiates water droplets from
Handles fluid up to ISO 320 grade oil
air bubbles and eliminates them
without sample dilution
from distorting the particle count
Automatic adjustment for fluid darkness; • Measures free water in parts
sees through black diesel lubricating oils.
per million (ppm)
• Built-in data-base for machine
condition trending
• Magnification is set at factory.
Recalibration is never required
• Reports dynamic viscosity
• Reports soot (%) and free water (ppm)
• Provides automatic alarms
24
The LaserNet Fines®
Advantages
• Measures dynamic viscosity at 40°C,
reports kinematic viscosity
with density input
• Sees through dark fluids and black
diesel fuels containing up to 2% soot
• Eliminates coincidence error
(multiple particles counted as one)
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T2FM Q500 Analytical
Ferrography Laboratory
“A Ferrography Laboratory for fast efficient,
low cost separation and interpretation of
Features
lubrication oils, hydraulic fluids, greases,
• Efficient separation of wear and
contaminant particles from
fluid samples.
coolants and fuels .”
• Rapid preparation of ferrogram.
Application
• No deformation of particles.
wear and contaminant particles from used
In today’s modern power generation,
manufacturing, refining, transportation,
mining and military operations, the cost of
equipment maintenance, service, and
lubricants are ever increasing. Parts, labor,
equipment downtime, lubricant prices and
disposal costs are a primary concern in a
well run maintenance management
program.
• Separates particles up to 800 μm
in size.
Machine condition monitoring based on oil
analysis has become a prerequisite in
comprehensive maintenance programs.
The Ferrography Laboratory plays a key role
in such programs. It separates and
concentrates wear and contaminant
particles for microscopic examination.
Particle size, surface characteristics and
composition are then used to determine
wear modes inside a machine so that
maintenance recommendations can be
made.
Main Components of the
Ferrography Laboratory
• Lower cost per sample.
• Uses fewer consumables.
• Achieves cleaner rinses.
• Easy to operate.
• Model T2FM Analytical Ferrograph
• Bichromatic microscope
• Video camera
• Video capture card
• Image capture software
• Optional industrial standard PC
6
biolab@biolab.com.tr
25
Mini Mobile Oil Lab
Q5800 Expeditionary Analysis System
Q5800 Analysis System is a rugged, portable The Q5800 Includes
expeditionary fluid analysis system that Three Major Components
gives operators in the field the ability to
perform comprehensive, mobile lubricant • Filtration Particle Quantifier (FPQ)
tower for abnormal wear metal
sampling. The battery-powered device
analysis using XRF technology and
enables complete lubricant assessment for
particle counting
condition monitoring and rapid results that
permit informed maintenance decisions.
• Solvent- free kinematic viscometer at
40oC that measures lubricant
Features
kinematic viscosity
• Rugged design for on-site, field-based use
• Infrared spectrometer featuring an
• Immediate results for faster decision
innovative flip-top cell TAN/TBN,
making
water content, soot, oxidation and
mixed up fluids using infrared
• Tests all types of lubricating fluids and
technology
asset compartments
• Accurately detects potential failures
before they happen
• Easy to transport; includes a backpack for
device and accessories
• Integrated software for comprehensive
fluid analysis
• Touch screen interface; battery operated
with Bluetooth and WIFI
26
www.biolab.com.tr
Oil Analysis MiniLab
5200 Trivector Analyzer
Basic Minilab includes: 5200 Trivector
Analyzer, Digital Viscometer & Oil view
Minilab software module.
• Easy-to-understand graphical plots and
trends illustrate every measurement.
• Automated diagnostic interpretation and
recommendations.
• Leads you step-by-step through operation
of each Minilab instrument.
• Startup is quick and easy with an editable
reference database of common lubricants.
• Set alarm limits using statistical analysis.
• Custom configurable report.
Comprehensive Minilab includes: 5200
Trivector Analyzer, Digital Viscometer,
Stereoscopic Zoom Microscope, Wear
Debris Image Capture System, and Oil
view Minilab, WDA, and LIMS software
modules.
• Laboratory Information Management
(LIMS) Software
- Data import and management
• Wear Debris Analysis Module
- Import electronic image of wear debris
from any TWAIN compatible camera.
- View sample image and compare to wear
debris library images
- Standardize wear debris analysis using a
multiple-choice matrix.
6
biolab@biolab.com.tr
Features & Benefits
• Reduce unexpected downtime
• Provides a comprehensive overview
and indication of metal wear, lubricant
chemistry and contamination
• Generates machinery health trend
analyses to support data driven
predictive & preventive maintenance
decisions
• Reduce maintenance and replacement
parts costs.
• Early identification of particle
contamination from lubricated metal
parts wear allows early, preventive
intervention prior to catastrophic
failure.
• Lubricant condition monitoring
conserves oil and reduces oil disposal
costs by driving maintenance on an
as needed basis.
• Immediate, on-site lubricant analysis
(<10 min) for informed preventive
maintenance decisions.
• Includes Oil view software, an integral
part of the Emerson AMS Machinery
Health Manager software suite
• Compact, table top system minimizes
cost and footprint
27
Viscosity Measurement
Fully Automatic Viscometers
Automatic Viscometers
Manual Viscometers
Portable Viscometers
Cold Cranking Simulators
HTHS High Temperature High Shear Viscometers
Rotary Viscometer
Polymer Viscometers
U-VIsc 200 Fully Automatic
Kinematic Viscometer
Compliant with
ASTM D445/D446,
ISO 3104/3105
6
30
The U-VIsc 200 combines several unique
features, making it the instrument of
choice in many applications, ranging from
QC to R&D to used oil analysis. While
offering full compliance with ASTM
D445/446,
the
specially
designed
viscometer tubes cover an 100-fold range,
so a single tube can cover a range of 1-100,
2-200 mm2/s etc. The tubes are based on
the well-known & proven Ubbelohde
design. Through modification the main
advantage of this design (accuracy) is
maintained, but the main disadvantages
(sample and solvent consumption, ease of
use) negated. The modified tubes only
require 8-12 ml. of sample and approx.
15-20 ml. of solvent for cleaning. Available
with 1 or optional 2 solvent cleaning, the
instrument measures kinematic viscosity
between 0.5 and 5,000 mm2/s. The
instrument is compact, saving costly bench
space. It is fitted with 2 independent baths,
which each contain 2 100-fold viscometer
tubes. Sophisticated temperature control
ensures that measurements are carried
out well within ASTM D445 requirements.
Each bath features a 32-position sampling
tray (16 samples per tube), allowing
completely
unattended
operation.
Depending on the viscosity of the sample,
the instrument can process up to 40
samples per hour, satisfying even the
needs of high volume commercial labs
running several hundred samples per
day. All measurement data is stored on
the connected PC and can be exported
directly to LIMS or spreadsheet
software.
Features
• Auto sampling enables fully
unattended operation 100-fold tube
range eliminates the need to
exchange tubes
• Fully compliant with
ASTM D445 / D446,
ISO 3104 / 3105 and
related specifications
• Requires less sample (8-15 ml) than
conventional viscometer
• Reduced solvent consumption up to
60% compared to conventional
viscometers
• Automatic Viscosity Index calculation
if baths are run at 40º and 100ºC
• Extremely stable bath temperature
(±0.005°C)
• Compact, rugged design and built to last
• Low maintenance
www.biolab.com.tr
CAV-2000 Series
Automatic Viscometers
CAV-2100
ASTM D445 precision
Features
• CE marked for safe, reliable performance
Designed for completely unattended
operation, each CAV Series viscometer
provides fully automatic kinematic
viscosity testing within parameters
specified by ASTM D445. The CAV 2000
Series instruments measure flow rates
within ±0.001 second by electronically
timing the liquid meniscus as it moves
between thermistor sensors. Thermal
sensing technology ensures that dark or
opaque liquids can be measured with
the same precision as transparent
liquids.
Industries Served
Applications
• Modular benchtop unit
(small footprint)
• Variable temperature selection
from 20°C to 100°C
• Viscosity range of 0.5 to 5000 cSt*
• ASTM D445 precision
• Powerful VISCPRO for Windows software
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biolab@biolab.com.tr
CAV-2200
Refinery quality control laboratories
Refinery satellite laboratories
Research & development laboratories
Lube oil blending andpackaging facilities
Oil analysis laboratories
Engine manufacturers
Transmission manufacturers
Railroads
Marine shipping lines
Power companies
Chemical companies
Distribution terminals
Grease manufacturers
Manufacturing companies utilizing
hydraulic robotics
• Used oil analysis
• Base stock analysis
• Additive analysis
• Fully-formulated oil analysis
• Marine fuel testing
• Crude oil testing
• Hydraulic oil testing
• Light and heavy fuel testing
31
MiniAV
Automatic Viscometer
Meets all ASTM D445
Precision Specifications
Features
• Convenient and Affordable
Automated Testing
• 100-Fold Range Tubes for
Kinematic Viscosities Between
0.5 and 6,000* mm2/s
• Selectable Temperature Range
Between 15° and 100°C
• Attractive and Compact
Tabletop Unit
MiniAV offers every laboratory an exciting
new tool for convenient and highly
accurate kinematic viscosity (Kin Vis)
measurement. Occupying roughly the
same footprint as a tabletop rotational
viscometer, the MiniAV automates the
time-consuming sample measurement and
viscometer tube wash/dry procedures
associated with the ASTM D445 method,
freeing the laboratory technician for other
duties.
The MiniAV Automatic Viscometer has
been designed as an affordable alternative
to traditional labor-intensive manual Kin
Vis measurement methods.
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Applications
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Viscosity
Biofuel
Condition Monitoring
Aviation Fuel
Residual Fuel
Fuels
Lubricating Oil
Crude Oil
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Asphalt / Bitumen
Refinery
Pipeline / Terminal
Inspection
Process
Biofuel
Aviation
Automotive
Chemical
Lubricants & Greases
Military
Mining
Petroleum
Transportation
Maintenance
Fuels & Waxes
Marine
Industries:
www.biolab.com.tr
MiniAV-X
Automatic Viscometer
Meets all ASTM D445
Precision Specifications
Features
Applications
• Meets all ASTM D445 Specifications
• Viscosity
• Affordable Automated Testing
• Low Solvent/Sample Volume
• Aviation
• Residual Fuel
• 100-Fold Tube Ranges for
KinVis up to 5000 cSt
• Fuels
• Smart Table Technology
• Attractive and Compact Bench-top Unit
The MiniAV-X from offers every laboratory
an exciting new tool for convenient and
highly accurate KinVis measurement.
Occupying roughly the same footprint as a
tabletop rotational viscometer, the
MiniAV-X automates the time-consuming
sample measurement and viscometer tube
wash/dry procedures associated with the
ASTM D445 method, freeing the laboratory
technician for other duties.
The miniAV-X Automatic Viscometer has
been designed as an affordable alternative
to traditional labor-intensive manual KinVis
measurement methods, and provides full
laboratory automation.
biolab@biolab.com.tr
• Condition Monitoring
• Faster Through-Put
• Selectable Temp. from 20 to 100°C
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• Biofuel
• Lubricating Oil
Industries
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Asphalt/Bitumen
Refinery
Pipeline/Terminal
Inspection
Process
Biofuel
Aviation
Lubricants & Greases
Chemical
Automotive
Military
Mining
Petroleum
Transportation
Maintenance
Fuels & Waxes
Marine
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MiniAV-LT Low Temperature
Automatic Viscometer
ASTM D445, D2532, D1655, DEF STAN 91:91,
ISO 3104, IP 71, ASTM D446, ISO 3105
Features
• Developed Specifically for Low
Temperature (Sub-Zero) Kinematic
Viscosity Measurement
• Meets ASTM D445 and D2532
Precision Specifications
Applications
• Viscosity
• Aviation Fuel
• Fuels
• Temperature Range of -20°C to +30°C
Industries
• Measures KinVis up to 20,000 mm2/s
• Refinery
• Ideal for -20°C Measurement of Jet Fuel
According to ASTM D1655 &
DEF STAN 91:91
• Pipeline/Terminal
• Lubricants
• Aviation
• Also applicable to sub-zero Testing
of Hydraulic Fluids, Turbine and
Transformer Oils up to 20,000 mm2/s
• Attractive and Compact Tabletop Unit
• Environmentally-friendly Peltier
Technology Cooling
(requires no external refrigerants);
Small Air-Water Heat Exchanger Included
• Inspection
• Lubricants & Greases
• Military
• Petroleum
• Fuels & Waxes
• Unique Viscometer Tube (Patent Pending)
which Incorporates Sensitive Thermistor
Sensors
• Available with 10-Fold Range Tube
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• Design Allows Bath to Quickly Warm to
+30°C for Easy Automated Cleaning and
Drying with Standard Solvents
(eliminating common moisture issues)
www.biolab.com.tr
MiniQV-X
Quick Automatic Viscometer
ASTM D445
Features
• The MiniQV-X measures flow rates
within ±0.001 seconds
tube wash/dry procedures associated
with the ASTM D445 method, freeing
the laboratory technician for other
duties. MiniQV-X Automatic Viscometer
is designed as a rapid fully-automated
viscosity analysis tool - an alternative to
slower ASTM D445 compliant manual
measurements.
• Thermal meniscus detection –
eliminates issues caused by opaque
samples
Operation of the MiniQV-X is simple &
quick with typical sample-to-sample
cycle times of less than three minutes.
• Bath temperature is controlled with
accuracy better than ±0.01°C
between 40°C and 100°C
• Viscosity
• VISCPRO II software for Windows
• Powerful reporting and LIMS
connectivity
• Low sample volume Ubbelohde style
tube 4 to 5mL
• Low solvent consumption8mL typical per sample
• 10-fold range tubes for kinematic
viscosity between 5 and 800 mm2/s
@ 40°C
The MiniQV-X offers the laboratory an
exciting new tool for convenient and rapid
kinematic viscosity (KV) measurement.
Occupying roughly the same footprint as a
tabletop rotational viscometer, the
MiniQV-X automates the time-consuming
sample measurement and viscometer
6
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Applications
• Condition Monitoring
• Lubricating Oil
Industries
• Refinery
• Inspection
• Automotive
• Lubricants & Greases
• Petroleum
• Maintenance
35
MiniPV & MiniPV-X
Polymer Solution Viscometer
Features
Operation
Operation of the MiniPV® is simple.
First, the sample vial is charged with
about 15 mL of solution.
Second, the sample vial is positioned in
Calculation of Relative, Inherent,
the vial holder beneath the viscometer.
Reduced and Intrinsic Viscosity
Third, the sample platform is raised to
0.3 to 5,000 centistokes range
the viscometer. This action initiates the
(special ranges available on request)
sample loading procedure and the
subsequent series of automatic
Superb Temperature Control from
processes that were specified by the
20 to 100°C
user in the S II method parameters. In
Accurate Flow Times ( to 0.01 seconds)
general, the sample is drawn into the
viscometer tube, held until the temp.
Thermistor Sensors
has equilibrated, and then released to
drain during automatic timing of the
Peltier Technology Cooling for efficient
flow rate. Data is transferred via the
operation near ambient temperatures
RS-232 serial connection to a host
Powerful VISCPRO II Software for
computer that stores and maintains the
Control, Calculation and Database
data in a MS Access® database. The
Management
sample is then ejected as waste and the
sample vial becomes a wash station as
Compatible with Most Solvents used
solvent is automatically injected into
for Polymer Characterization
the viscometer tube to initiate the
Applications: Solutions of Elastomers,
cleaning cycle which can include a
Plastics, TPEs, Copolymers, Bio-polymers, second solvent for a subsequent rinse
Blends, Oligomers, Pre-Polymers, Resins, and a final purge of compressed air.
Viscosity Modifiers, Pulp and Cellulose
Following tube drying, the vial holder is
returned to its original position, ready
Now Available with 10-place Auto-Sampler
to receive the next sample.
• Designed to Meet the Unique Needs of
Users in the Polymer Industry
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www.biolab.com.tr
MiniPV-HX Fully Automatic
Polymer Solution Viscometer
ASTM D2857, D4603, D789, D1243,
D1795, USP 911, D4243,
SCAN-CM 15:99 - ISO 1628,
ISO 307, ISO 5351, Tappi T230, PAPTAC G.24P, Etc.
Features
• Designed to Meet the Unique Needs
of Users in the Polymer Industry
• Calculation of Relative, Inherent,
Reduced and Intrinsic Viscosity
provided through VISCPRO II software
(for Windows® which also facilitates
procedural tasks such as calibration,
data entry, method specification,
calculation selection, report format and
data exporting.
• Accurate Flow Times ( to 0.01 seconds)
The MiniPV®-HX occupies roughly the
same footprint as an analytical balance,
yet is able to provide a high level of
automation which includes sample
loading, temp. equilibration, flow time
measurement, and cleaning of the
entire system between analysis
• Thermistor Sensors
Applications
• Peltier Technology Cooling for efficient
operation near ambient temperatures
• Viscosity
• 0.3 to 5,000 centistokes range
(special ranges available on request)
• Superb Temperature Control from
20 to 100°C
• Powerful VISCPRO II® Software for
Control, Calculation and Database
Management
• Compatible with Acids and Solvents
used for Polymer Characterization
The miniPV®-HX is an essential tool for the
measurement of polymer solution
viscosities. Its accuracy and convenience
are based on the masterful design of
temperature control, fluid handling,
sensor technology, and automation.
Complete control of the instrument is
Industries
• Pharma
• Plastics
• Automotive
• Chemical
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biolab@biolab.com.tr
37
SpectroVISC Q300
Automatic Single Bath Viscometer
Conforms to the requirements in ASTM D445,
D446, D7279, IP 71 and ISO 3104.
Q300 Single Bath Viscometer is a bench-top Features
semi-automatic kinematic temperature
bath viscometer optimized for the analysis • Compliant with requirements for
ASTM D445, D7279 and related
of used and new lubricants. It conforms to
specifications.
the requirements in ASTM D445, D446,
D7279, IP 71 and ISO 3104.
• High throughput – up to 60 samples
It is also the ideal system for used oil
per hour to ASTM precision.
analysis laboratories that need to test a
• Small sample volume – 0.3 to 0.6 ml.
wide range of lubricant viscosities
• Low solvent consumption –
2.5 ml per sample.
SpectroVISC Q300 can be
operated from the built-in
control panel or from an
optional external PC .
• Easy to use.
• Automatic flow time measurement.
• Fully automatic cleaning and drying.
• Fast, easy tube replacement, no need
to drain bath.
• Single or dual solvent injection system.
• Ultra-precise meniscus detection.
• No PC required for system
to operate.
• System is chemically resistant.
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Analytical results can be viewed on the
built-in LCD display or with the included
data management software on an optional
external PC .
• Optional dual measurement
capability.
www.biolab.com.tr
SpectroVISC Q310
Automatic Dual Bath Viscometer
Conforms to the precise requirements of
ASTM D445, D446, D7279, IP 71,
ISO 3104 and ASTM D2270
SpectroVISC Q310 is a dual-bath, bench-top
semi-automatic kinematic temperature
viscometer optimized for the analysis of
used and new lubricants. It conforms to the
requirements in ASTM D445, D446, D7279,
IP 71 and ISO 3104. It is also the ideal
system for used oil analysis laboratories
that need to test a wide range of lubricant
viscosities.
Features
Viscometer tubes can be easily replaced
without the need to drain the bath.
• Low solvent consumption – 2.5 ml
per sample.
• Compliant with requirements for
ASTM D445, D2270 and related
specifications.
• High throughput – up to 120 samples
per hour.
• Small sample volume – 0.3 to 0.6 ml.
• Easy to use.
• Automatic flow time measurement.
• Fully automatic cleaning and drying.
• Fast, easy tube replacement, no need
to drain bath.
• Single or dual solvent injection system.
• Ultra-precise meniscus detection.
• No PC required for system
to operate.
• System is chemically resistant.
• Optional dual measurement
capability.
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39
UT-Flow
Manual Viscometer
ASTM D445, D7279, ISO 3104 and related
specifications for kinematic viscosity testing.
The UT-flow viscometer was designed as a
high speed low cost alternative for
commonly used viscometer types such as
the Ubbelohde and Cannon Fenske.
Although reliable, these viscometers
present the user with a number of
disadvantages:
Features
• Large quantities of both sample and
cleaning & drying agents are required
• Quick bath and sample warm-up
• Because of its large volume
it’s difficult to clean or dry the
viscometer completely
• Measuring cycles are generally long
UT-Flow Manual Viscometer eliminates all
these disadvantages. Because of the small
volume of the viscometer much smaller
quantities of both sample and drying &
cleaning agents are required, which saves
considerably on measurement costs,
guarantees complete cleaning and drying
and allows for quick sample warm-up. Up
to 90% savings on cleaning/drying agents
are feasible compared to conventional
viscometers.
• Extreme ease of use
• Highly reliable and repeatable
measuring results
• Short measuring times
• Very low sample quantities
(0.3 - 0.8 ml)
• Semi-automated drying and cleaning
• Easily removable viscometers
• Integrated system design eliminates
the need for a separate thermostatic
bath
• Savings up to 90% on
cleaning & drying agents
• Exceptional bath temperature
stability
• Viscometers can be independently
cleaned
• Compliant with or exceeding
requirements in ASTM D445, D446,
D7279 and related specifications
for kinematic viscosity testing
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www.biolab.com.tr
CT-500
Constant Temperature Bath
ASTM D445 for kinematic viscosity measurements
with glass capillary viscometers.
Features
Industries
• Accurate temperature control from
20°C to 100°C
• Asphalt/Bitumen
• Safe/reliable operation
• Pipeline/Terminal
Specifically designed for precise viscosity
determination with glass capillary
viscometers, the CT-500 and CT-518 baths
offer superior temperature control to
100°C. CT-500 offers a 30.5 cm (12”) bath
jar that can accommodate most
viscometers. The CT-518 bath provides a
depth of 45.7 cm (18”).
• Inspection
Applications
• Paints & Coatings
• Viscosity
• Bitumen
• Biofuel
• Biofuel
• Food/Flavor/Fragrances
• Pharma
• Environmental
• Plastics
• Aviation
• Automotive
• Chemical
• Lubricants & Greases
• Aviation
• Military
• Residual Fuel
• Mining
• Fuels
• Petroleum
• Crude Oil
• Grease & Wax,
biolab@biolab.com.tr
• Process
• Condition Monitoring
• Lubricating Oil,
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• Refinery
• Transportation
• Maintenance
• Fuels & Waxes
• Marine
41
CT-600
Constant Temperature Bath
Meets ASTM D445 precision
specifications from 10°C to 100°C
Bath Cooler
Features
Industries
• Ideal for kinematic viscosity
determinations between 10°C and 30°C
• Asphalt/Bitumen
• Built-in thermoelectric cooling provides
“rock-solid” temperature control
at ambient and below
• Pipeline/Terminal
• Meets ASTM D 445 precision
specifications from 10°C to 100°C
CT-600 is similar to the CT-500 but includes
built-in thermoelectric cooling modules,
making it ideal for controlled temperature
applications between 10°C and 30°C.
CT-600 provide accurate temp. control per
ASTM D445 specifications between 10°C
and 100°C.
Applications
• Viscosity
• Bitumen
• Biofuel
• Condition Monitoring
• Aviation
• Residual Fuel
• Fuels
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• Refinery
• Inspection
• Process
• Biofuel
• Food/Flavor/Fragrances
• Pharma
• Environmental
• Paints & Coatings
• Plastics
• Aviation
• Automotive
• Chemical
• Lubricants & Greases
• Military
• Mining
• Petroleum
• Transportation
• Lubricating Oil,
• Maintenance
• Crude Oil
• Fuels & Waxes
• Grease & Wax
• Marine
www.biolab.com.tr
CT-1000
Constant Temperature Bath
ASTM D445 for kinematic
viscosity measurements with
glass capillary viscometers.
Features
Industries
• Select Temperature from 20 to 150°C
& 200°C for HT Model
• Asphalt/Bitumen
• Multiple Safety Features
• Pipeline/Terminal
This durable and accurate insulated bath
offers quick-set temperature control
options and ASTM D445 reliability to
150°C. Up to 7 viscometer tubes/holders
can be placed in the bath. The unit is
equipped with several safety features,
including a bath level float and over-temp.
thermistor.
• Inspection
Applications
• Paints & Coatings
• Viscosity
• Bitumen
• Biofuel
• Biofuel
• Food/Flavor/Fragrances
• Pharma
• Environmental
• Plastics
• Aviation
• Automotive
• Chemical
• Lubricants & Greases
• Aviation
• Military
• Residual Fuel
• Mining
• Lubricating Oil
• Crude Oil
• Grease & Wax
biolab@biolab.com.tr
• Process
• Condition Monitoring
• Fuels
6
• Refinery
• Petroleum
• Transportation
• Maintenance
• Fuels & Waxes
• Marine
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CT-2000
Constant Temperature Bath
ASTM D445 for Kinematic
Viscosity Measurements
Features
Industries
• Microprocessor-Controlled
Temperature Regulation to 150°C
• Asphalt/Bitumen
• Built-in Platinum Resistance
Thermometer
• Pipeline/Terminal
• On-Screen Temperature
Monitoring
• Process
Convenient keypad operation and ASTM
reliability at temperatures to 150°C make
the CT-2000 the bath of choice for many
users. Microprocessor-controlled temp.
regulation, on-screen temp. monitoring,
and serial networking options make this
digital bath an attractive fully functional
addition to the modern lab
• Food/Flavor/Fragrances
Applications
• Viscosity
• Bitumen
• Biofuel
• Condition Monitoring
• Aviation
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• Refinery
• Inspection
• Biofuel
• Pharma
• Environmental
• Paints & Coatings
• Plastics
• Aviation
• Automotive
• Chemical
• Lubricants & Greases
• Military
• Mining
• Residual Fuel
• Petroleum
• Fuels
• Transportation
• Lubricating Oil
• Maintenance
• Crude Oil
• Fuels & Waxes
• Grease & Wax
• Marine
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TE-1500
Constant Temperature Bath
ASTM D445 for Measurement of
Kinematic Viscosity at Low Temperatures
Features
Industries
• Temperature Range from
+10°C to –30°C
• Refinery
• Precision and Stability –
Satisfying ASTM D445 Specifications
• Pipeline/Terminal
• Inspection
• Environmentally-Friendly
Thermoelectric Cooling System
• Process
• Compact Footprint; No Accessory
Heating/Cooling Units Required
• Lubricants & Greases
The thermoelectrically - cooled TE-1500
provides rock-steady cooling to –30°C
using Peltier Cell Technology. Cooling fans
and front panel controls are the only
moving parts in this advanced design. A
four-pane frost-free viewing window and
twin fluorescent lamps provide excellent
visibility and illumination within the bath.
• Petroleum
• Aviation
• Military
• Fuels & Waxes
Applications
• Viscosity
• Aviation Fuel
• Fuels
• Lubricating Oil
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45
TE-3000
Constant Temperature Bath
ASTM D445 for Measurement of
Kinematic Viscosity at Low Temperatures
Features
Industries
• Temperature Range from
+30°C to –30°C
• Refinery
• Self-Contained Thermoelectric Cooling
No Accessory Units Required
• Pipeline/Terminal
• Inspection
• Convenient Keypad Data Entry
• Process
• Selectable Temperature Scale
(Celsius or Fahrenheit)
• Aviation
• Meets ASTM D 445 Requirements
for Temperature Stability
• Military
Our premiere digital bath model for
low-temperature applications, The TE-3000
combines reliable thermoelectric cooling
with convenient keypad operation.
Temperature settings remain stored in
memory even if bath power is cut off. The
liquid-crystal display indicates temperature
in Celsius or Fahrenheit. A self-diagnostic
routine and upgradeable firmware are just
two of many improvements in our
internationally respected bath technology.
• Lubricants & Greases
• Petroleum
• Fuels & Waxes
Applications
• Viscosity
• Aviation Fuel
• Fuels
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• Lubricating Oil
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Q3000 Series
Portable Kinematic Viscometers
Correlates very well to
ASTM D7279 & D445
Direct Kinematic Viscosity
Measurement
A measure of a liquid’s flow under the
influence of gravity is provided at a constant
temperature, so viscosity can be compared
and trended with prior readings.
Requires no density check, temperature
measurement,instrument pre-configuration
or calculation.
Split-cell Capillary Channel
Using a very small sample size; the sampling
chamber controls temp. while infrared
sensors measure flow and trajectory,
delivering immediate results.
Works with Transparent &
Opaque Oils
Provides accurate results for even the
dirtiest samples.
No Cleaning Solvent Necessary
Eliminates worry about solvent disposal
in remote locations. Fewer items to
carry.
Weighs less than 1.8 kg (4 lbs.)
Designed for remote locations, the
Q3000 series includes a hinged cover
that protects the sample chamber and
touch screen while being carried by
hand, in a toolbox or in a knapsack.
Self-contained with
High-resolution Touch Screen,
Battery and Microprocessor
Battery operated
Small Sample Size
Q3000 units can
be ordered as a
combination kit
with the
FluidScan®
Series portable
infrared fluid
condition
monitors.
Enables easy operation, in sunlight or low
light, drawing minimal power for a 6-hour
battery life. Requires no PC.
Small sample size of 60µl (about 4 drops) is
easy to obtain without impacting lubricant
level. Reduces waste.
Temperature controlled: 40°C ± 0.1°C
Each sample is held to a constant temp. for
consistently accurate readings without
additional pre-test measurements.
Stays charged for more than 6 hours.
Built-in universal charger for use
worldwide; region-specific power cable
included.
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47
MINIVIS II
Portable Micro-Viscometer
Precision according to International Standards
ASTM D445, ISO 12058, DIN 53 015
MINIVIS II is an automatic, portable,
temperature controlled micro falling-ball
viscometer used for all kinds of Newtonian
liquids. The use of reflection sensors makes
it possible to cover a wide range of
applications: samples as dark as used oil,
heavy-oil, black ink and blood can be
measured with highest accuracy and
repeatability.
The small sample volume and easy
handling features eliminate the usual
cleaning problems of other viscometers.
For on-line applications, a valving system
using a syringe with a flow-through insert
is available. The built-in Peltier elements
make the use of an external cooler
unnecessary.
Features
• Precision according to International
Standards ASTM D445, ISO 12058,
DIN 53015
• Fast Measurement
• Fully Automatic
• Easy Cleaning
• Wide Application Range
• Clear, Opaque, Dark and
Light-Scattering Liquids
• 0.4 mL Sample Volume
• 0.2 - 1500 mPas (cSt)
• 0 - 100 °C (Peltier)
• Laboratory and On-line Operation
Technical Specifications
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Viscosity
0.2 to 1500 mPas
Repeatability / Reproducibility
0.3% @ 1 mPas / 0.5% @ 1 mPas
Temperature
0 to 100 °C
Sample Volume
0.4 mL
Measuring Time
3 - 10 min.
Measuring Units
mPas; cP; cSt; msec (selectable)
Power Requirements
100/120/230/240 V AC, 50/60 Hz 80 W
Dimensions W x H x D, Weight
196 x 315 x 175 mm, 8 kg
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SimpleVis
Portable Automatic Viscometer
Correlates with ASTM D7279 & ASTM D445
Features
Applications
• Direct Kinematic Viscosity Measurement,
no need to Correlate Dynamic
Viscosity Data
• Viscosity
• Modified Cross-Arm Style Tube, works
with Both Transparent & Opaque Oils
• Condition Monitoring
• Reliable: Only 2 Moving Internal Parts
• Lubricating Oil
• Easy to Use: Graphical Touch Screen
Industries
• Small Sample Volume: 0.5 mL
• Refinery
• Rapid Cycle Time: ~ 3 min
• Pipeline/Terminal
Portable and Rugged
• Inspection
• Smallest Capillary Viscometer
on the Market
• Biofuel
• Solid Bath (no liquid to spill)
• Chemical
• Fully self-contained (no external PC)
• Lubricants & Greases
SimpleVIS™ portable viscometer offers the
industry an exciting new tool for quick
reliable kinematic viscosity measurement.
SimpleVIS provides exceptional temp.
control which is paramount to accurate
viscosity measurement of petroleum liquids.
If your site needs near laboratory quality
viscosity measurements, then the SimpleVIS
is your instrument.
• Military
• Biofuel
• Fuels
• Automotive
• Mining
• Petroleum
• Transportation
• Maintenance
• Fuels & Waxes
• Marine
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49
MINIVIS 445 Portable
Kinematic Viscometer
Excellent correlation to
ASTM D445 and ISO 3104
The MiniVis 445 is the clever combination
of a rolling ball viscometer, an advanced
density meter, and an automatic filling
system: Precise determination of dynamic
and kinematic viscosity over a wide
temperature range, all in a rugged
instrument
fit
for
heavy
duty
environments, yet precise enough for the
lab bench. The use of reflection sensors
makes it possible to cover a wider range of
applications: even samples as dark as used
or heavy-oil can be measured with highest
accuracy and repeatability.
Users appreciate the small sample volume
and the automatic sample feeding, the
measurement cell is easily accessible and
eliminates the usual cleaning problems of
other viscometers. Temp. control with the
built-in Peltier elements eliminates large
water baths and allows for quick
determination of viscosity indices.
Features
• Excellent correlation to
ASTM D445 & ISO 3104
• Viscosity index (ASTM D2270)
• Viscosity range of
0.2 - 2000 mm2/s (mPa.s)
• Only 25 mL sample
• Only 3 min. turnaround time
for a sample with 100 cSt at 40°C
• Fast thermoelectric temperature
control (Peltier)
• Automatic sample introduction
• Wide temperature range -20 to 110°C
• Automatic programmable
cleaning cycles
Easy Cleaning
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An automatic rinsing cycle with solvent or a new
sample cleans the entire system, that's why we use 25
mL of sample, when only 5 mL are needed for
measuring. Due to its bayonet enclosure, the viscosity
cell is also easily removable for inspection and cleaning
in an ultrasonic bath. You can confirm cleanliness
before your results are wrong. The instrument is delivered with a couple of viscosity
cells to avoid any down time during cleaning.
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CCS Automatic
Cold-Cranking Simulator
Meets all the requirements of
ASTM D5293 and SAE J300.
Features
• Cooled by Built-in Solid-State
Thermoelectric Modules
• Powerful VISCPRO® for
Windows® Software
• Fully Automatic Operation
• Improved Precision Over Earlier Models
Thermoelectrically - Cooled Cold-Cranking
Simulators measure the apparent viscosity
of oils at temperatures from –35°C to –5°C
within a viscosity range of 1500 mPa•s to
27,000 mPa•s.
The CCS-2100 combines automatic sample
loading, computer-controlled operation,
and solvent-free cleaning to permit
completely unattended operation. No
further operator involvement is required
after initial loading of the sample table and
identification of samples. The CCS-2100 will
automatically test up to 30 samples at one
time, calculate their viscosities, and record
the results, freeing the operator for other
tasks. Improved temperature management
of the rotor/stator eliminates the need for
grouping the samples by temperature of
analysis, as was necessary in older CCS
models.
In addition, a thermoelectric sample
warming cycle greatly improves the
sample flushing process.
CCS-2100 meets all the requirements of
ASTM D5293 and SAE J300.
Applications
• Viscosity
• Lubricating Oil
• Tribology
Industries
• Automotive
• Lubricants & Greases
• Petroleum
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51
High-Temperature
High-Shear Viscometer
ASTM D5481, D4741,
CEC L-36-A-90, IP 370,
SAE J300
Features
• ASTM D5481, ASTM D 4741,
CEC L-36-A-90, IP 370, SAE J300
• Measures 15 to 20 Samples per Hour
• One-Button Operation - Load Sample,
Set Pressure, and Press “Start”
The viscosity range of 2-7 mPa•s can
be extended to more than 20 mPa•s
with custom configuration.
Applications
• Viscosity
• Lubricating Oil
• Reduced Role for Operator Enhances
Repeatability and Reproducibility
• Tribology
• Variable Temperature and Shear Rate
for Research Applications
• Refinery
High-Temperature High-Shear Capillary
Viscometer (HTHS Series II) is designed to
determine the viscosity of engine oils and
other oils under conditions of high shear at
high temperatures. The HTHS is capable of
testing at 1.4 x 106s–1 at 150°C and meets
all precision specifications of ASTM D5481
and SAE J300. The Series II design incorporates simple one-button operation — just
load samples, set pressure, and press the
Start button. The reduced operator role
enhances repeatability and reproducibility.
If desired, variable shear rates (± 30
percent of the shear rate specified in ASTM
D5481) may be obtained by altering the
test pressure (variable from 75 to 500 psi).
Industries
• Inspection
• Automotive
• Lubricants & Greases
• Military
• Petroleum
• Maintenance
• Fuels & Waxes
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Ravenfield High Temperature
High Shear Viscometer
High-temperature High-shear testing
of engine lubricants according to
ASTM D4741, CEC L-36-A-90 and IP 370
as specified by SAE J300 and ACEA.
ASTM D4741 is aligned with
ASTM methods D4683 (TBS) and D5481.
Features
• (Optional) Inert gas purge to protect
calibration, and allow higher
• Automatic positioning of the rotor and
temperature operation
stator gap.
• External data interface via standard
• Uses industry standard test method &
Web Browser, secure access
materials (ASTM D4741)
to all test results.
• (optional) Wider test ranges built in.
• Built in SPC (statistical process
- test over higher and lower shear rates,
control) system.
- test over higher and lower temp. -to 200oC
• Built in LIMS , over TCP/IP interface.
- 150 W of shearing power.
• Automatic flowcurve generation for
• Higher measurement precision, with 20
Non-Newtonian sample evaluation.
bit measurement paths throughout.
• (Optional) integrated auto sampler
• Fully digital speed control.
available.
• Fully digital temperature control with
• “Failsafe” mode – manual operation
adaptive non-linear servo system, gives
fast accurate control over the “sweet spot” always available.
of the measurement test point.
Benefits
• Continuous test severity monitoring,
• 1-2 percent repeatability
control and correction
• Low bench top requirements
• Onboard viscosity calculator
(~450mm wide, 600mm deep)
• Compatibility with DR Auto sampler
• Integrated Heating – no external bath.
- Liquid circulation, for precision control.
Model BS/C is designed to measure at
• Integrated computer – no space for a PC temperatures from 40°C to 180°C and
- Touchscreen operation, no bench clutter. shear rates from 100,000 to 1,500,000
reciprocal seconds. Flexibility makes it a
• Integrated Printer – high speed printer.
useful tool for many high-shear research
• Integrated vacuum pump for sample
applications. The BE/3 base model is
extraction and pre-filtering of used oils.
also available for SAE J300 testing.
• Integrated calibration oil storage &
pumping, with level monitoring.
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53
Black Pearl
Rotary Viscometer
Viscosity Measurements
ASTM D445, D2196, D4287
and equivalent
Applications
• Viscosity Measurements
• Temperature Ramps
• Yield Stress Measurements
• Thixotropic Recovery Tests
Industries
BLACK PEARL is Interfaced
and Controlled with Powerful
Windows Based Software
Key Features Include:
• Oil
• Real time display of test values
• Paint, Coating & Ink
• Automated program control
• Pharmaceutical & Cosmetic
• “Test Definition” windows to
rapidly create multiple
step experiments
• Sticky Point Determination
• Lubricant
• Food
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parallel plate and concentric cylinder
measuring systems are included. The
measuring systems employ novel “quick
capture” mounting technology. The
gapping mechanism is highly accurate
and user adjustable.
The BLACK PEARL controlled shear rate
rotational rheometer is a high performance instrument capable of both steady
shear and yield stress testing in a rugged
yet compact footprint. Designed for
performing both routine QC tests and
complex R&D evaluations, the BLACK
PEARL is ideal for investigating the mixing,
stirring and process flow characteristics of
fluid systems. The unit comes standard
with build in Peltier Temperature Control
for all measuring systems. Cone and plate,
• Provides instantaneous
viscosity flow curves
• Interactive graphing allows full
control over displayed, printed,
and plotted variables
• User enterable data sets and
data comparison
• Simple data exportation through
Windows Clipboard to Excel
• CE certified
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Digital Paddle Viscometer
Meets ASTM D7226
Precision Specifications
Features
• Designed for non-homogeneous
materials including marine fuels,
emulsions, suspensions, residual oils,
slurries, foods, and other materials
• NEW water-cooled model available
• Temperature control to 0.1°C at 25, 40,
50, 80, and 100°C
• Rugged and lightweight
• Meets ASTM D7226 precision
specifications
The Digital Paddle Viscometer has been
designed to accurately measure the
viscosity
of
emulsified
asphalts,
suspensions, marine fuels, residual oils,
slurries, paints and similar materials
between 30 and 30,000 mPa•s at
temperatures of 25°C, 40°C, 50°C, 80°C,
and 100°C (see temperature specifications
for temperature associated with each
model). Follows Standardized Test
Methodology: ASTM D7226 for emulsified
asphalt testing. Available in two models
(standard and water-cooled), the Digital
Rotational Paddle Viscometer can also be
used for other applications consistent with
its temperature control and viscosity
measurement capabilities. Ideally suited
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for field use, the Rotational Digital
Paddle Viscometer can determine the
viscosity of lubricating oils, marine
fuels and other liquids, yielding results
with an accuracy of five percent or
better for most materials—better than
that required by ASTM D445 for
residual oils at 50°C.
Applications
• Viscosity
• Bitumen
• Residual Fuel
• Fuel
• Lubricating Oil
• Crude Oil
Industries
• Asphalt/Bitumen
• Paints & Coatings
• Marine
• Refinery
• Pipeline/Terminal
• Lubricants
• Petroleum
• Fuels
• Grease & Wax
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TE-DPV Thermoelectric Digital
Rotational Paddle Viscometer
Meets ASTM D7226
Precision Specifications
Features
• Designed for nonhomogenous
materials, including marine fuels,
emulsified asphalts, suspensions,
slurries, foods, residual oils and
other materials
• Environmentally Friendly
Ideally suited for field use, the Rotational
Digital Paddle Viscometer can determine
the viscosity of lubricating oils, marine
fuels and other liquids, yielding results
with an accuracy of five percent or better
for most materials—better than that
required by ASTM D445 for residual oils
at 50°C.
• Small Sample Size
• Follow Standardized Test Methodology:
ASTM D7226
Thermoelectric Digital Rotational Paddle
Viscometer (TE-DPV) has been designed
to accurately measure the viscosity of
emulsified asphalts, suspensions, marine
fuels, residual oils, slurries, paints and
similar materials between 30 and 3,000
mPa•s at temperatures of 25°C , 40°C,
50°C, 80°C, and 100°C. The Rotational
Digital Paddle Viscometer follows
Standardized Test Methodology ASTM
D7226 for emulsified asphalts testing. The
TE-DPV can also be used for other
applications
consistent
with
its
temperature control and viscosity
measurement capabilities.
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Model 2020
Rotary Viscometer
Meets ASTM D7226
Precision Specifications
Features
Industries
• Accurate Digital Viscometer
• Asphalt/Bitumen
• Multiple Spindles and 18 Speeds
• Displays Viscosity Directly in cP or mPa·s
• Simple Operation
Model 2020 Rotary Viscometers provide a
convenient, low cost means for the
viscosity determination.
These easy-to-use instruments measure
the viscous drag of a liquid against a
rotating spindle. A digital readout displays
viscosity directly in centipoise (shown as
cP) or milliPascal-seconds (shown as
mPa•s). No calculations are required —
just select spindle and speed, press the
Motor On switch, and read the viscosity
from the front panel display. Model 2020
Rotary Viscometers are available in two
types. The low viscosity LV-2020 model
and the medium viscosity MV-2020 model
Applications
•
•
•
•
•
•
•
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Viscosity
Bitumen
Residual Fuel
Fuels
Lubricating Oil
Grease & Wax
Tribology
• Refinery
• Pipeline/Terminal
• Inspection
• Process
• Food/Flavor/Fragrances
• Pharma
• Environmental
• Paints & Coatings
• Plastics
• Automotive
• Chemical
• Lubricants & Greases
• Military
• Mining
• Petroleum
• Transportation
• Maintenance
• Fuels & Waxes
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CMRV 4500
Mini Rotary Viscometer
Meets requirements of ASTM D4684,
ASTM D3829, and ASTM D6896
ASTM D6821 compatibility with optional
Drive Line Rotor Kit
Features
Applications
• Thermoelectrically-cooled with enhanced • Viscosity
temperature control and test precision
• Lubricating Oil
• Measures yield stress and viscosity
Industries
for drive line lubricants and engine oils
• Automotive
• Meets latest SAE J300 specifications
for low-temperature pumpability
• Lubricants & Greases
• High-performance rotors with
carbon fibre shafts
• Petroleum
• Meets requirements of ASTM D4684,
ASTM D3829, and ASTM D6896
• ASTM D6821 compatibility with optional
Drive Line Rotor Kit
The CMRV-4500 Mini-Rotary Viscometer is
designed to measure yield stress and
viscosity of drive line lubricants and new
and used automotive engine oils over a
temperature range of –5°C to –40°C,
meeting ASTM D4684, D3829, D6821 and
D6896 requirements. The CMRV instrument
determines pumping viscosity in accordance
with the latest SAE J300 specifications.
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CMRV 5000
Mini Rotary Viscometer
Meets Requirements of ASTM D4684,
D3829, D6821 & D6896
Features
Applications
• Self-Contained Air-Cooled Unit —
Thermoelectric Temperature Control
• Viscosity
• Measures Yield Stress and Viscosity for
Drive Line Lubricants and Engine Oils
Industries
• Meets Latest SAE J300 Specifications
for Low-Temperature Pumpability
• High-Performance Rotors with Carbon
Fibre Shafts in Five Removable Cells
for Easy Cleaning
• Lubricating Oil
• Automotive
• Lubricants & Greases
• Petroleum
• Meets Requirements of ASTM D4684,
D3829, D6821 & D6896
CMRV-5000 Mini-Rotary Viscometer is
designed to measure yield stress and
viscosity of drive line lubricants and new
and used automotive engine oils over a
temperature range of –5°C to –40°C,
meeting ASTM D4684, D 3829, D6821 and
D6896 requirements.
CMRV instrument determines pumping
viscosity in accordance with the latest SAE
J300 specifications. innovative redesign of
the reliable Mini-Rotary Viscometer
series.
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59
Brookfield Viscosity
at Low Temperatures
Test Methods
ASTM D2983,
ISO 9262, IP 267
LB-76
Features
• Programmable Liquid Visibility Bath for
Brookfield Viscosity at Low Temperatures
LB76-2
Operating temperature range of the
programmable liquid baths is +20° to
-55°C. Temperature control is within
±0.1°C.
Windows based software is capable of
controlling two baths simultaneously.
This allows operating baths at two
• Replaces the need for balsa wood carriers independent temp. with independent
start, stop, and duration times.
• Operating temperature range
• Superior data reproducibility and
repeatability vs. air chamber method
from +20° to -55°C
Model LB-76
Programmable Liquid Bath is a bench top
model has a single bath with 10 sample
• Full visibility of the immersed sample
capacity. A Windows based PC is required
(not supplied). The bath is supplied with
• One and two independent bath models
an integral leveling viscometer support
The use of programmable liquid baths for rod.
ASTM D2983 has been allowed since the first
Model LB-76-2
development of the test if the cooling profile
Is a bench top model and is identical to
meets the specifications of Annex A2 of the
LB-76 but with two independently
method.
controlled baths, each with 10 sample
Liquid baths are programmed such that the capacity. This allows two simultaneous
sample cooling rate equals the cooling rate tests at different temperatures and
experienced by a sample when immersed in independent start and/or stop times.
the constant low temperature air chamber.
The bath can also be programmed to cool at
a rate of 1°C per minute from ambient to as
low as -55°C as per CEC-L-18A, ISO 9262, and
IP 267 for the measurement of European low
temperature Brookfield Viscosity.
• Temperature stability better than ±0.1°C
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PolyVisc Automatic Viscometer
& Polymer SPS
Polymer Solution Preparation System
PolyVisc Automatic Viscometer
PolyVisc Features
The modified Ubbelohde tube is
particularly suited for more volatile
• Automatic glass capillary polymer viscosity samples, and may significantly enhance
analysis between 0.3 to 20,000 cSt*
determinability and repeatability.
• Compatible with most solvents used
for polymer work
• Unique AIRBATH® technology –
ultrastable thermostatic air chamber
• Temperatures from 20 to 100°C
(135°C with High Temperature Option)
• VISCPRO® Windows® software calculates
relative viscosity, inherent viscosity,
reduced viscosity, and intrinsic viscosity
• May also be used for other viscosity
applications
PolyVISC® Automatic Viscometer combines
automatic sampling, viscosity measure,
viscometer washing and polymer solvent
compatibility to provide a convenient bench
top unit ideal for dilute solution polymer
viscosity analysis.
Polymer SPS Features
• Prepares Dilute Polymer Solutions
for Relative Viscosity Measurements
Using Weight-to-Weight Methodology
• Eliminates Errors Due to Variations
in Solvent Density and Cumbersome
Manual Weight & Volume
Measurements
• Provides Concentration Accuracy
Often Better than ±0.02%
PolyVISC® Solution Preparation System is
semi-automated solution preparation
system that uses gravimetric rather than
volumetric methodology. The SPS can be
used with the PolyVISC Automatic
Viscometer to provide a complete
polymer analysis system
PolyVISC Viscometer Tubes
Two tube types are available for the PolyVISC
instrument.
The
modified
Atlantic
compound viscometer tube is suitable for
most samples.
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61
Industrial Tribology Laboratory
Spectro Industrial Tribology Laboratory (ITL)
Spectro Industrial
Tribology Laboratory (ITL)
Features
• Intuitive web interface (SpectroTrack)
• Easily configurable with both Spectro
Scientific & non-Spectro Scientific devices
• Supports multiple fluid types
• High productivity and good sample
throughput (most measurements take
about 1 minute)
Benefits
• World standard ITL solution
SpectroTrack Information
Management System
Features
• Self-contained installation on
one server
• Designed specifically for oil analysis
programs – dedicated or contract
testing
• Supports customer (private label)
branding
• A complete monitoring solution
• Remote portals can access systems
over the Internet
• Measures all parameters of lubricant,
machine and contamination conditions
• Laboratory dashboard for easy
work flow management
• ASTM testing
• Scales well as your business
• Asset management software, trending,
reporting
Benefits
• High accuracy
• High sample throughput
• Easy to operate
• Rugged and reliable
• Low operating costs and
environmental impact
• Faster cleanup
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Industrial Tribology Laboratory (ITL)
Common Mission
Critical Equipment
• Aircraft
• Construction
• Excavators
• Haul Trucks
• Locomotives
• Military Equipment &Transport
• Manufacturing Machinery
• Oil Refinery / Drilling Rigs
• Race Car Fleets
• SAG Mills & Mining Equipment
• Ships and Marine Fleets
• Turbines in Energy Generation
Typical Equipment
Components of Concern
• Blowers
• Compressors
• Differentials
The Industrial Tribology Laboratory (ITL) is a turnkey system that provides a complete
lubricant analysis condition monitoring solution. The measurements made using the
Industrial Tribology Laboratory determine lubricant and machine condition, the core
of any effective predictive maintenance system. ITL system is expandable and can
incorporate testing and measurement solutions for other machinery fluids such as
fuel, coolants, transformer oils and greases.
ITL installs and provides training for all instruments as an integrated system. Since the
Industrial Tribology Laboratory is a turnkey system, supplied and installed by one
vendor, the worry and learning curve errors associated with new methods and
equipment are minimized during the startup process. Condition monitoring of your
equipment can begin immediately after the installation of your instruments and
during the initial training of your personnel.
The instruments that constitute an ITL are carefully chosen because they provide the
necessary data to effectively monitor the condition of your oil lubricated equipment,
but also because they are easy to operate and maintain, require a minimum of special
utilities to install and provide strong sample throughput (most measurements take
about 1 minute). The analytical instruments send results to the central computer (or
a network) where they are stored in database file for subsequent analysis, evaluation,
and reporting.
The Importance of Lubricant and Fluid Analysis in
Predictive Maintenance
Machine condition monitoring or predictive maintenance is the practice of assessing
a machine’s condition by periodically gathering data on key machine-health
indicators to determine when to schedule maintenance. One of the keys to keeping
machinery operating at optimal performance involves monitoring and analyzing
lubricant oils for characteristics such as contamination, chemical content and
viscosity. Billions of dollars are spent annually replacing machinery components that
have worn out due to the inability of the lubricants to perform the required task.
Knowing how to interpret changing lubricant properties can increase both the
uptime and the life
• Gas and Steam Turbines
• Gear Boxes and Reducers
• Hydraulic Systems
• Motors and Bearings
• Propulsion Systems
• Pumps
• Roller Element Bearings
• Rotary/Scroll Compressors
• Reciprocating Engines
• Sleeve Bearings
• Transmissions
• Transformers
• Wind and Gas Turbines
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65
Distillation Analysis
MINIDIS ADXpert Automatic Distillation Unit
FAD 86 Fully Automatic Distillation
Distillation Systems & Pilot Plants
Crude Oil Distillation Systems
Thin - Film Evaporators
MINIDIS ADXpert
Automatic Distillation Unit
Excellent correlation to ASTM D86,
ISO 3405, ASTM D850 & ASTM D1078
and IP 123, IP 195; Groups: 0 to 4
Performs exclusively according to the small scale
distillation standard ASTM D7344
Features
Benefits
• Performs exclusively to the new
standard ASTM D7344 (group 0-4)
• Automatic and fast mini-distillation
for highest productivity
– Automatic temperature controlled
sample introduction system
– Automatic flow correction and cooling
– Fast & easy cleaning
• Excellent correlation to ASTM D86,
ISO 3405 and IP 123, ASTM D850
and ASTM D1078
• True atmospheric distillation
• Superior repeatability and
reproducibility
• Dry point detection
• Short turnaround time
• Driveability Index
• Easy operation
(guided step-by-step user menu)
• Test temperature 0 – 400°C
• Only 6 ml of sample
Applications (Laboratory & Mobile)
• Inexpensive consumables
• Gasoline and naphta
• Kerosene and jet fuel
• Diesel & fuel oil
• Biofuels
• Automotive, aviation and marine fuels
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• Small, rugged and truly portable, ideal
for laboratory, mobile or field use
• Highest safety: No fragile glassware,
no fire extinguisher necessary
• No operator bias
• Accurate volume detection
(optical meniscus)
• Blending
• Exact residue determination
(built-in balance)
• Adulteration & contamination detection
• Automatic pressure correction
• Spirits and other liquid petroleum
products
• 20 different pre-installed programs for
each group (0-4)
• Narrow boiling products
• Volatile organic liquids
• MINIWIN PC-Software for remote
control and seamless LIMS-integration
• Solvents and chemicals
• Optional 12V vehicle battery operation
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PILODIST 086 CC
Automatic Distillation System
Accordance the following standards:
ASTM D86 (group 0-4), ASTM D216,
ASTM D285 (modified), ASTM D447,
ASTM D1078 (internal standardized with solvents
and group 7 and 8)
IP 123, ISO 3405 and DIN 51751.
Features
• Automatic temperature calibration
(Operated automatically before each
distillation without need of external
calibration equipment)
• Level follower with stepper motor
• Automatic calibration of the volume
measurement, zero point and 100 ml
• Efficient heating system
• Built in, Windows based industrial PC,
with 12,1" TFT active color LCD-Display
with Touch-Screen for most comfortable
operation of the analyzer, including
- Intel Atom Micro-Processor
- 64 GB compact flash card
- Ethernet interface for intranet
connection
- USB plugs for possible connections of:
• Accuracy: +/- 0,1 ml volume,
+/- 0,01oC temperature
- Keyboard
• Receiver chamber heating system,
range 0 - 60oC
- Printer
• Distillation range 0 - 450 C
- Windows Software.
o
- Mouse / trackball
- Software package
• Calculation of cetane index
• 100 and 200 ml measuring cylinders
useable, consequently 100 and 200 ml
test samples may be distilled
• "door open" sensor,
• Built in environment friendly Peltier
elements for cooling and heating
• Built in automatic fire-extinguishing
system, with an external Nitrogen
(N2) supply
• Emergency “STOP ALL” switch
• Slim design
• Learning Program
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69
FAD 86
Fully Automatic Distillation
ASTM D86, D1078, D850
E123, IP 195, IP 191, IP 123, DIN 51751, NF M07-002,
EN ISO 3405, JIS K2254, ISO 918, BS2000 Parts 123, 191, 195,
BS 7392, 10% residue for carbon residue measurement
Gasoline E10, E15 & E20 samples
Benefits
• Extremely precise, reliable & comparable
test results
• Fast, easy, fully automatic operation yet
with unparalleled customization options
• High end, solid state hardware:
- Volume Scan – accurate detection of the
bottom of the meniscus
- Condenser with Peltier elements: reliable
with fast cooling interactions
explore a lot of distillation parameters,
which is great for research purposes and
special products. Service level login
allows our trained engineers to optimize
programs for extremely difficult samples
with unparalleled performance levels.
Different user types with variable access
rights give each user the right protection
and freedom in their own working
environment. Free software updates are
easily downloaded from the Apple
Appstore.
Data Handling & Printing
- Low voltage heater with reflection system: Automatically store, restore and
30% more heat & efficiency
synchronize data with an FTP-server.
Send to LIMS, save as PDF, email, print
• Safety through fire extinguisher with
with optional Zebra printer and direct
advanced fire and nitrogen detection
print on A4. FAD 86 offers you a wide
variety of flexible data handling,
• Multiple language support
compatible with Windows operated
Intuitive & Easy with iPad
systems and all common modern
The special DistPad app on the iPad gives techniques.
you easy, yet complete control over the
distillation process. The DistPad app comes
with pre-programmed ASTM D86 programs
and a set of major ASTM methods. New
programs can be easily created from
method presets and customized for special
products. Standard users will enjoy an
intuitive & automatic operating experience,
while high-experience users are allowed to
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Technical Specifications
Methods
ASTM D86, D1078, D850. E123, IP195, IP191, IP123, DIN51751,
NFM07-002, EN ISO 3405, JIS K2254, ISO918,
BS2000 Parts 123, 191, 195, BS 7392, 10% residue for carbon
residue measurement. Gasoline E10, E15 & E20 samples.
User interface
system
Multiple language support
Low mass low voltage heater with reactor, providing 30% more
Final heat
Condenser
system
Volume scan
system
Charge volume: 0- 103%
Residue
Vapor temp.
0 – 450 °C on ASTM or 0 – 500 °C Absolute. PT-100 class A
measurements
thermometer results to Mercury in-glass thermometer results.
Ambient
pressure
Safety
System health
Dimensions &
Weight
Accessories
Voltage
Power
CCD volume scanning device
biolab@biolab.com.tr
requirements
ensuring all components are in excellent state.
printer, email, PC, FTP server and Pad.
Dimensions: 40cm x 40cm x 65cm (W x D x H). Weight: 40 kg.
100-240 VAC 50/60 Hz
1.2KW
Environment temperature 10 °C – 35 °C. Environment humidity
up to 80 % at 35 °C.
71
Crude Oil Distillation System
PETRODIST 100 S/M/CC
Turn Key Processor controlled crude oil distillation system
for Fully Automatic, Semi Automatic & Manual operation
according to ASTM D2892
Compact design with control system and
safety items for unattended operation.
No operator intervention and no
intermediate stops are required.
The distillation ensues automatically from
the gas cut (IBP) to the pre-selected end
point without any interruptions and any
interventions. The yield calculation refers
to the weight of the flask charge. The
weights of the fractions are detected by
means of a build in electronic balance
prior to the discharge from the system
into the fractional collector. Online
weight measurement and automatic
volume detection is provided with fully
automatic system.
A data station for overriding parameter
input as well as for display and print - out
of all operation parameters, distillation
results and TBP-curve, as well as an
external balance is included.
The system is modularly constructed and
provides the possibility to allow several
options like water removal (prior to the
start of the distillation), stainless steel
flasks,
gas
detector,
hydrogen
sulfide-alarm and cold-trap as well as a
complete sheating of the system. The
TBP-curve will then be printed out in
weight and volume percent.
There are manual, semi-automatic &
fully automatic options are available for
Petrodist 100 Series. All necessary
accessories will be supplied together
with the system.
Technical Specifications
100 CC
Flask Size
100 S / M
1, 2, 4, 6, 10, 20 and 50 L
vacuum down to 1 Torr
Max. 350oC
Final Cut Temperature
400oC AET
20 receivers
72
9 receivers
Power Supply
3 x 208 – 250 V, 50 Hz
Dimensions (W x H x D)
Approx. 2.6 x 3.5 x 0.9 m
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Crude Oil Distillation System
PETRODIST 200 S/CC/CC HV
Turn key processor controlled crude oil distillation system
for fully automatic operation according to ASTM D5236
(Standard Test Method for Distillation of
Heavy Hydrocarbon Mixtures, Vacuum Potstill Method).
The system is designed for unattended
operation (during the distillation), the
safety devices are designed accordingly.
Data station for data input as well as for
display and print out of all operation
parameters, distillation results and
distillation curve. The distillation ensues
automatically from the start to the
pre-selected or detected end point. The
distillate volume is automatically recorded
by means of an integrated volume
follower system. The volume is measured
separately on every individual receiver.
The unit does not contain any
intermediate receiver i.e.: to avoid reblend
of the distillate. The volume calculation is
expressed as percentage corresponding to
the weight and the volume of the flask
charge or total recovery. The distillation
curve is printed out in weight and volume
percent. The fraction changes are carried
out automatically, alternatively according
to a pre-selected boiling temperature or
distillate volume or when the receivers
are filled up.
The vacuum-tight fraction collector
contains 12 receivers with a capacity 500
mL. The boil up rate is controlled
according to a pre-selected distillation
rate in ml/min. An accurate vacuum
control guarantees the required stability
of the distillation pressure. Petrodist
200CC provides online volume detection
& automatic weight measurement and
also HV (High Vacuum) option for higher
temperature distillation processes.
Technical Specifications
Flask Size
200 CC
200 CC HV
2, 4, 6, 10, 20 L
6L
400oC
Final Cut Temp.
565oC AET
620…650°C AET
vacuum down to 0.1 Torr
0.006 – 10 mm Hg
Dimensions (W x H x D) 1.6 x 2.2 x 0.9 m
Power Supply
biolab@biolab.com.tr
4 x 2.6 x 0.8 m
3 x 208 – 250 V 50 Hz
73
Crude Oil Distillation System
PETRODIST 300 M/CC/CC-F
Crude oil distillation system
according to ASTM D1160, D5236
Special advantages of the new PETRODIST 300 CC are
• Computer as parameter input and display
unit as well as calculation of the distillation
data and printing of the distillation curve
• Menu control guarantees easy &
userfriendly operation
• Flexible parameter selection makes using
of the system for continuous problem
definitions possible
• Perfected safety system
• Distillation reports and curves can ever
be re-called
• Calculation of charge according to receiver
temperature and charge density
• Detailed distillation data by
self-calibrated accurate volume
measuring system
• Minimum installation effort
as the system is delivered ready
for operation
The distillation volume is measured
automatically in tempered receiver. Yield
is calculated in percentage to the charge
quantity. Distillation report, final data
and distillation curve are printed out.
Manuel and Fraction Collector options
are also available.
Technical Specifications
Flask sizes
500 ml
Flask charge
200 ml
up to 400° C (750° F)
Final cut temperature
up to 550° C AET (1020° F)
Max ambient temperature
25° C
vacuum down to 0.1 Torr
74
Mains supply
208 – 250 V, 50 Hz (60 Hz upon request)
Dimensions (W x H x D)
approx 0.65 x 0.64 x 0.96 m
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Crude Oil Distillation System
PETRODIST 400 A/S/CC
Crude oil distillation system for
fully automatic operation
according to
ASTM D2892 (TBP) &
ASTM D5236 (Potstill)
PETRODIST 400 combination systems:
PETRODIST 100 (ASTM D2892) &
PETRODIST 200 (ASTM D5236)
Both systems can operate at the same time
(simultaneously) in fully automatic,
uninterrupted and unattended mode. The
data evaluation software provides also a
combined TBP-curve for both systems.
Compact design with control system and
safety items for unattended operation. No
operator intervention and no intermediate
stops are required. All necessary
accessories are supplied together with the
system. The installation requires water,
nitrogen, compressed air and electricity.
The system enables to perform TBP &
Potstill
distillations of various crude
samples according to ASTM standards and
is designed for laboratory use. The
PETRODIST 400 system is equipped with
central computer control, vacuum supply
and thermostate system, data storage
and evaluation station as well as a
fraction collector, designed to serve for
both distillation systems simultaneously
and provides direct automatic distillation
flow rate control. The fractional receiver
changes are automatically performed
according to pre-selected cut temps. or
in case of receiver overfilling.
Both systems are equipped with
individual fraction collectors to allow
simultaneous operation of both systems.
The final data and the TBP-curve in wt%
and vol% are printed out after
reweighing the residue. Dry ice or liquid
nitrogen is required for cold traps.
There are manual, semi-automatic and
fully automatic options are available for
Petrodist 400 series.
Technical Specifications
Final cut temp.
biolab@biolab.com.tr
Equip. for ASTM D2892
Equip. for ASTM D5236
2, 4, 6, 10, 20 and 50 L
2, 4, 6, 10, 20 L
Up to 350°C
Up to 400° C
Vacuum down to 1 Torr
Vacuum down to 0.1 Torr
Up to 400°C AET
Up to 565°C AET
75
Crude Oil Distillation System
PETRODIST 500Q
Operation stages follow
ASTM D2892: ATM, 100, 10, 2 torr
Column efficiency similar
to ASTM D2892
Features
distillation at a very attractive price.
Although the distillation column is
packed with Propak 316 and the
controller allows to perform all required
• Quick distillation of small crude oil
distillation runs (atmospheric and
charges
vacuum 1 – 3) the system is similar but
• 2 hrs. for each distillation stages
not strictly designed according to ASTM
D2892 standard. The system can be
• Fraction collector for automatic or
operated alternatively with fraction
manual operation
collector or with the intermediate
• Operation stages follow ASTM D2892:
receiver for larger cut volumes as well as
ATM, 100 torr, 10 torr, 2 torr
the determination of the actual
• Column efficiency similar to ASTM D2892 distillation rate. Both collection systems
are included in the scope of supply.
Following an increasing demand for crude
oil distillations to analyze small quantities in The purpose of this system is to get a
a short period of time PILODIST has quick analysis of the composition of
modified the existing HRS 500 system to be crude oil for further decisions.
• Bench scale crude oil distillation system
for semi-automatic operation
applied for the purpose of crude oil
Technical Specifications
100 - 350 ml
(similar ASTM) ATM, 100 torr, 10 torr, 2 torr
down to 1 torr
Up to 400°C AET, (750° F)
76
Mains supply
208 - 250 V, 50 Hz (60 Hz upon request)
Weight
Approx. 80 kg
Dimensions (W x H x D)
1.20 x 1.50 x 0.50 m
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Distillation Systems & Pilot Plants
MRS 255 Micro-Distillation
With concentric tube column MRS 255.
Apparatus for fractionation of small charge
quantities.
The Special Advantage of the
Concentric-Tube-Column are:
• Extremely low pressure drop
• Highest separation efficiency
• Minimum hold-up
The separation efficiency in the
concentric-tube-column is based on
the physical principle of the mass
transfer between vertically rising
vapor and the spirally trickling film
of liquid in a concentric annular gap
made of glass. The column consists
of two concentrically melted-in,
especially selected and calibrated
glass tubes.
Concentric-tube-column is perfectly
suitable for the separation of
temperature sensitive substances.
• All-glass construction
• Static design (no rotation)
Technical Specifications
3 - 25 ml
20° - 250° C
1000 – 0,01 mbar (depending on sensor range)
biolab@biolab.com.tr
Mains supply
208 - 250 V, 50 Hz (60 Hz upon request)
Weight
approx. 31 kg
Dimensions (W x H x D)
approx. 0.90 x 0.75 x 0.50 m
77
Distillation Systems & Pilot Plants
HRS 500 C Semi-Micro Distillation
With concentric-tube-column HRS 500.
Especially versatile unit with highest
separation efficiency & up-to-date
processor control.
Advantages of the
Concentric-Tube-Column
• Extremely low pressure drop
• Highest separation efficiency
The separation efficiency in the
concentric-tube-column is based on the
physical principle of the mass transfer
between vertically rising vapor and the
spirally trickling film of liquid in a
concentric annular gap made of glass.
The column consists of 2 concentrically
melted-in, especially selected and
calibrated glass tubes.
Concentric - tube - column is perfectly
suitable for the separation of temp.
sensitive substances.
• Minimum hold-up
• All-glass construction
• Static design
(no rotating parts inside the column)
Technical Specifications
Flask sizes
50, 100, 250 ml
10 - 150 ml
20° - 250° C
atm down to 0.001 mbar
78
Mains supply
208 - 250 V, 50 Hz (60 Hz upon request)
Weight
approx. 76 kg
Dimensions (W x H x D)
1.20 x 1.40 x 0.50 m
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Distillation Systems & Pilot Plants
PILODIST 104 Versatile distillation
Versatile distillation system with high
separation efficiency. The system is supplied
with 2 different column types (DN 25), a
concentric-tube-column and a wire gauze
trickling column, which can alternatively be
applied according to requirements.
Gentle distillation by temp. controlled oil
bath with product circulation. Operation
range from ATM down to vacuum.
This distillation system can be operated by
using a single final receiver or alternatively
by using a spider type automatic fraction
collector with 6 receivers of 1 L volume
each. Equipped with processor based
distillation control device DCD4001
with heating control for oil bath and
heating mantle, automatic reflux
control, vacuum control, fraction
collector control as well as safety
devices.
Application
Suitable for solving difficult separation
problems and for the production of
pure substances, aromatic compounds
of high molecular weight, fatty acids
etc..
Technical Specifications
Flask sizes
1, 2, 4, 6, 10 and 20 L
Material
Glass
20 - 250°C
1000 - 0,1 mbar
up to 90 theor. plates
biolab@biolab.com.tr
Mains supply
208 - 250 V, 50 (60 Hz upon request)
Dimensions (W x H x H)
1,60 x 2,70 x 0,50 m
79
Distillation Systems & Pilot Plants
PILODIST 105 Versatile distillation
Versatile distillation apparatus with high
separation efficiency. The system is designed
for automatic operation and includes an
automatic fraction collector. The fraction
changes resp. the receiver changes are
automatically carried out according to
pre-selected boiling temperatures or when
the receivers are filled up. The vacuum-tight
fraction collector contains 9 receivers and
provides an overfill protection for each
receiver. The receiver volume is related to
the flask size.
Gentle distillation by temperature
controlled oil bath with product
circulation. Operation range from ATM
down to vacuum.
System is supplied with 2 different column
types (DN 25), a concentric-tube-column
and a wire gauze trickling column, which can
alternatively be applied according to
requirements.
Suitable for solving difficult separation
problems and for the production of
pure substances, aromatic compounds
of high molecular weight, fatty acids
etc.
Equipped with processor based
distillation control device DCD4001
with heating controller for oil bath and
heating mantle, automatic reflux
control, vacuum controller and
controller for the automatic Fraction
collector.
Application
Technical Specifications
Flask sizes
1, 2, 4, 6, 10 and 20 L
Material
Glass
20° - 250° C
1000 - 0.1 mbar
80
Mains supply
208 - 250 V, 50 Hz (60 Hz upon request)
Dimensions (W x H x D)
approx. 30 x 2.70 x 0.50 m
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Distillation Systems & Pilot Plants
PILODIST 107 Recovery Unit
PILODIST 107 is an easy to handle solvent
recovery system for extremely pure solvents.
The solvent mixtures are side products of
extraction’s, washing processes, chemical
and biochemical reactions, chromatographic
operations in clinical range, especially in
anatomical and pathological institutes.
Application
All kind of solvents like acetone, DMF,
THF, parrafins, Xylenes, alcohol’s,
acetonitriles, isooctane, hexane, methyl
chloride and other HPLC-solvents.
System is equipped with a concentric
-tube-column, i.e. highest separation
efficiency and high load ranges.
Characteristics
• Trouble-free operation due to
static all glass contruction
• All-glass construction
• System is mounted in a safety
cabinet with transparent front door.
Technical Specifications
Flask sizes
6, 10 and 20 L
Material
borosilikat glass, grease-free
max. 300° C
500 mm
biolab@biolab.com.tr
Load range
approx. 150-3000 ml/h
Dimensions (W x H x D)
1.00 x 2.10 x 0.60 m
81
PILODIST 250
Computer controlled distillation system for continuous operation. The system is
designed especially for training students in process engineering/thermodynamics at
universities. The system equipped with a DN 50 Packed or bubble cup tray column with
5 – 10 build in trays. The bubble cup column can be additionally equipped with
temperature and sample nozzles on each tray.
The distillation parameters are recorded and indicated on screen and can be stored
permanently as recipes and recalled at any time.
Technical Specifications
Feed range
approx. 1 - 8 L/h
Column type
DN 50 mm packed column or bubble cup tray
20 - 250°C
1 - 1000 mbar
Dimensions (W x H x D)
approx. 1.8 x 3.5 x 0.6 m
Power supply
208 – 250 V, 50 Hz (60 Hz upon request)
PILODIST 254 Crude Oil Pilot Plant
Crude oil pilot plant for studying purposes or for simulation of the operation conditions
in industrial-scale crude oil refineries or low-scale production plant. Distillation system
with 5 bubble cap tray columns DN 100 with 10 plates as main column and max. 3 side
columns (option) DN 50 with 5 plates each.
Continuous operation, separation into boiling cuts by taking off the top product, max.
3 side products and the residue from the reboiler.
Fully automatic operation due to freely programmable control. Reduction of the boiling
point by stripping with superheated, unsaturated steam at atmospheric conditions or
under vacuum.
At every second plate sample take-off nozzles and temperature sensors are installed for
determination and recording of concentration and temperature profiles. Mass- and
energy balances can be obtained by computer station with print-out of the distillation
report by a printer.
The system will be supplied together with a mounting frame and all necessary
accessories. The installation requires a suitable hall with platforms and stairs as well as
nitrogen, water and electricity.
Technical Specifications
Feed rate
approx. 4-40 kg/h
Column type
DN 100 made of stainless steel
Evaporator material
stainless steel, 6000 W
Column load
max. 100 kg/h
Receiver size
Receiver size
up to 350° C
Ambient temperature
max. 25° C
vacuum down to approx. 50 mbar
up to 400° C AET
50 plates
Mains supply
208 – 250 V, 50 Hz (60 Hz upon request)
System height
approx. 12 m
82
www.biolab.com.tr
Thin-Film Evaporators
FilmDist SP 200
Universal lab-scale apparatus for short path evaporation.
Rotary thin-film evaporator with thermostat mantle and internal condenser for
continuous short path distillation or gentle concentration of thermally sensible
products.
Suited for laboratory or pilot operation.
The pilot operation data and experimental values can be transferred to bigger systems.
The standard system uses glass wiper elements. Other wiper elements are available.
Technical Specifications
Feed range
50 - 1000 ml / h
Evaporator material
borosilicate glass
Feed-vessel
250 ml
Product receivers
250 ml
Evaporator surface
200 cm2, short path
up to 200°C
0.001 - 1000 mbar
Mains supply
208 - 250 V, 50 Hz (60 Hz upon request)
FilmDist TF 650
Universal apparatus for thin-film evaporation for lab-scale and pilot-scale application,
complete with all necessary accessories for continuous operation.
Rotary thin-film evaporator with thermostat mantle and external condenser.
The model TF 650 is excellently suited for universal lab-scale and pilot-scale application
and is completely equipped with all necessary accessories for the continuous
operation.
Technical Specifications
Material
borosilicate glass
Evaporator surface
up to 200°C
0.1 mbar
Throughput
approx. 0.5-10 l/h
Mains supply
208-250 V, 50 Hz (60 Hz upon request)
Dimensions (W x H x D)
1.20 x 1.80 x 0.60 m
Short path evaporation SP 500 for throughput up to 10 l/h available.
biolab@biolab.com.tr
83
Gasoline & Diesel Analyzers
Octane CFR Engine
Cetane CFR Engine
Blenders For Octane & Cetane
IRXpert Gasoline Analyzer
IRXpert Diesel Analyzer
IROX 2000 Gasoline Analyzer
IROX Diesel Analyzer
MINIWIN IROX for Fuel Analysis
Octane CFR Engine
with Automation
ASTM Methods
D2699-10 (RON),
D2700-10 (MON) &
Conforms to IP 237 & IP 236.
Features and Benefits
Application
• Easy setup for either ASTM D2699
Test Method (RON) or ASTM D2700 (MON)
Standard Test Method for Motor
Octane Number.
Automatic Octane CFR Engine provides
consistent, accurate fuel ratings for
refineries, independent labs, engine
manufacturers & regulatory agencies
worldwide.
• User-friendly operation for consistent,
reliable results. Touch screen panel
interface. Built-in prompts guide operator
through test procedures for all
ASTM test methods.
Accurate definition and measurement
of fuel’s characteristics enables
manufacturers to design engines for
optimal performance and durability.
• On-screen rating displays with bold
graphics and easy-to-read charts.
Consistent, accurate test results
provide assurance that the fuel meets
performance expectations .
• Automatic data recording and graphic
report generation. Preserves data integrity
and allows direct data access, data sharing
and archiving.
• Fully integrated digital controls for safe
operation. Robust protection. Integrated
shutdown system, visual status with alarms,
automatic event log.
• Electronic maintenance log. Easily record oil
changes, carbon blasting, cylinder
installation and routine maintenance.
• Available Octane Analyzer Option. Fully
automated for greater productivity, more
consistent results from operators, and
faster operator training.
86
www.biolab.com.tr
Cetane CFR Engine
with Automation
Conforms to ASTM D613
& ISO 5165 fuel specifications.
Features and Benefits
• User-friendly operation: Robust, easy to
set up system with automatic controls.
Cetane CFR engine is one of the world’s
most widely used diesel fuel rating
instruments for cetane determination,
and the only one that conforms to both
ASTM D613 and ISO 5165 fuel
specifications.
• Efficient operation: Fuel flow rates,
injection timing and compression ratios ,
all may be adjusted while unit is operating. This innovative technology enables
engine operators to be confident that
• Automatic data recording and graphic
the diesel fuel they use meets its
report generation:
advertised cetane number and is safe
Preserves data integrity and allows direct for their engines.
data access, data sharing and archiving.
• Fully integrated digital controls for safe
operation: Robust protection. Integrated
shutdown system, visual status with
alarms, automatic event log.
• Electronic maintenance log: Easily record
oil changes, carbon blasting, cylinder
installation and routine maintenance.
• Full range of diesel fuel testing:
Compression ratio range of 8:1 to 36:1.
biolab@biolab.com.tr
Application
Automatic Cetane CFR Engine provides
consistent, accurate fuel ratings for
refineries, independent laboratories,
engine manufacturers and regulatory
agencies worldwide.
Accurate definition and measurement
of a fuel’s characteristics enables
manufacturers to design engines for
optimal performance and durability.
Consistent, accurate test results also
provide assurance that the fuel will
meet performance expectations in
engines for which it is formulated.
87
Blenders For Octane & Cetane
Reference Fuel
Fully Conforms to Methods:
ASTM D2699, D2700, D2885 & D613
Features
• Fully Conform to Methods:
ASTM D2699, ASTM D2700,
ASTM D2885, ASTM D613
• Rapid Volumetric or
Gravimetric Blending
• Precision of 0.02 mL or 0.02 gm
• Reduced Operator Errors
• Simple Operation
• Improved Precision of
Octane/Cetane Results
• Fully Automated Preparation of:
PRF1, PRF2, TFS, U Blends, T Blends
• Motor Driven Laser Detector
of Burette Meniscus Volume
• Precision Balance for
Gravimetric Measurement
• Space Saving, Small FootPrint
Cabinet
Safe, Simple Operation:
No electrical or combustion concerns
inside the blending cabinet. The vacuum
pump may be mounting in virtually any
location for optimal safety.
88
Easy Set Up & Compact Design
One single steel cabinet containing all
components attaches easily to a wall by
two hanger brackets. Cabinet measures
only 20”x 40”x 6”. The vacuum pump
plugs into any 115 VAC outlet (220v
Adapter available), and remote foot
switch plugs into vacuum pump.
Minimal Plumbing Required
All fluid connections reside inside the
steel cabinet; only feed lines to each
fuel blend need be attached.
Improved Blending Accuracy
Precision calibrated 400ml burettes
offer better volume visibility. This along
with precision burette calibrations and
dripless spouts provide accurate
volumetric dispensing.
Easy Maintenance
Simplicity of design guarantees minimal
maintenance.
Increased Blending Economy
Four individual catch bottles collect
overflow from each burette, allowing
for reclamation of fuel standards.
www.biolab.com.tr
IRXpert
Gasoline Analyzer
Standards
ASTM D5845, D6277, D7777, D7806,
EN 238, EN 14078,
ISO 15212
Property analysis based on ASTM D86, D323,
D5191, D6378, D613, D2699, D2700,
ISO 3405, 5163, 5164, 5165,
EN 13016
Maximizing Ease of Use
Testing fuels right from the street. A high
end full color touch-screen facilitates menu
navigation and allows in depth spectrum
analysis. USB and Ethernet interfaces
facilitate quick data-transfer, printing, LIMS
integration and remote control and service.
For field use, the MINISCAN IRXpert can be
run with a 12V car adapter.
Iso-Propanol:
2-Butanol:
tert-Butanol:
Other Oxygenates:
AROMATICS
Benzene:
Toluene:
o, p, m-Xylene:
Ethyl benzene:
Propyl benzene:
Range1)
PROPERTIES
Mesitylene:
80 - 110
RON:
Durene:
75 - 105
MON:
Naphthalene:
77 - 107
AKI:
Pseudocumene:
IBP, T10, T50, T90, FBP 2,3,4 -Ethyl toluene:
Distillation :
E70, E100, E150 (°C)
Evaporation :
Other Aromatics:
E200, E300 (°F)
OCTANE BOOSTERS
40 - 105 kPa
RVP & DVPE:
MMT (mg/l):
3
0 - 3 g/cm
Density:
DCPD:
3
Precision (Density): r s.d. = ± 0.0005 g/cm
N-Me-Aniline:
Driveabilty Index
Nitromethane:
VOC Emissions Calculator
Sec-Butylacetate:
Vapor Lock Index (VLI)
Dimethylcarbonate:
Unlimited User-Defined Parameters
Dimethoxymethane:
Range2) m%
OXYGENATES
TOTAL PARAMETERS
0 - 20%
MTBE:
Oxygen:
0 - 20%
TAME:
Aromatics:
0 - 20%
ETBE:
Saturates:
0 - 20%
DIPE:
Olefins:
0 - 15%
Methanol:
Di-Olefins:
0 - 40%
Ethanol:
biolab@biolab.com.tr
0 - 20%
0 - 25%
0 - 25%
0 - 20%
Range2) m%
0 - 10%
0 - 20%
0 - 20%
0 - 20%
0 - 20%
0 - 20%
0 - 20%
0 - 10%
0 - 20%
0 - 20%
0 - 20%
Range2)
0 - 10,000
0 - 15 m%
0 - 5 m%
0 - 9 m%
0 - 10 m%
0 - 10 m%
0 - 10 m%
Range2)
0 - 12 m%
0 - 60 m%
0 - 100 m%
0 - 80 m%
0 - 20 m%
89
IRXpert
Diesel Analyzer
Standards
ASTM D5845, D6277, D7777, D7806,
EN 238, EN 14078,
ISO 15212
Property analysis based on ASTM D86, D323,
D5191, D6378, D613, D2699, D2700,
ISO 3405, 5163, 5164, 5165,
EN 13016
Maximizing Ease of Use
Testing fuels right from the street. A high
end full color touch-screen facilitates menu
navigation and allows in depth spectrum
analysis. USB and Ethernet interfaces facilitate quick data-transfer, printing, LIMS
integration and remote control and service.
For field use, the MINISCAN IRXpert can be
run with a 12V car adapter.
PROPERTIES
Cetane Number:
Cetane Index:
Kinematic
Viscosity @40°C:
Dynamic
Viscosity @40°C:
CFPP:
Distillation / Recovery:
Density:
Precision (Density):
COMPONENTS
Total Aromatics:
Poly Nuclear Aromatics:
Cetane Improver
EHN, IPN:
FAME / FAEE
(Biofuel) in Diesel:
90
Range 1)
20 - 80
20 - 80
0 - 10 mm2/s
0 - 10 mPas
-50°C to +20°C
IBP, T10/50/65/
85/90/95, FBP,
R250, R350
0 - 3 g/cm3
r s.d. = ± 0.0005 g/cm3
Range 2)
0 - 80 m%
0 - 50 m%
Features
• Portable Mid-FTIR & Near-FTIR
Analyzer for Gasoline,
Diesel and Biofuel Blends
• Full Spectrum: 12,900 Data Points
• Superior Optical Resolution: 2cm-1
• Temperature & Laser Regulated
System
• Unlimited Number of Parameters
• Self-learning Chemometrics
• WORKS ™ - Worldwide Online Remote
Control and Services
IRXpert PROFESSIONAL
The MINISCAN IRXpert Professional is
a multi-fuel analyzer, measuring all
parameters of the IRXpert Gasoline
and the IRXpert Diesel in a single
analyzer. Both the Gasoline and the
Diesel model can easily be upgraded
to an IRXpert Professional.
0 - 10,000 ppm
0 - 40 v%
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IROX 2000
Gasoline Analyzer
9 Specific Oxygenates
(ASTM D5845)
14 Specific Aromatics and Benzene
(ASTM D6277, EN238)
Total Aromatics, Oxygen,
Olefins (incl. Di-Olefins) & Saturates
Features
• Octane (RON, MON)
• MMT, Nitromethane & DCPD determination
• Distillation Points
• Vapor Pressure
• Automatic Sample Introduction
• Optional 6-position sampler
• Calculation of AKI and Driveability Index
• Built-in Density Meter
• Small sample volume: 7ml
• Fast & easy on-site calibration without PC
• Laboratory and Field Applications
• MINIWIN IROX-PC software
OXYGENATES
MTBE:
TAME:
ETBE:
DIPE:
Methanol:
Ethanol:
Iso-Propanol:
2-Butanol:
ter-Butanol:
AROMATICS
Benzene:
Toluene:
o-Xylene:
p-Xylene:
m-Xylene:
PROPERTIES
Ethyl benzene:
RON:
70 - 105
Propyl benzene:
MON:
70 - 95
2-Ethyl toluene:
AKI:
80 - 100
Distillation:
IBP, T10, T50, T90, FBP 3-Ethyl toluene:
4-Ethyl toluene:
E200, E300 (°F)
Mesitylene:
RVP:
35 - 95 kPa
Pseudocumene:
Driveability Index: 950 - 1380
Isodurene:
Density:
0.500 - 1,999 g/cm3
Naphthalene:
Precision of density: ± 0.001 g/cm3
biolab@biolab.com.tr
measurement
(SD = ± 0.0005 g/cm3)
COMPONENTS
MMT:
Nitromethane:
DCPD:
45 - 10,000 ppm
0 - 9%
0 - 10%
0 - 20%
0 - 20%
0 - 20%
0 - 20%
0 - 15%
0 - 25%
0 - 20%
0 - 25%
0 - 25%
wt%
0 - 10%
0 - 20%
0 - 20%
0 - 20%
0 - 20%
0 - 20%
0 - 20%
0 - 20%
0 - 20%
0 - 20%
0 - 20%
0 - 20%
0 - 20%
0 - 10%
TOTAL PARAMETERS *)
Aromatics:
0 - 80%
Olefins:
0 - 50%
Oxygen:
0 - 8%
Saturates:
20 - 100%
91
IROX DIESEL
Diesel Analyzer
Correlation to ASTM D613, D976,
D5186, D5186, D86
DIN EN 14078
Parameter
Range
Repeatability
Cetane Number
25 - 75
0.8
(SD, RMSEC)
0.6 - 0.9
•
No
sample
30 - 70
0.4
0.4 - 0.6preparation: just insert
• Cetane Number (cor. to ASTM D613)
filling tube in sample flask and
Cetane Improver
0 –(cor.
5000toppm
ppm
• Cetane Index
ASTM D976)
press90RUN
• Cetane Improver
• Measuring
time: 3 minutes
0 – 60 wt. %
0.5 (@25%)
0.4
• Total Aromatics
(cor.
to
ASTM
D5186)
•
Fast
and
easy
on-site calibration of
0 – 40 wt. %
0.4 (@5%)
0.3
• Poly Nuclear Aromatics (PNA)
the correlation library in less than 4
FAME (Biodiesel)
0 – D5186)
40 wt. %
0.2 (@5 v%),
(cor. to ASTM
minutes/sample
in Diesel Fuel• Biodiesel content in Diesel Fuel
0.5 (@10technical
v%)
• No complex
training
EN 14078 - FAME(Bio0 - 30 v %
0.3
(DIN EN 14078)
required
diesel) in Diesel
Fuel
• Distillation
Properties: T85, T90, T95
• Small sample volume: 7 ml
(cor. to ASTM
• Optional
6-position sampler
T85,D86)
T90, T95
• Built-in Density Meter
•
Portable
for
3
3
g/cmapplications
Density@Room Temp. 0.500 - 1,999 g/cm ±0.001 g/cm ±0.0005field
• Temperature control
(optional vehicle battery connector)
• Full automation: sample introduction,
• PC/printer interface
measurement, cleaning
• MINIWIN IROX-PC software
Cetane IndexFeatures
Parameter
Range
Repeatability
Cetane Number
25 - 75
0.8
0.6 - 0.9
Cetane Index
30 - 70
0.4
0.4 - 0.6
Cetane Improver
0 – 5000 ppm
-
90 ppm
0 – 60 wt. %
0.5 (@25%)
0.4
0 – 40 wt. %
0.4 (@5%)
0.3
FAME (Biodiesel)
in Diesel Fuel
0 – 40 wt. %
-
0.2 (@5 v%),
0.5 (@10 v%)
EN 14078 - FAME(Biodiesel) in Diesel Fuel
0 - 30 v %
-
0.3
T85, T90, T95
Density@Room Temp.
92
0.500 - 1,999 g/cm
3
(SD, RMSEC)
-
±0.001 g/cm
3
±0.0005 g/cm3
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MINIWIN IROX
for Fuel Analysis
With MINIWIN, you have complete
control over your IROX analyzer:
• Remote Control from your PC: Set
sample name and select groups, start
measurements immediately
• Download and adapt libraries, add or
delete parameters
• Microsoft® .net™ framework allows for
client server capabilities and linking
instruments through the PC over
the internet
• Spectrum comparison:
Set Marker
Download, review and comparison of fuel
spectra at the push of a single button
– showing clear colors & high resolution
.net™ Framework:
Compare Spectra
Zoom in on Spectra
biolab@biolab.com.tr
93
Vapor Pressure Analyzers
MINIVAP VPXpert Vapor Pressure Tester
MINIVAP VPXpert-L Vapor Pressure Tester
MINIVAP LPG Vapor Pressure Tester
MINIVAP ON-LINE The RVP Profit Analyzer
MINIVAP VPXpert
Vapor Pressure Tester
ASTM D5191, D5188, D6377, D6378,
D6897, EN 13016-1+2, IP 394, 409, 481,
JIS K2258-2, SHT 0769, GOST 52340
Excellent correlation to
ASTM D323, D1267, D4953, D5482
Complies With
Features
• ASTM D5191
(Dry Vapor Pressure Equivalent)
• US EPA approved test method
for highest accuracy
• ASTM D6378
Vapor Pressure of Gasoline (VP4)
• No vacuum pump or sample
preparation
• ASTM D6377
Vapor Pressure of Crude Oil
• Integrated shaker - ready to use for
Crude Oil and ASTM D5188 tests
• ASTM D6897 Vapor Pressure of LPG
up to 1000 kPa (VPXpert only)
• Highly precise results for RVPE, DVPE,
ASVP, AVP, Ptot, Pabs, Pgas, T(V/L), TVP
• ASTM D5188 (V/L-Ratio)
• USB printer support and LIMS
data transfer
• EN 13016-1 (Air Saturated Vapor
Pressure)
• Smallest sample size (1 ml w/o rinsing)
• EN 13016-2 (Absolute Vapor Pressure)
• 5 minutes measuring time
• IP 394 & 409 & 481
• Maintenance free, heavy duty
measurement cell
• JIS K2258-2, SHT 0769, GOST 52340
• Automatic piston lubrication
• US EPA approved Grabner test method
for highest accuracy
• True one button usability
Excellent Correlation to
• ASTM D323 (Wet Reid)
ASTM D4953 (Dry Reid)
• Enhanced report generation
• Portable and rugged design for field use
• Large, durable display
• User access control
• ASTM D5482 (Mini-Method, atmospheric)
• Audit trailing
Product | Small | MINIVAP VPXpert
• Barcode-Reader functionality
• ASTM D1267 (LPG)
96
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MINIVAP VPXpert-L
Vapor Pressure Tester
Direct/Indirect VP, ASTM D5191, D5188,
D6377, D6378, EN 13016-1+2, IP 394, 409, 481,
JIS K2258-2, SHT 0769, GOST 52340
Excellent correlation to ASTM D323, D2879,
D4953, D5482
NEW! Low Volatility Model
VPXpert-L
MINIVAP VPXpert-L was developed to
automate the manual ASTM D2879
Standard Test Method for Vapor Pressure
by Isoteniscope used by the chemical
industry. The MINIVAP VPXpert-L analyzer
measures gasoline, jet fuels, solvents and
chemicals as well as food, flavor and
fragrance products with vastly improved
precision. The analyzer is optimized for a
pressure range from 0.1 to 100 kPa and
shows a measuring repeatability better
than 0.1 kPa. The instrument incorporates
a direct and an extrapolated method for
absolute vapor pressure measurement of
single- and multi-component samples.
Complies With
• ASTM D5191
(Dry Vapor Pressure Equivalent)
• ASTM D6378
Vapor Pressure of Gasoline (VP4)
• ASTM D6377
Vapor Pressure of Crude Oil
• ASTM D6897 Vapor Pressure of LPG
up to 1000 kPa (VPXpert only)
• ASTM D5188 (V/L-Ratio)
biolab@biolab.com.tr
• EN 13016-1
(Air Saturated Vapor Pressure)
• EN 13016-2
(Absolute Vapor Pressure)
• IP 394 & 409 & 481
• JIS K2258-2, SHT 0769,
GOST 52340
• US EPA approved Grabner test
method for highest accuracy
Excellent Correlation to
• ASTM D323 (Wet Reid)
ASTM D4953 (Dry Reid)
• ASTM D5482
(Mini-Method, atmospheric)
Product | Small |VPXpert
• ASTM D1267 (LPG)
VPXpert-L
Low Volatility Tester
Correlation to
• ASTM D2879
(Isoteniscope method)
• REACH static vapor pressure
test method
97
MINIVAP LPG
Vapor Pressure Tester
ASTM D6897, D1267
Easy, Quick & Reliable Analysis
of Liquefied Petroleum Gas
MINIVAP LPG is a stand-alone unit for the
automatic vapor pressure determination
of liquefied petroleum products. Analyze
is done in less than 5 minutes using overall
only 15 mL of sample for measurement
and rinsing. The instrument offers safe and
easy
operation
and
reduces
environmental
pollution.
Automatic
sample introduction, built in Peltier
temperature
regulation
and
a
pre-programmed rinsing cycle eliminate
any manual operation or cleaning. The
ease of use of the instrument allows for
installation and operation without any
special training. The vapor pressure is
determined with high precision in a
presetable temperature range of 5 to 70
°C. Pressures may be measured up to 2000
kPa (290 psi).
ASTM D6897 Single Expansion
Method
ASTM D6897 revolutionizes the vapor
pressure measurement of Liquefied
Petroleum Gas (LPG). It replaces the
manual bomb method ASTM D1267,
presenting results with an excellent
correlation, but with a highly improved
repeatability and reproducibility.
98
MINIVAP LPG allows fast and fully
automated measurement avoiding any
operator bias and saving a significant
amount of time and money for the users.
Features
• ASTM D6897, D1267
• Repeatability (ASTM D6897):
± 7.4 kPa (1.1 psi) or better
• Only 15 mL of sample for complete
measurement
• Accurate determination of LPG
vapor pressure
• Fully automatic measurement
• No accessories required
• Built-in diagnostic and safety features
• Fast measurement: only 5 minutes
• Automatic multiple point
measurement
• Built-in RS 232 Interface for printer
or computer
• Wide temperature range of 5 to 70 °C
• Small and rugged portable tester
• Optional 12V DC battery operation
for field use
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MINIVAP ON-LINE
The RVP Profit Analyzer
Vapor Pressure of Gasoline:
ASTM D6378, D5191, D4953/323 (corr.), D5188 (V/L = 20)
EN 13016-1+2
IP 394, IP 409
Vapor Pressure of Crude Oil:
ASTM D6377, D323 (corr.)
Vapor Pressure of LPG:
ASTM D6897, D1267 (corr.)
Features
Key Benefits
• Highest precision and performance
• One analyzer for all vapor pressure
standards
• US-EPA and CARB approved method
• Explosion proof Type X or ATEX
purging system
• Fully automatic calibration, verification
and pressure correction
• Only 10 ml of sample for a complete
measurement
• 7 minutes cycle time
• Built-in diagnostic and safety features
• Data transfer via serial interface RS 232
• ASCII code and MODBUS
communication protocol
• Optional 4-20 mA analog data output
• Remote control via central controller
• Automatic piston lubrication
• Peltier cooling
• Highest profits through best precision
• Quality inspection of fuels
• New and improved maintenance
• Automatic calibration with
laboratory precision
Standards
Vapor Pressure of Gasoline
• ASTM D6378, D5191, D4953/323 (corr.)
• ASTM D5188 (V/L = 20)
• EN 13016-1+2
• IP 394
• IP 409
• Modular arrangement
Vapor Pressure of Crude Oil
• Multiple sample streams
• ASTM D6377, D323 (corr.)
• Maintenance free sample conditioning
systems - self cleaning filters
Vapor Pressure of LPG
• Optional sample recovery system
& analyzer shelters
• ASTM D6897, D1267 (corr.)
• No accessories required for start-up
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99
Flash Point Testers
MINIFLASH TOUCH Flash Point Tester
MINIFLASH FLP/H/L Automatic Flash Point Tester
MINIFLASH FLA/H Flash Point Tester
Semi-Automatic Open Cup Cleveland Flash Point Tester
MINIFLASH TOUCH
Flash Point Tester
Excellent correlation to Pensky Martens Method
ASTM D93, ISO 2719, DIN 51758, IP 34, JIS K2265
TAG Closed Cup Method
ASTM D56 Abel Closed Cup - ISO 13736, IP 170
Excellent correlation to Equilibrium and Small Scale Methods
EN ISO 3679 / 3680, ASTM D3828 A / B, IP 523 / IP 524
Features
Available Methods
• Intuitive Menu Navigation on Large
Color Touch-Screen
• ASTM D6450 & D7094
• Runs on Microsoft® Windows®
• Full network, PC and LIMS integration
via LAN
• USB printer support
• USB data transfer
• Extended FLPH temperature range
(0-400°C with external cooling)
• User Rights Management (GLP)
• Unlimited number of methods and
results
• Automatic ignition cleaning program
Applications
• Petrochemistry
102
• Excellent correlation to
Pensky Martens Method - ASTM D93,
ISO 2719, DIN 51758, IP 34, JIS K 2265
TAG Closed Cup Method - ASTM D56
Abel Closed Cup - ISO 13736, IP 170
• Excellent correlation to Equilibrium
and Small Scale Methods
EN ISO 3679/3680, ASTM D3828 A/B,
IP 523/IP 524
• Fuel Dilution Flashpoint Testing
• Flash / No Flash methods
• Fast screening methods
MiniFlash Tester Line
• Maximum Safety, No Open Flame
• 1-2 ml Sample Size
• Automatic Stand-Alone Operation
• Flavors & Fragrances
• Fast and Accurate
• Transportation
• Easy to use, Easy to clean
• Military
• Portable for Field Use
• Waste Disposal
• US D.O.T, RCRA, NAVY, NATO
approved
•Heavy Duty Machinery
(Mining, Construction...)
• Approved for various ASTM
specifications for fuels and oils
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MINIFLASH FLP/H/L
Automatic Flash Point Tester
ASTM D6450 & D7094
Excellent correlation to ASTM D93, D56
and ISO 2719
Applications
Features
• Petrochemistry
• ASTM D6450 & D7094
• Pharmacy
• Excellent correlation to ASTM D93,
D56 and ISO 2719
• Transport
• Flavors and Fragrances
• Maximum Safety - Continuously
Closed Cup
• Paints and Varnishes
• Built-in Peltier temperature control
• Waste Disposal
• Small sample volume of only 1-2 mL
• Fuel Protection for Ships, Railway and
Heavy Duty Machinery
(Mining, Construction), ...
• Fully automated, fast measurement
• Easy cleaning, no solvents required
• Almost no waste
• Military (Approved by US D.O.T. and RCRA
• Laboratory and field applications
Specified for use by NATO, US NAVY,
US Marines)
• RS232 interface
Technical Specificaitons
• MINIWIN software (for PC)
Recommended Temperature Range
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MINIFLASH FLPL
-25 to 100°C
MINIFLASH FLP
0 to 200°C
MINIFLASH FLPH
10 to 400°C
Power requirements:
100/110/230 V AC 50/60 Hz, 150 W
Dimensions W x H x D:
196 x 315 x 175 mm
103
MINIFLASH FLA/H
Flash Point Tester
Complies with the latest flashpoint
standard ASTM D7094 - MC CCFP
(Flash-Point by Modified Continuously
Closed Cup) and ASTM D6450 - CCCFP
(Flash-Point by Continuously Closed Cup)
Excellent Correlation to ASTM D93, D56,
ISO 2719 (EN/DIN 22719), ISO 13736, IP 170
• The world wide standard in the
flavors and fragrances industry
Fully Automatic 8 Position Sampler
• The highest precision
4 min. Manipulation Time for 8 Samples
• Short measuring time (depends on
Continuous Operation sample type) due to small sample
up to 80 Samples per Day!
volume of 1-2 ml
Maximum Safety through Ignition
• Fast thermoelectric temperature
Protection Technology™: only 1-2 ml
regulation by Peltier Protection
sample, no open flame, continuously
Technology™
closed cup, no offensive vapors in the lab
• Easiest handling (instrument-user
Approved by: US D.O.T. and RCRA
dialogue) and fast cleaning of the
Approved by: NATO; 6630-25-145-3256,
sample cup
6630-25-146-0895, 6630-01-534-1774
• Wide Measuring Range: 0 to 400°C
and the US NAVY - NSN: 6625-01-472-6783
• Compact & portable for field use
Approved for Diesel Fuel and Kerosene
(car battery connector)
specifications ASTM D975, D396,
• RS232 interface and MINIWIN
D2880, D3699
software for PC)
Approved for the ASTM specifications
of recycled fuel and biodiesel
Features
•
•
•
•
•
•
•
•
Technical Specifications
Recommended Temperature Range
104
MINIFLASH FLA
0 to 200°C
MINIFLASH FLAH
10 to 400°C
Power Requirements
100/110/230 V AC 50/60 Hz, 150 W
Dimensions W x H x D
312 x 402 x 390 mm
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Semi-Automatic Open Cup
Cleveland Flash Point Tester
Conforms to ASTM D92 Test Method
Features
• Operating Temperature Range ;
Ambient to - 400°C
• Semi-Automatic Analyzer
• Electric motor controller, gas control
valve test flame practitioners
Flash and Fire Point by
Cleveland Open Cup Tester
This test method describes the
determination of the flash and fire point
of petroleum products with flash points
above 79°C and below 400°C except
fuel oils.
• Alternatively, the opportunity to work
with Gas, LPG and Natural Gas
• LCD Display
• Easy with digital thermometer
temperature monitoring
• Three side closed removable
wind protector
• Brass material sample cup
• 220V, 50Hz, Electric Heater Controller
• Dimensions 40 x 30 x 30cm
• Weight: ~ 6.5 kg
• Power: Max. 500 Watt
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105
Sulfur Analysis
Phoenix II - Direct Excitation Bench-Top ED-XRF Analyzer
Sindie OTG Portable Sulfur Analyzer
Sindie 7039 G3 Bench-Top Sulfur Analyzer
Sindie 2622 Bench-Top Sulfur Analyzer
Sindie On-Line Sulfur Analyzer
Sindie Turn-Key Sulfur Analyzer
Titra-Max Titrator Mercaptan Sulphur Analyzer
H2S Analyzer
Phoenix II - Direct Excitation
Bench-Top ED-XRF Analyzer
Conforms to ASTM D4294
IP 496, 336
ISO 8217, 8754, 20847
Excitation
Software/User Interface
• Polarized X-ray excitation
• Touch-screen display
• HOPG Crystal
(Highly Oriented Pyrolytic Graphite)
• Embedded Panel PC computer
• One moveable secondary target
• End-window X-ray tube
• Max voltage, 48 kV
• Max power, 50 W
Detection Systems
• Rugged gas-filled proportional counter
detector
• Automatic energy drift compensation
• Up to 5 moveable filters (optional)
• Low cost of ownership
Sample Chamber
• Single position (30mm cups)
• Bulk or flat samples (12 x 12 x 3 cm)
• Password protection
• Windows™ operating system
• USB and Ethernet connections
• Networking capability
• External monitor connection
• Onboard thermal printer
Spectrometer Data
Voltage: 115-220 VAC ±10% ,
60W, 50/60Hz
Dimensions (W x D x H): 38 x 46 x 31 cm
Weight: 18 kg
Sample
Chamber
• Analysis of solids, liquids, powders, pastes,
slurries, coatings, films, filter deposits
• Sample Spinner (optional)
108
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Sindie OTG
Portable Sulfur Analyzer
ASTM D7039, ISO 20884
Application Areas:
• Total sulfur analysis from ultra low sulfur
fuels up to crude.
• For refinery labs, pipeline terminals,
on-board use, additive plants, testing
vans and inspection laboratories.
• Complies with ASTM D7039 & ISO 20884.
• User programmable measurement
time: 30-900 s.
• One calibration curve will run both
diesel and gasoline.
• Extremely low maintenance:
No conversion gases, heating
elements, quartz tubes or columns.
Features and Benefits:
• Robust polyamide windows for easy
cleaning
• Fits on any bench and compatible for use
in mobile labs/vans.
• 15 W air-cooled excitation tube.
• Dimensions: 33 x 30 x 23 cm.
ACCU-CELL Sample Cups
• Weight: 15 kg.
• Utility: Standard wall power:
100-120 VAC and 200-240 VAC.
• No need for gases, no high temp.
operating conditions.
• LOD: 0.6 ppm
(at measurement time: 900 s.)
• Dynamic Range: up to 10%.
• User Interface: Touch Screen.
• No assembly of separate
film & cup components
• Pre-vented sample cups
• Eliminates sample &
cup contamination
• ACCU-CELL pre-assembled sample cups for • 1 ml pipette will fill the cup
enhanced precision, operator ease-of-use
and increased productivity.
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109
Sindie 7039 G3
Bench-Top Sulfur Analyzer
Complies with
ASTM D7039 and ISO 20884.
Application Areas:
• Total sulfur analysis from ultra low sulfur
fuels to crudes.
• No conversion gases, heating
elements, quartz tubes or columns.
• 75 W air-cooled excitation tube.
• For use in refinery labs, pipeline terminals, • Robust polyamide window for
easy cleaning.
additive plants, testing vans and
inspection laboratories.
• Complies with ASTM D7039 & ISO 20884.
SINDIE Autosampler
Features and Benefits:
• LOD: 0.15 ppm at 300 s.
• Dynamic Range:
Standard: 0.15 ppm to 3000 ppm
XR package: 0.15 ppm to 10%
• Available with 8 cell auto-sampler.
• Fits on any bench and compatible for
use in mobile labs/vans.
• 8 sample cell capacity
• Increases productivity
• Utilizes XOS Accu-Cell cups
ACCU-CELL Sample Cups
• Plug-it-in and measure:
power is only utility.
• Touch screen user interface.
• Utilizes ACCU-CELL pre-assembled and
pre-vented sample cups for enhanced
precision, extreme ease-of-use and
enhanced productivity.
• User programmable
measurement time: 30-900 s.
• One calibration curve will run both
diesel and gasoline up to 3000 ppm.
110
• No assembly of separate film & cup
components
• Pre-vented sample cups
• Eliminates sample & cup contamination
• 1 ml pipette will fill the cup
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Sindie 2622
Bench-Top Sulfur Analyzer
Complies with
ASTM D2622, D7039 &
ISO 20884
Application Areas
• Total sulfur analysis from ultra low sulfur
fuels to crudes.
Sulfur Analysis with
Compliance Flexibility
2622 bench-top sulfur analyzer complies
• For use in refinery labs, pipeline terminals, with ASTM D2622, D7039 & ISO 20884
additive plants & inspection laboratories. test methods, enabling complete
flexibility in sulfur analysis. There ’re no
• Complies with ASTM D2622, D7039 and
compromises in detection, performance
ISO 20884.
& reliability 2622 analyzer is the ideal
Features and Benefits
sulfur analytical solution from ultra low
sulfur diesel and gasoline to heavy fuel
• LOD: 0.4 ppm at 300 s.
oil and crudes.
• Dynamic Range: 0.4 ppm to 10%
One analyzer with three compliance
• Fits on any bench: (w x d x h)
solutions.
37 x 50 x 34 cm
• Plug-it-in and measure:
power is only utility.
• Touch Screen user interface.
• User programmable
measurement time: 30-900 s.
Precision
Typical repeatability(r) &
reproducibility (R) values in diesel fuel,
at 95% confidence. 300s measurement
time.
• Two calibrations covers both gasoline and
diesel matrices over full dynamic range:
- 0.4 – 3000 ppm wt
- 0.3 – 10% wt
• No conversion gases, heating elements,
quartz tubes or columns.
• 75 W air-cooled excitation tube.
• Robust polyamide window for easy cleaning.
r
R
4
0.4
1.0
8
0.7
1.2
15
0.9
1.7
100
3
6
500
6
12
(ppm)
Options
• LIMS data output software capability.
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111
Sindie On-Line
Sulfur Analyzer
Features
Benefits
• Excellent detection capability:
LOD: 0.6 ppm
• Total sulfur determination
by MWD XRF
• Dynamic range from
0.6 ppm – 3000 ppm sulfur
• Measurement time: 30 seconds
to 5 minutes, user programmable
• Continuous monitoring with programmable • No consumables, gases or high
response times:
temperature processes
-10 seconds: ideal for pipeline interface cuts • Extremely low maintenance
- 5 minutes: for most demanding
refinery processes
• Direct measurement without sample
conversion Analysis in ppm (wt)
• No density conversion needed
• No consumable gases required
• Extremely low maintenance:
- No heating elements
- No quartz tubing
- No columns
• Dynamic window module design is operator
independent and ensures measurement
stability
• Modular design for plug-and-go
operation
• Also available in bench-top format
Applications
• Pipeline terminals: interface cuts
and tank contamination prevention
• Refinery: hydrotreating, hydrofiner
and blending processes
Total Sulfur Analysis
• From 0.6 ppm to 3000 ppm
in diesel, gasoline, naphtha
and kerosene
• Robust industrial design: wall mounted or
stand alone
• Outstanding linearity: One calibration curve
for diesel and gasoline matrixes,
over full dynamic range
• Compact footprint ( w x d x h) 61 x 44 x 165 cm
112
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Sindie Turn-Key
Sulfur Analyzer
Total sulfur by MWD-XRF – ASTM D7039
“direct” measurement
Features
• Direct measurement without sample
conversion
• Analysis in ppm (wt)
• Excellent detection capability:
LOD 0.6ppm
• Dynamic range from 0.6 ppm –
3000ppm sulfur
• No density conversion needed
• No consumable gases required
• Extremely low maintenance: No heating
elements, quartz tubing and columns
• Dynamic window module design
is operator independent and
ensures measurement stability
• Pre-engineered for economical
installation. Requires only pad site,
utilities and sample connections.
• Outstanding linearity: One calibration
curve for diesel and gasoline matrixes,
over full dynamic range
• Eliminates on-site analyzer variables,e.g.
sample pressure, flow, sample
conditioning.
• Reduces maintenance and operational
complexity.
• System optimization for terminal
operations
• Broad environmental operating range
• System design maximizes fast response
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Benefits
• Fully Integrated On-Line Sulfur Analysis
Solution includes shelter, sample
management & purge air supply
• Pre-engineered for rapid installation,
robust operation & optimal results
• Continuous sulfur measurement truly
on-line (not “at-line”)
• Total sulfur by MWD-XRF D7039
“direct” measurement no sample
injection or combustion involved.
• Designed for terminals and pipelines
• Two (2) simultaneous outputs:
- (~10 sec) Rapid measurements for
determination of contamination
& interface detection
- (~300 sec) Precise measurements
for regulatory protection and
quality assurance
Applications
• Pipelines
• Terminals
• Refiners
• Blending Applications
Total Sulfur Analysis
• From 0.6 ppm to 3000 ppm in diesel,
gasoline, naphtha and kerosene
113
Titra-Max Titrator
Mercaptan Sulfur Analyzer
Conforms to ASTM D664, D2896,
D4739 and D3227
The Titra-Max titrator is used
for the analysis of:
• TAN (Total Acid Number)
• TBN (Total Base Number)
• Mercaptan Sulfur
• Two tier password protection,
Administrator and User for
method editing.
• User selectable report formats
– Titration analysis reports, Method
parameters, Data table, Titration
curves, etc..
• Analysis of petroleum products, lubricants
• Full reprocessing and statistical
and transformer insulating oils.
analysis of run data including first
Features and Benefits
& second derivative graphical report.
• User friendly auto titration system.
• User selectable End Point mode.
• Compliant to ASTM methods for
TAN/TBN analysis of oil samples.
Mercaptan sulfur titration
method as standard.
• Interchangeable burette assemblies with
intelligent volume recognition system.
• Vortex mixing system for vigorous and
homogeneous stirring of viscous samples.
• Alphanumeric entry of all method
parameters & sample data that ensures
GLP compliance.
• Pre-programmed ASTM methods
for easy operation.
114
• Balance interface for weight
data transfer.
• Data download to PC.
Easy Installation in 3 Steps
Burette Assembly: Slot in the burette
assembly, screw in the connector pin
and connect the communication cable
between the burette and controller
unit. Automatic recognition shown on
screen.
System Priming: Insert titrant tubing
line to titrant bottle and prime as per
manual instructions. The Titramax is
now ready to use.
Titration Vesse: Fit electrode, titrant
input line and vortex stirrer into the
titration vessel.
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H2S in Liquids
Analyzer
ASTM Approved Methods
D4045-81, D4084-07, D4468-85
Features
• Fast Analysis of H2S in Crude, Water,
Diesel, Gasoline & other liquids
• Specific only to H2S - No interference
• Surpasses IP 570/12a with Greater
Precision, Faster Analysis & H2S Specific
• Direct Read LCD with Digital Graphs,
Historical Data
• No Field Calibrations Required
• PPB, PPM & % H2S Level Analysis
• 205 Awarded ‘Preferred Vendor’ by
Saudi Aramco, Chevron & others
• Small bench top footprint
Description & Principle of
Operation
The ability to analytically quantify H2S in
liquids, such as naphtha, water, crude oil,
diesel and gasoline are enhanced with the
Sample Transfer StripperTM (STS) exclusive
ASI Membrane Technology and ratiometric
colorimetric technologies.
The principle of operation requires a
continuously recycled sample in a heated
compartment where the STS unit separates
the H2S from the liquid sample with better
than 99% efficiency. An H2S free air or
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nitrogen carrier then continuously
sweeps the H2S gas sample to the H2S
analyzer for quantitative analysis in
ppbw, ppmw, and up to saturation
levels. The detection technology is
based on chemically specific density
changes. The lead acetate sensing tape
utilized in our analyzers is the only
detection method that is specific to
H2S. Optical illumination & detection
are integrated for maximum resolution
and accuracy. Analysis time is rapid
without compromising precision. This
reliable and field proven analyzer
system continuously and specifically
quantifies the H2S level in the sample
with minimal maintenance. The
principle of operation is described in
various ASTM methods include
D4084-82, D4468-85 and D4045-81.
Applications
• Refinery Laboratories
• Fuel Terminal Operators
• Vessel/Tank Storage Terminals
• Loading and Offloading Crude Oil
• Inspection laboratories
• Independent testing laboratories
115
Density Meter
DDM 2911 Density Meter
DDM 2910 Density Meter
DDM 2911 PLUS Density Meter
Automatic Density Meter,
Model 2911
Measure API Values in accordance with
ASTM D1250, D4052 & D5002
DIN 51757
Application
Automatic Density Meter 2911, with high
precision Peltier Temperature Control of
sample, has the features to meet the needs
of today’s industries.
Petroleum
• Measure API Values in accordance with
ASTM D1250, D4052, D5002
DIN 51757
• Quality Control incoming raw materials
• Research new products and additives
• Withstands harsh and heavy use
environments
• Calibrate using petroleum standards
Chemical
• Measure in units of Kg/m3, g/cm3,
g/ml, pounds/gallon, specific gravity,
Baumé and more
• Determine concentrations in: %,
molarity, normality, mole fraction,
ppm, and more
Pharmaceutical
• Capable of 2, 3, 4 or more multiple
measurements with standard
deviation, mean, min and max reading
for true cGLP/GMP compliance
• Complete IQ/OQ/PQ documentation
• Checking of raw materials and
product release
• 21CFR11 Compliance; Electronic
Signature and Secure Data Storage
• Compliant with USP 29<841>, JP, BP
and EP
Beverage
• Measure both alcoholic and
nonalcoholic beverages with easy
bubble detection using Video View™
• Direct and accurate means of °Brix
determination, °Plato, °Balling,
% Solids
• Use apparent density function for
proper filling volume monitoring
• Check batch consistency and ensure
proper blending ratios
• Wetted materials compatible with the
most aggressive chemicals
118
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Technical Specifications
2910
Measurement
Ranges
2910 Density Meter
2911
Density:
0 to 3 g/cm3
Temp.:
0 °C to 95 °C
Pressure: 0 to 10 bars
Density:
0 to 3 g/cm3
Temp.:
0 °C to 90 °C
(controlled via
Pressure:
0 to 10 bars
2911 Plus
Density:
0 to 3 g/cm3
Temp.:
0 °C to 95 °C
Pressure:
0 to 10 bars
Measurement
Modes
Measurement
Technique
Accuracy
Mechanical Oscillator Method
Density:
0.0001 g/cm3
Temp.: 0.05°C
Density:
0.00005 g/cm3
Temp.: 0.03 °C
Density:
0.00001 g/cm3
Temp.: 0.03 °C
Density:
0.00005 g/cm3
Temp.:
0.02 °C
Density:
0.00001 g/cm3
Temp.:
0.01 °C
Density:
0.000005 g/cm3
Temp.:
Selectable to: 0.001 °C
Ethanol
Measurements
Repeatability
Density:
0.00001 g/cm3
Temp.:
0.01 °C
Minimum
Sample Volume
2911 PLUS Density Meter
Density:
0.000001 g/cm3
Temp.:
Selectable to: 0.001 °C
Less than 1mL
Materials
System
viruses
Display
interface
Touch Screen User Interface, 5 – USB Ports, 2 – RS232 Ports
Interface
Video Scanning
scanning camera
Auto Bubble
Internal
Memory
Power Supply
operator of bubbles
8GB Non-removable Compact Flash
85 to 260 VAC; 48 to 62 Hz
Power
Measurement
Time:
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30 - 60 seconds
119
Color Measurement
Lovibond Consistency in Color Measurement
Consistency in
Color Measurement
American Standard Methods 2120 E
ASTM D848, D1500, D6045, D1544, D6166,
D1209, D5386, D509, D156, D6045, D1925,
E313, E308
DIN 6162, ISO 2049
CP Appendix IX A, Ph. Eur. Method 2.2.2,
AOCS Cc 13a-43, AOCS Td 1a, AOCS Dd 5-92
DGK F050.2, ICUMSA GS1-7, ICUMSA GS2/3-9,
JIS K 2580
USP (631) Color and Achromicity
Features
Applications
• RCMSi Remote Calibration & Maintenance • Dark Oils & Fats
Service via Internet
• Liquid Chemicals & Industrial Oils
• USB & LAN Interface
• Petroleum Oils & Fuels
• Large clear LCD screen for ease of use
and ability to display graphs and data
• Beers, Malts & Caramels
in a wide variety of languages
• Pharmaceutical Solutions
• Extensive yet flexible choice of standard
color scales
• Remote upgrade facility for adding scales
once in service
• Allows calculation and description of
off-hue status
• Gives closest match to stored references
• Industrial Oil & Surfactants
• Sugar Solutions, Syrups & Honey
• Optically Clear Samples
• Water & Waste Waters
• Generates a customized color scale
from reference samples
• Robust steel construction with excellent
chemical resistance
• Easy maintenance with removable
sample chamber
• Supplied with color control software
for data analysis
• Output conforming to GLP including date,
time, sample & user ID
• Accommodates a range of sample cells
and tubes
122
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Technical Specifications
Measuring principle
Spectral response
420 – 710 nm
Bandwidth
20 nm
Repeatability
On measurements of de-ionised water
+/– 0.0004
ΔE
0.04
Less than 20 seconds
Single key press; fully automated
Light source
Illuminants
CIE illuminant A, B, C, D65.
Observer
2°, 10°
Path length
0.1 – 50 mm
Interfaces
USB, LAN, RS232
Data storage
100,000+ measurements
Input voltage
Universal (90 – 240 VAC), via external power supply
Compliance
CE, RoHS, WEEE
Display
240 x 128, backlit graphic display, (white on blue)
Keypad
Languages
polyester with audible feedback
English, French, German, Italian, Portuguese,
Russian, Spanish, Chinese and Japanese
Instrument housing
Dimensions
435 x 195 x 170 mm (W x D x H)
Weight
6.8 kg
The spectrophotometric colorimeters introduces a unique concept in liquid color
control: RCMSi technology (Remote Calibration & Maintenance Service via internet).
Users can benefit from the capability for remote calibration and servicing via the
internet -eliminating any costs and time delays associated with servicing and
guaranteeing compliance with standards.
The Unit range is supplied with a full range of color scales for specific markets
including, but not limited to, Petroleum, Edible Oils, Pharmaceuticals, Brewing and
Honey. Users can upgrade scales remotely at any time.
Every unit is supplied with color control software for data analysis (LAN & USB cable
provided). Optical glass cells, a certified glass calibration filter, a spare lamp and user
instructions included.
Accessories Supplied
Each unit is supplied with Windows® compatible software, optical glass cells for the
included color scales, a spare lamp, instructions and an RCMSi Starter Pack.
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123
Water Content Analysis
Cou-Lo SU KF Water Content Analyzer
Karl Fischer Volumetric Titrator
Model FIDO Benchtop Heated Centrifuge
Dean & Stark Water in Petroleum Products & Bituminous Materials
Cou-Lo SU KF
Water Content Analyzer
Conforms to
ASTM D1533, D4928, D6304,
IP 386, 438, API MPMS Chapter 10.9,
IEC60814, ISO 10101-3, 10337 & 12937
Features
• Simple operation
• 10 user programmable methods
• 1ppm / 100%
• Results in ppm, mg/kg, % & μg water
• Multi language display & print out
• Small footprint
• Integral high speed printer
• Fully portable
• Low drift cell design
• Automatically compensated errors
(patented technique)
• Results Manager software
• Optional carry case
The Cou-Lo SU KF Coulometric Titrator is
for water content determination from 1
microgram. Typically used for very low ppm
through to low percentage levels of water.
Simple operation, small footprint, integral
printer, unique low drift glassware, fully
portable.
126
Applications
• Water Content
• Biofuel
• Residual Fuel
• Fuels,
• Lubricating Oil
• Crude Oil
Industries
• Inspection
• Food/Flavor/Fragrances
• Pharma
• Automotive
• Chemical
• Petroleum
• Refinery
• Pipeline/Terminal
• Biofuel
• Environmental
• Aviation
• Lubricants & Greases
• Military
• Mining
• Transportation
• Maintenance
• Fuels & Waxes
• Marine
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Karl Fischer
Volumetric Titrator
Conforms to ASTM D890, D1123, D1348,
D1364, D1568, D3401, D4017, D4377,
D4672, D5460, D5530 & E203
Features
Applications
• Water Content
• Biofuel
• Automatic and periodic elimination of
• Residual Fuel
bubbles which can form in the liquid circuit • Fuels
• Automatic drift monitoring and
• Lubricating Oil
compensation
• Crude Oil
• Flexible - can be used with different
Industries
reagent brands
• 2 x 5ml syringes – one for the KF reagent • Inspection
and other for automatic dosing of standard • Food/Flavor/Fragrances
for the titre (second syringe can also be
• Pharma
used for different factor reagent or special
• Automotive
reagents for ketones, amines, etc.)
Syringe volume dispensed in 40,000 steps • Chemical
• Petroleum
• 2 x built-in pumps - fitted with Viton
tubing, one pump for dispensing the
• Refinery
solvent and other for emptying the vessel • Pipeline/Terminal
• Automatic rest cycle (stand-by mode)
• Biofuel
if not used for 15 minutes
• Environmental
• Programmable – several easy to use
• Aviation
programs for titration and standardization
• Lubricants & Greases
• Results expressed in ppm, mg/l, %, etc.
• Military
• Connects to external pc keyboard for easy
• Mining
text and sample information data entry
• Transportation
• Connects to different types of printers,
• Maintenance
pc and balances
• Fuels & Waxes
• Data Logger – automatic data storage
of last 55 analysis results
• Marine
• Very easy to use - intuitive keypad and
function guide display
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127
Model FIDO Bench top
Heated Centrifuge
Complies with ASTM D91, D96(obs.), D893, D1290,
D1796, D1966, D2273, D2709, D2711, D4007,
DIN 51793, IP 75(obs.) & IP 359
For Water and Sediment Determination in
Crude Oil and Petroleum Related Products
An ideal centrifuge for research and
industrial laboratories offer a wide range of
accessories for routine applications, while
also enabling customized solutions for
special requirements. Temperature control
is often required in addition to the
capability of accommodating special tubes.
Such as tubes designed to meet the
requirements of the American Society for
Testing Materials (ASTM). To carry out
standardized test methods for crude oil
testing, the sample tubes can be
centrifuged in the heatable Centrifuge at
any pre-specified temperature from
ambient +10 to 90°C according to the used
method
Pre-heating dry block system &
ASTM sample tubes (Recommended)
128
High Quality Design
Metal housing with metal lid and stainless
steel centrifuging chamber with viewing
port in the lid
Wide Range Programmable
Heating Capabilities
- 10 programmable memories
- Infinitely variable setting from + 10 °C to
+ 90 °C,dependent on the ambient
temperature
- Pre-run internal sample Pre-heating
function and sample preparation
User Friendly Instrument
Twist lock for effortless opening & closing
of the lid with ergonomic control and
information panel with easy rotor changing
Advanced Safety Features
Lid locking and holding
Automatic rotor recognition
Imbalance switch-off
Emergency lid lock release
Lid dropping protection
Motor overheating protection
Chamber overheating protection
Pre-Heating Dry Block Unit
Pre-heating dry block unit with aluminum
exchangeable block to accommodate
4 x ASTM sample tubes used for sample
pre-heating process.
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Dean & Stark Water in Petroleum
Products & Bituminous Materials
ASTM D95, D4006
IP 74, IP 358
ISO 9029
ASTM D95, IP 74
Water in Petroleum
Products & Bituminous
Materials by Distillation
This test method covers the determination
of water in the range from 0 to 25 % volume
in petroleum products, tars, and other
bituminous materials by the distillation
method.
Spare Parts
• Flask 500 ml, tapered joint 24/40,
pack of 3
• Liebig condenser 400 mm,
tapered joint 24/40, pack of 3
• Receiver type A with siphon 10 ml,
tapered joint 24/40
Dean & Stark Apparatus
ASTM D95
• Receiver type E 5 ml
• Mantle heater with steel rod and clamp
• Receiver type B without siphon 25 ml
• 500 ml flask
• Receiver type C with siphon 25 ml
• Condenser
• Receiver type D with valve 25 ml
• Graduated 10 ml receiver type A
• Receiver type F 2 ml
• Receiver type E 10 ml
• Tapered joints 24/40
Accessories
• Receiver type E 5 ml
• Receiver type E 10 ml
• Receiver type B without siphon 25 ml
• Receiver type C with siphon 25 ml
• Receiver type D with valve 25 ml
• Receiver type F 2 ml
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129
TAN / TBN Analysis
Titra-Max Titration System
Micro TAN Titrator Total Acid Number Analyzer
PAT940 Smart Titrator
E-chem Combined pH/Conductivity Meter
Titra-Max
Titration System
Conforms to
ASTM D664, D2896, D4739 & D3227
Features and Benefits
• User friendly auto titration system.
• User selectable End Point mode.
• Compliant to ASTM methods for
TAN/TBN analysis of oil samples.
Mercaptan sulphur titration
method as standard.
• Interchangeable burette assemblies
with intelligent volume recognition
system.
• Vortex mixing system for vigorous and
homogeneous stirring of viscous samples.
• Alphanumeric entry of all method
parameters and sample data that
ensures GLP compliance.
• Pre-programmed ASTM methods
for easy operation.
• Two tier password protection,
Administrator and User for
method editing.
• User selectable report formats
– Titration analysis reports, method
parameters, Data table,
Titration curves, etc..
• Full reprocessing and statistical analysis
of run data including first and second
derivative graphical report.
• Balance interface for weight data transfer.
• Data download to PC.
132
The Titramax Volumetric Titration
system is designed specifically for the
determination of TAN, TBN and
Mercaptan Sulphur analysis of
petroleum products, lubricants and
transformer insulating oils.
Applications
• Lubricating Oil
• Aviation Fuel
• Fuels & Waxes
Industries
• Inspection
• Aviation
• Automotive
• Lubricants & Greases
• Transportation
• Marine
• Refinery
• Pipeline/Terminal
• Military
• Petroleum
• Fuels & Waxes
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Micro TAN Titrator
Total Acid Number Analyzer
Conforms to ASTM D664
Features
Applications
• Very easy to use - intuitive keypad and
function guide display
• Lubricating Oil
• 3 editable pre-programmed TAN methods
• Results expressed in mg KOH/g
• 10ml high precision syringe – syringe
volume dispensed in 40,000 steps.
Industries
• Inspection
• Aviation
• Automotive
• External RJI22(4-4) bidirectional connection • Lubricants & Greases
port to printer, balance or PC with RS232C • Military
• Data Logger – automatic data storage of
last 55 analysis results
• MicroTAN employs automatic MET
determination
• Transportation
• Marine
• Supplied with an optimized small volume
titration vessel and a 250ml capacity vessel
for those applications that require larger
solvent volumes. The micro combination
electrode is suitable for use with either
size of titration vessel
The Micro TAN total acid number titrator
has been designed to offer maximum
specifications and features whilst being
priced at a very competitive level. This
titrator conforms to ASTM D664 for
determination of acidic constituents in
petroleum products, lubricants and
transformer insulating oils.
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133
PAT940
Smart Titrator
Features
Pre-programmed testing methods
• Light touch screen interface, with
personalised menu for quick access to
favorites
Acid Number
ASTM D664
ASTM D974
Base Number
• Light touch with swipe, reduce and
enlargement functionality
ASTM D2896
ASTM D4739
Mercaptan S
ASTM D3227
• Pre-programmed international
testing methods
H2S
ASTM D2420
H2S, mercaptan S
UOP 163
• (MET)Monotonic Equivalence Point,
(DET) Dynamic Equivalence Point,
(SET) titration to a preset end point
and (MAT) manual titration modes
H2S, mercaptan S
carbonyl sulphide
UOP 212
Saponification num.
ASTM D94
Bromine Number
ASTM D1159
ASTM D5776
ISO 3839
Salinity in Crude Oil
ASTM D6470
Organic Chlorine in
Crude Oil
ASTM D4929
• Save results to intranet or LIMS Save and
print data without PC, via Bluetooth or
USB interface for printer
• Generate PDF reports, save to USB stick
or intranet
• Real time curve can be viewed & enlarged
at any point during the titration.
134
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E-chem Combined
pH / Conductivity Meter
Features and Benefits
• High precision 3 decimal place
combination pH & conductivity meter
• Complete with combination electrode
suitable for measurement of low ionic
strength solutions.
• User selectable choice of pH buffer
calibration sets
• Ability to measure high purity water,
suitable for applications in electric power
and petrochemical industries.
• Built-in function of high purity water
non-linear temperature compensation
Application
• Soil
• Sea Water
• Food
• Cosmetic
• Pharmaceutical
• Aquaculture
• Tropical Fish Aquariums
• Hydroponic gardening and farming
• Waste water
• Power and electrical industry
• Swimming Pools
• Printing Industry
• Winery / Brewery
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Range
pH
-2000 to 19.999 pH
mV
±1999.9 mV
0 to 2000 mS/cm,
1 to 20.0 μS/cm
20.0 to 200.0 μS/cm
200 to 2000 μS/cm
2.00 to 20.00 mS/cm
20.00 to 200.0 mS/cm
200 to 2000 mS/cm
(with K=10 probe)
E512 E515 E522


-------


----


----


----


----





±0.002 pH

----

mV ±0.03% full scale

----
----






0 to 100 MΩ·cm
TDS
0 to 100 g/L
Salinity
0 to 100 ppt
Temperature
-10 to 110°C
Accuracy
pH
±0.5% full scale
Temperature
±0.4°C
135
Analyzers for Cold Properties
Cloud & Pour Point Analyzer
Cloud & Pour Point Units
Cold Filter Plugging Point (CFPP) Analyzer
Freeze Point Analyzer
Cloud & Pour Point
Analyzer
ASTM D97, D2500, D5853
DIN 51 428, 51 597
IP 15, 219, 309
ISO 3015, 3016
Features
• Bench top model dry bath model
analyzer
• 4 dry test holes with thermometer
hole and 4 stand by covers
• Working temperature from ambient
down to -70°C
• Digital temperature controllers with
0,1°C resolution
• Class A High Sensitivity PT 100 probes
• CFC free gases
sample ceases to flow through a wire
mesh filter.
CFPP Accessory
31 x 125 mm test tube with a set of
neoprene gasket, 3 hole with Teflon
cap, 20 ml Pyrex pipette , wire filter
equipped with filtering disc 325 M,
u-shaped glass pressure gauge, 3-way
cock junction glass, junction glass
tubes, cap bottle, vacuum pump,
digital stopwatch, thermometer ASTM
5C IP, thermometer ASTM 6C IP 2C 1C
Ready to use unit complete
with the following accessories
• Four of each :
ASTM graduated glassware test jar,
cork cover, for centering thermometer,
cork disk for test jar, insulating gasket,
• Four Thermometers
( For cloud point testing )
• Four Thermometers
( For pour point testing )
Cold Filter Plugging Point
(Option)
Cold Filter Plugging Point of diesel and
heating fuels. Determination of the cold
filter plugging point (CFPP)Temperature of
diesel and domestic heating fuels by
measuring the temperature at which the
138
More than 20 Models are available
within different ranges and
applications depend on customer
request
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Cloud & Pour Point Units
Cloud and Pour Point Refrigerator 3 temperatures - Dry Bath
• Floor Model
• Light an resistant structure made in die-casted aluminum covered by special
plastic material
• Fitted with four wheels allowing movement
• PVC cover with 12 wells (4 for each temperature) for accommodate
12 graduated jars
• Equipped with 3 holes for thermometer accommodation
• 12 small stand-by covers
• Working temperatures: 0, -17 and -33 °C
• Temperature is controlled by 3 digital thermo regulators (one for each temperature)
fitted with a probe PT100 A
• Automatic defrosting device low voltage
• CFC free refrigerant gases are used
Cloud and Pour Point Refrigerator - 4 temperatures - Liquid Bath
• Floor Model
• Light an resistant structure made in die-casted aluminum covered by special
plastic material
• Fitted with four wheels allowing movement
• PVC cover with 16 wells (4 for each temperature) for accommodate
16 graduated jars
• Equipped with 4 holes for thermometer accommodation
• Equipped with 4 holes where liquid is poured and thermometer is placed
• 16 small stand-by covers
• Working temperatures: 0, -18, -33 and -51 °C
• Temperature is controlled by 4 digital thermo regulators (one for each temperature)
fitted with a probe PT100 A
• Automatic defrosting device low voltage
• CFC free refrigerant gases are use
Cloud and Pour Point Refrigerator - 5 temperatures - Dry Bath
• Floor Model
• Structure made in light and resistant anodized aluminum with cover in PVC and
4 wheels for an easy transfer
• 20 dry-clean wells in aluminum block (4 for each temperature) with holes
for the thermometers
• 20 small stand-by covers
• Working temperature: 0, -18, -33 , -51, -69°C
• 5 temperature digital controllers resolution 0,1°
• 5 PT 100 probes class A
• 5 main switches
• CFC free gases
Available in floor & bench top models
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139
Cold Filter Plugging Point
(CFPP) Analyzer
ASTM D6371, D4539
EN 116
IP 309, 419
Subject
Cold Filter Plugging Point of diesel,
biodiesel and heating fuels.
Measuring CFPP Principle
The sample is cooled down according to the
methods and when the preselected
temperature is reached a vacuum of 20
mBar is automatically applied to the
sample. The product is sucked through the
filter into the calibrated aspiration pipette.
If the sample takes more than 60 seconds to
reach the upper barrier detector (during
the aspiration phase), or it fails to return
completely into the test jar before that the
product has cooled by a further 1°C, the
Cold Filter Plugging Point is reached.
Measuring CFPP Devices
• Repeatability / Reproducibility:
as per standards methods or better
Software Features
The LabLink software is Windows
based and is able to manage up to 10
analytical heads simultaneously
• User friendly interface
• All analytical parameters recoded
• Customizable analysis parameters
and methods
• Customizable results report
• Printable graphs and results
• Self-identification of the typology
of the analysers connected
• Aspiration pipette
The software includes:
• Filter assembly
• Analysis Menu
• Light barrier
• Diagnostic Menu
Measuring Parameters
• Calibration Menu
• Temperatures: in °C
• Data Utilities
• Measuring range: +80°C … -80°C
• Resolution: 0.06 °C
• Accuracy: ± 0.1 °C
140
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Freeze Point
Analyzer
ASTM D1177, D1655, D2386,
D5901, D5972
IP 16, 435, 528, 529
ISO 3013
Subject
Freezing Point of aviation fuels,
aviation gasoline, aviation turbine fuels,
engine coolants, antifreeze products,
brake fluids,…
Measuring Freezing
Point Principle
According to the methods, the sample is
cooled down and stirred. The solid
hydrocarbon crystals formation are
detected by means of a light beam reflected
thanks to a mirror. As soon as crystals are
detected, the sample is warmed up until
their complete disappearance.
Measuring Freezing Point
Devices
Light pulsed emission on I.R spectrum through a coaxial fibber optic
Coaxial fibber optic equipped with a mirror
Measuring Temperature Probe
• Accuracy: ± 0.1 °C
• Repeatability / reproducibility
as per standards methods or better
Software Features
The LabLink software is Windows®
based and is able to manage up to 10
analytical heads simultaneously
• User friendly interface
• All analytical parameters recorded
• Customizable analysis parameters
and methods
• Customizable results report
• Printable graphs and results
• Self-identification of the typology
of the analysers connected
The software includes:
Platinum resistance PT100 class A Stirrer
A micro-motor drives all the mechanical
system
• Analysis Menu
Measuring Parameters
• Calibration Menu
• Temperatures: in °C
• Diagnostic Menu
• Data Utilities
• Measuring range: +80°C … -100°C
• Resolution: 0.06 °C
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141
Oxidation, Corrosion & Rust Testing
Heated Tube Baths for Oxidation Stability Testing
Dry Baths & Liquid Baths for Oxidation Stability of Oils
Chilled Water Bath for Oxidation Stability of Insulating Oils
Corrosiveness and Oxidation Stability of Highly Refined Oils
Universal Oxidation Baths for Oxidation and Thermal Stability
Oxidation Stability of Fuels & Insulation Oils
Copper, Silver & Lead Corrosion by Petroleum Products
Rusting Characteristics of Oils
Rust Testing in Humidity Cabinet
Oxidation, Corrosion &
Rust Testing
Heated Tube Baths for
Oxidation Stability Testing
• Available for Any Oxidation or Heat Stability Test
• Heated Tubes Replace Aluminum Block and Oil Baths
• Each Position Individually Temperature Controlled
• Eliminates the Non-uniformity of Aluminum Blocks
• Eliminates Smoke and Fire Hazards of Oil Baths
• Light Weight vs Conventional Aluminum Blocks
• Rapid Heat Up and Cooldown
• Operating Temperature of 50° to 300°C
• Sample Temperature Stability of ± 0.1°C
• Oxygen or Air Flow Controller for Each Test Position
• Controllers May be Interfaced to a Windows Based PC
• Any Number of Positions from 1 to 100
Model: HT-342-4
The oxidation stability tube heating baths concept is similar to a heated aluminum
block except that individual aluminum sleeves are used. Each sleeve is of a
dimension to snugly fit a test tube of the specific test method requirements.
Dry Baths for Oxidation
Stability of Oils
• Individual Heated Tube Bath
Conforming to ASTM D943
• Also for methods:
ASTM D2274, D2893, D4310, D4636
IP 388
ISO 4263
DIN 51 587
NF M07-047, T60-150
AOCS CD 12-57
• Temperature Range 50° to 300°C
• Temperature Stability of ±0.1°C
• Aluminum Block Bath Conforming
to ASTM D943
Model: HT-342-12
A wide range of heated baths for the oxidation of oil products by ASTM D943,
D2274, D2893, D4310, and D4636 test methods. In addition to the conventional
heated liquid baths offers solid aluminum block baths and the heated tube baths.
144
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Liquid Baths for Oxidation Stability of Oils
• Liquid Baths Conforming to ASTM D943
• Also for methods:
ASTM D2274, D2893, D4310, D6594
IP 388
ISO 4263
DIN 51 587
NF M07-047, T60-150
AOCS CD 12-57
• Temperature Stability of ±0.2°C
• Temperature Range of 40° to 150°C
• Flowmeters with Precision Control Valve
Model: 501-8
A wide range of heated liquid baths for the oxidation of oil products conforming
to a wide range of oxidation test methods.
Chilled Water Baths for Oxidation Stability of Insulting Oils
• Also for methods:
ASTM D943, D2274, D4310, D4336, D4871, D6594
IP 388
ISO 4263
FTM 791-5307, 5308, 5321
DIN 51 587
NF M07-047, T60-150
• Recirculates Chilled Water to the Condensers
• Conserves Water
• Intended for High Volume Oxidation Testing
Model: 65
Laboratories with high volume of oxidation stability testing samples use large
quantities of tap water to cool the reflux condensers. A more environmentally
acceptable solution is to recirculate the cooling water such that the water exiting
the last condenser is kept below 32°C. In addition, depending on location, tap
water temperature may not be acceptable.
Corrosiveness & Oxidation Stability of Highly Refined Oils
• Individual Heated Tube Bath Conforming to ASTM D4636
• Aluminum Block Bath Conforming to ASTM D4636
Model: 419-6
• Also for methods:
ASTM D5968, D6594
FTM 791-5307, 5308
IHC BT-10
• Temperature Range 50° to 400°C
• Temperature Stability of ±0.5°C
A wide range of heated baths for the oxidation of oil products by
ASTM D4636, D5968, and D6594 methods.
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145
Universal Oxidation Baths for Oxidation & Thermal Stability
• Aluminum Block Bath Conforming to ASTM D4871
• Individual Heated Tube Bath Conforming to ASTM D4871
• Temperature Range 50° to 400°C
• Temperature Stability of ±0.5°C
Model 66-6 is a bench top model with a solid aluminum block bath with 6 test
positions conforming to ASTM D4871 test method. The single digital controller
provides sample temperature control of ±0.5°C. Temperature range is from 50°
to 400°C.
Each position has a float in tube flowmeter with a precision control valve for
delivering gas to the test specimen at a rate of from 1.5 to 13 L/hr. Please specify
the gases to be used and their intended flow rates. Gas pressure regulator is
provided to adjust the inlet gas pressure to the flowmeters. An over temperature
control circuit is provided to prevent over temperature conditions in the event of
primary controller failure.
Oxidation Stability of Fuels
• Methods:
ASTM D525, D873, D5304, IP 40, 138, ISO 7536
FTM 791-3352, 3354, DIN 51 780
Model: 66-12
• Liquid Bath with Capacity for 6 Oxidation Bombs
• Solid Aluminum Block Bath with Capacity for 4 Bombs
• Temperature Range 40° to 150°C
• Temperature Stability of ±0.1°C
Model 188 is a liquid bath conforming to ASTM D525, D873, D5304 and related
test method for the oxidation stability of gasoline (Induction period method) and
aviation fuels (Potential residue method). Model 188 has a capacity for 6
oxidation bombs. The temperature range is 40° to +150°C with temperature
stability of ±0.1°C provided by a digital indicating controller with 0.1°C resolution.
Mechanical agitation of the liquid bath is provided to insure temperature
uniformity within the bath. The bath has a volume capacity of approximately 160
liters. The unit is protected against overheating in the event of primary controller
failure.
Model 144 is a circular solid aluminum block accepting 4 oxidation bombs.
Operating temperature range is 40° to +200°C. A digital indicating controller with
0.1°C resolution provides temperature stability and position to position
uniformity of ±0.1°C.
Model: 144
Oxidation Stability of Insulation Oils
• Conforms to ASTM D2440 Method
• Temperature Stability of ±0.2°C
• Temperature Range of 40° to 150°C
• Flowmeters with Precision Control Valve
Model 505-8 is an oil bath with 8 test positions accepting ASTM D2440 test tubes
and with 8 float in tube flowmeters and precision control valve delivering oxygen
at 1 ±0.1 L/hr. It operates at 110°C with ±0.2°C stability. The heavily insulated
stainless steel bath is agitated by an electrical motor for temperature uniformity.
An over temperature cut off circuit is provided in the event of primary controller
failure.
Model 505-4 is similar to Model 505-8 but with only 4 test positions.
146
Model: 505-8
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Copper Corrosion by Petroleum Products
• Methods:
ASTM D130, D4814
IP 154
ISO 2160
FTM 791-5325
DIN 51 759
NF M07-015
• Solid Block Constant Temperature Baths
• Liquid Constant Temperature Baths
Model: 280-8
• Baths for Tube or Test Bomb
• Temperature Range 30° to 180°C
• Temperature Stability of ±0.2 °C
A wide range of constant temperature test baths conforming to ASTM D130
copper corrosion test for fuel and related test methods.
Liquid baths are offered with capacity for 4, 8, or 12 test bombs held in a vertical
position. The same baths may also be used (with a change of support rack) for test
tube only procedure accommodating 8, 16, or 24 test tubes.
Model 279-4 is a stainless steel liquid bath able to accept 4 test bombs for either
D130 test method. By exchanging the support rack it is able to accept 8 test tubes
from D130 when the test bomb is not employed.
The temperature range of Model 279-4 is 40° to +180°C with temperature
stability of ±0.2°C. Temperature is controlled with a digital display controller with
0.1°C resolution. To prevent over heating in the event of primary controller
failure, a high limit switch is provided to interrupt power to the bath. A float
switch interrupts power to the bath in the event of low bath fluid level.
The bath is mechanically agitated to insure test point to test point uniformity. A
cover over the bath is provided to reduce evaporation (if water is used as a bath
medium).
Model 279-8 and Model 279-12 are identical to Model 279- 4 except are larger
and able to accept 8 and 12 test bombs, respectively, or 16 and 24 test tubes,
respectively.
Models 279-4, 279-8, and 279-12 are also suitable for the proposed new silver
corrosion test method that will soon be part of ASTM D4814 gasoline
specification.
Model 280-8 and Model 280-12 are solid aluminum block baths with 8 and 12 test
tube positions, respectively, for ASTM D130 where the use of the test tube alone
is specified without the test bomb. The operating temperature range is 300oC to
1800oC. The dry block bath removes the disadvantages of liquid baths, such as
smoke, fire hazard, cleanliness, safety, etc.
Accessories for ASTM D130, such as test bombs, polishing vice, copper of silver
test strips, ASTM color standard, etc. are available conforming to the test method.
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147
Silver Corrosion by Petroleum Products
• Methods:
ASTM D4814
IP 227
• Solid Block Constant Temperature Baths
• Liquid Constant Temperature Baths
• Temperature Range 30° to 180°C
• Temperature Stability of ±0.2 °C
Recent developments have accelerated the ASTM development of a silver
corrosion test by fuels. The new ASTM method will soon be made part of ASTM
D4814 and is, in large measure, based on D130 test bomb method.
Model 279-4 is an insulated stainless steel liquid bath able to accept 4 test
bombs holding the test fuel and the silver strip. The temperature range of Model
279-4 is 30° to 180°C with temperature stability of ±0.2°C. Temperature is
controlled with a digital display controller with 0.1°C resolution. To prevent
overheating, a high limit switch is provided to interrupt power to the bath in the
event of primary controller failure. A float switch interrupts power to the bath in
the event of low bath fluid level.
The bath is mechanically agitated to insure test point to test point uniformity. A
cover over the bath is provided to reduce evaporation (if water is used as a bath
medium).
Model 279-8 and Model 279-12 are identical to Model 279- 4 except are larger
and able to accept 8 and 12 test bombs, respectively.
Model 279-4, 279-8 and 279-12 are also suitable for ASTM D130 method when
pressure vessels are used.
Model 291-6 is an insulated stainless steel liquid bath deep enough to be able to
accept 6 test tubes conforming to IP 227 silver corrosion test method. The
temperature range of Model 291-6 is 30° to 180°C with temperature stability of
±0.2°C. Temperature is controlled with a digital display controller with 0.1°C
resolution. To prevent overheating, a high limit switch is provided to interrupt
power to the bath in the event of primary controller failure. A float switch
interrupts power to the bath in the event of low bath fluid level.
Model 295-6 with similar features as Model 291-6 but is a solid aluminum block
bath deep enough to accept 6 test tubes (350 mm long) as per IP 227. The dry
block bath removes the disadvantages of liquid baths, such as smoke, fire hazard,
cleanliness, safety, etc.
148
Model: 295-6
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Lead Corrosion by Petroleum Products
• Meets the Requirements of FTM 791-5321
• Automated Stirrer Timing
• Automated Raising and Lowering of Stirrers
• Temperature Range 40° to 200°C
• Temperature Stability of ±0.1 °C
Model: 416-3
Model: 393-6
Model 416-3 is a 3 position fully insulated stainless steel oil bath with an
operating range from 40 to 200oC. Temperature control is provided by digital
indicating controller providing stability of ±0.10oC. Built in support rack holds the
test tube to the proper immersion level. Each position is equipped with a stirrer
at 600 +/- 50 rpm for rotating the copper and lead specimens in the test oil.
For improved operator efficiency, Model 416-3 is semi automated. After the test
tube with the test oil is placed in the bath, there is a 30 minutes wait as specified
by the method. At this point, the stirrers are automatically lowered into the
samples, and automatically start rotating at the correct speed. The air flow also
starts at the same time. After 60 minutes of operation, the stirrers are
automatically stopped, raised from the oil, the air flow is stopped and an alarm
sounds.
The remaining time to the next event is digitally displayed as well as the stirrer
speed. Both the stirrer speed and event timer are adjustable, if so desired.
Each test position has a ball-in-tube flow meter with precision valves providing 2
cubic feet per hour air flow. The flow meters are mounted on the front of the
cabinet for easy of adjustment. As an option, mass flow controllers are available
providing precise air flow independent of air temperature or pressure.
To prevent over heating in case of primary controller failure a redundant
temperature controller disconnects power to the heaters. A low bath liquid level
detector also disconnects power to the heaters.
Model 416-6 is identical to Model 416-3 but with 6 test positions.
Model 416-M is similar to Model 416-6 with 6 test positions but without the
automated feature of raising, lowering, starting and stopping of the stirrers and
air flow.
Model 393-6 is a six position aluminum block bath, similar to Model 416-3 but
without the automation features. The aluminum block bath offers improved
safety over a liquid bath.
Rusting Characteristics of Oils
• Methods:
ASTM D665, D3603, IP 135, ISO 7120, FTM 791-4011, 791-5315
DIN 51 355, 51 585, NF T60-151
• Liquid Bath or Dry Block Bath with 4 or 6 Test Positions
• Temperature Range 40° to 150°C
• Temperature Stability of ±0.1°C
Model: 390-4
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Model 390-6 is a 6 test positions agitated liquid bath conforming to ASTM D665,
D3603, and other similar tests. A two position bath cover is provided that adjusts
for either ASTM D665 or D3603 test methods. The bath’s temperature is
maintained by a microprocessor based PID controller with set point and bath
temperature display. A secondary high temperature limit switch prevents over
heating in the event of primary controller failure. In addition, a float switch is
provided that interrupts power to the heaters in the event of low bath liquid
level. A clear plastic safety guard is available as an option on the front of the
apparatus protecting the operator from the rotating stirrer shafts.
149
Foam Testing
Heated Air Baths for Foam Testing
Liquid Baths for Foam Testing
Diffuser Certification Apparatus for Foam Testing of Lubricating Oils
Foaming Tendency of Engine Coolants
Automated Apparatus for Cleaning Foam Testing Cylinders
Foam Testing
Heated Air Baths for Foam Testing
• Meet the requirements of ASTM D6082 150°C foaming test
• Meet the requirements of ASTM D892 for foaming characteristics
• Operating temperatures from +20° to +150°C
• Digital indicating PID temperature controller, ±0.5°C stability
• Rapid sample heat up
• Refrigerated option for rapid sample cool down
• Eliminates liquid bath medium for improved safety and cleanliness
• Two channel mass flow control of air flow
• Automatic test event sequencer
Model: 323
Model 323 is a four test position heated AIR
bath for measuring the foaming tendencies
of lubricating oils in the temperature range
of +20° to +150°C. The use of heated air for
heating test samples improves the overall
safety by eliminating the use of the
potentially unsafe, smoking, dripping of
flammable, hot liquid bath medium.
Conventional bath fluids darken and require
frequent replacement. Use of silicone oils
(strong defoamers) is not recommended
due to possible contamination
Model 323 uses a digital indicating (0.1°C
resolution) PID controller for controlling the
air temperature in the chamber, with a
stability of better than ±0.5°C over the
operating range. Novel, sophisticated
heating system and control allows the
sample to reach test temperature in less
than the 60 minutes as specified by the
ASTM D6082 method. Long temperature
probes are provided for each of the 4 test
positions for digital display and precise
control of sample temp.
For improved consistency of results, two
digital indicating mass air flow controllers
are used for precisely measuring and
controlling the amount and rate of air
delivered to the air diffuser.
The air flow is controlled at either a rate of
152
94 (for ASTM D892) or 200 ±5 mL/min.
(for ASTM D6082).
An automated, two channel sequencer
automatically starts the air flow after
the 5 minutes diffuser soak time, after
5 minutes stops the air flow and
sounds an alarm, and again sounds an
alarm after the 10 minutes settling
period.
A touch screen allows the operator
selection and full adjustment of all test
parameters. All key test parameters
are displayed during the test. Also
displayed is the time remaining to the
next test event requiring operator
attention. A multi pane insulated
window allows full view of the test
cylinder for observation of the foam.
An assembly with a pair of fans is
available as an option to accelerate
cooling of the air bath to the next
lower test temperature. A chilled
water/glycol mixture is required to
maintain 24°C in the air chamber for
ASTM D892 Sequence I and III testing.
The chilled mixture is also helpful for
rapid cool down of the air chamber for
the next test.
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Liquid Baths for Foam Testing
• Conforms to ASTM D892 and D6082 Test Methods
• Also for Methods:
IP 146
DIN 51 566
NF T60-129
FTM 791-3213
• Temperature Stability Better than ±0.5°C
• Semi Automated Sequencer Model Available
Model: 24
Model 24 dual foam test bath is the traditional arrangement with two glass jars
mounted on a supporting base. Each jar accepts two, 1 liter test cylinders for
ASTM D892 testing. One bath is typically controlled at 24°C (external cooling
required) and the other at 93.5°C. Digital display temperature controllers provide
stability of better than ±0.5°C. Four, float in glass tube flowmeters are provided
with micro valves for precision adjustment of air to flow at 94 mL/min ±5 mL/min.
The jar for 93.5°C has a clear plastic protective sleeve to protect the operator
from touching the hot surface.
A coil is available as an option for the 24°C bath for recirculating chilled water to
help maintain the bath temperature. An optional flow through refrigerated chiller
is available to maintain the 24°C bath temperature.
Model 28 is similar to Model 24 but upgraded for semi automated operation by
the addition of Model FM-20. For improved consistency of results, two digital
indicating mass air flow controllers are used for precisely measuring and
controlling the amount and rate of air delivered to the air diffuser.
The air flow is controlled at either a rate of 94 (for ASTM D892) or 200 +/-5
mL/min. (for ASTM D6082). Sixteen inch long temperature probes are provided
for each of the 4 test positions for digital display of sample temperature.
Model: 28
The automated, two channel sequencer automatically starts the air flow after the
5 minutes diffuser soak time, after 5 minutes stops the air flow and sounds an
alarm, and again sounds an alarm after the 10 minutes settling period. A touch
screen allows the operator selection and full adjustment of all test parameters. All
key test parameters are displayed during the test. Also displayed is the time
remaining to the next test event requiring operator attention.
Model 12 single position test bath is same as Model 24 but only a single test jar
and only two ball in tube flow meters.
Model 296 high temperature foam test liquid bath is a safer way to perform ASTM
D892 as well as D6082 test methods. The glass jar holding the heated liquid bath
medium is enclosed in an insulated cabinet with a multipane insulated viewing
window.
The jar enclosure, in part, protects the operator by limiting the hot bath fluid
splash in the event of jar breakage.
The illuminated jar holds two, 1 liter test cylinders. The air flow is measured by
two, ball in glass tube flow meters (one for each test position) and adjustable by
micro precision valves to a flow rate from 90 to 200 ±5 mL/min.
Test Tube Support Rack
The bath temperature control is provided by a digital indicating PID controller
with 0.1°C resolution. The temperature stability is better than ±0.5°C over the
operating range of 40° to 160°C.
A support rack for 4 test tubes is available as an option for convenient storage of
the large cylinders.
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153
Diffuser Certification Apparatus for Foam Testing of
Lubricating Oils
• Certify Diffusers Used in ASTM D892 and D6082
• Also for Methods:
ASTM D721, D1881, D3235, D6811, E128
IP 146, DIN 51 566, NF T60-129, FTM 791-3213
• Fully Automated and Manual Apparatus
• Determine Permeability and Maximum Pore Diameter
The measurement of Foaming Characteristics of Lubricating Oils as per ASTM
D892, and ASTM D6082 High Temperature Foam Testing, is dependent upon the
quality of the gas diffuser stone used in the test.
Certification of the air diffuser involves the determination of critical parameters
including PORE DIAMETER and PERMEABILITY for either spherical ceramic
(Norton) or cylindrical metal (Mott) diffusers.
ASTM D892 method recommends that the diffusers be tested when new and
periodically thereafter, preferably after each use. It is, however, strongly
recommended that the retesting of the diffuser be done every 10 tests since
plugging occurs after use even with diligent cleaning.
Model FM-19PC Digital Diffuser Certification Apparatus automatically
determines both diffuser PORE DIAMETER and PERMEABILITY in accordance with
ASTM D892 and D6082. The traditional manometer and wet test meter are
replaced by a high precision digital pressure controller and a digital mass flow
meter, respectively, both controlled by a PC.
The pressure ramping is electronically controlled and the first bubble is
automatically detected.
Model: FM-19PC
The proprietary Windows software manages the testing operation, the required
calculations, and all the data. The results are displayed on the screen and can be
printed and/or stored on the PC hard drive for ISO 9000 traceability.
Model FM-18PC is similar to Model FM-19PC, above, but requires visual
observation for the appearance of the first bubble.
Model FM-18D is a non-automated apparatus, also conforming to ASTM D892
and D6082 for measurement of pore diameter. It consists of a certified (NIST
traceable) U-tube manometer capable of reading 1000 mm of water installed on
a wall mountable panel.
Mounted on the same panel is the apparatus for the determination of
permeability which consists of a digital indicating mass flow meter capable of
measuring 6000 mL/min. air flow while generating a low back pressure. Model
FM-18D eliminates the need for the clumsy and difficult to use wet test meter.
Foaming Tendency of Engine Coolants
• Conforms to ASTM D1881
• Operates at 88°C with ±0.5°C Stability
Model 98-1 and Model 98-2 (one and two test positions, respectively) meet the
requirements ASTM D1881 Foaming Tendency of Engine Coolants test method.
The 12 inch diameter borosilicate glass jar is temperature controlled at 88OC with
a stability and uniformity of ± 0.5OC. The temperature controller has an over
temperature protection in the event of primary controller failure.
Model: 98-2
A ball in tube flow meter with a precision control valve is provided for each test
position. The air flow rate is controlled at 1000 ± 25 mL/min.
154
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Automated Apparatus for Cleaning Foam Testing Cylinders
• Meets The Requirements of ASTM D892 and D6082
• Also for Methods:
IP 146
DIN 51 566
NF T60-129
FTM 791-3213
• Cleans 4 Foam Test Cylinders Simultaneously
• Each Solvent Flushing Time is Operator Adjustable
• Improved Safety with Minimum Operator Contact with Solvents
• Reduced Risk of Injury by Broken Glass
• Significant Time Savings to the Operator
Model: 406
Model 406 is specifically designed for automated cleaning of up to 4 foam testing
cylinders simultaneously. The cleaning process fully conforms to ASTM D892 and
D6082 using the specified solvents and drying procedure. The automation of the
foam test cylinder cleaning chore releases the operator to more productive
activity.
The automated cleaning apparatus enclosed in a front opening cabinet consists of
a holder for 4 foam test tubes that are inverted on it (after draining of the test oil).
A powerful, air driven pump sends a pulsating spray of solvents in the sequence
as specified by the test methods (i.e., heptane, detergent water, distilled water,
acetone, and finally drying air). The solvent spray impinges on the bottom of the
test tube and then flows along the sides of the tubes for a total cleaning.
To conserve solvents a small amount of clean solvent is introduced into the
cylinder and recirculated for an adjustable period of time. This is followed by a
clean solvent rinse, and then proceeding to the next cleaning process.
The operation is controlled by an on-board Windows based PC and can be
accessed by the operator via a touch panel screen. He/she can select (and store in
memory) the times of each step of the sequence. This option gives the operator
the flexibility to adjust the flow of each cleaning step to balance time and material
use vs. satisfactory cleaning.
The valves controlling the flow of materials are operated by non-sparking, low
voltage solenoid valves. All the electronics and all electrical components are in a
separate, nitrogen purged compartment. Although precautions have been taken
to reduce the fire hazard of this apparatus, Model 406 is not explosion nor fire
proof.
The solvents are contained within the test tube and plumbing. This closed system
keeps the operator from exposure to the solvents.
Each test position has a manual shutoff valve, thus allowing the cleaning of less
than 4 tubes at a time.
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155
Refractometers
J457 Automatic Refractometer
The Temperature Corrected J47 Automatic Refractometer
J57HA Automatic Refractometer
J157 Automatic Refractometer
J257 Automatic Refractometer
J357 Automatic Refractometer
J457
Automatic Refractometers
Smart Measure™ Technology
Improves Results!
All J457’s come with Smart Measure™
Technology that automatically detects
when the prism is improperly cleaned,
insufficient sample is loaded, or if the
instrument is improperly calibrated.
surface. This configuration is also
excellent for situations where there is
very little work space available: out on
the factory floor or in an over crowded
satellite laboratory where there is little
to no remaining bench space.
Exclusive Dual Temperature
Control System
All J457 models come with exclusive Dual
Temperature Control System
utilizing
Peltier Technology. The J457 heats and
cools the sample from both prism surface
and the sample cover. The insulating cover
housing seals against the Prism Well Ring to
create a uniform temperature environment
providing unmatched temperature control
uniformity.
SC Standard Configuration
J457-SC Standard Configuration is most
popular configuration and provides an
excellent combination of a small footprint
and large, easy-to-navigate touchscreen
interface.
WC Wall Mount Configuration
J457-WC Wall Mount Configuration is
designed for production environments
where water is used for cleaning or there
is a lot of sample spillage on the work
158
FC Factory Configuration
J457-FC Factory Configuration is
recommended when there is a lot of
sample spillage on the laboratory’s
instrumentation.
Factories working with sticky resins and
syrups that end up being spilled on the
instrumentation are great candidates
for the J457-FC as the measurement
unit can be as much as six feet away
from the display unit.
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The Temperature Corrected J47 Automatic Refractometer
• Very fast measurement
• Simple to load, simple to measure, simple to clean
• Result independent of operator 26.7°C judgment
Application
The J47 was designed to meet the unique needs of a food and beverage testing
where the samples are mostly a mixture of sugar and water and the
refractometer is viewed more as a tool than a laboratory instrument. The J47’s
single flat measurement surface, temperature correction and one button
measurement capability make it perfect for heavy use applications.
J57HA Automatic Refractometer Application
The J57HA was designed to meet the unique needs of food quality testing
where the refractometer is viewed as a Quality Control tool rather than a
laboratory instrument. A single flat measurement surface, electronic
temperature control and one button measurement capability make it perfect
for heavy use applications.
J57WR Automatic Refractometer Application
The J57WR was designed to meet the unique needs of industrial
environments in the chemical industry where the refractometer is viewed as a
QC tool rather than a laboratory instrument. A single flat measurement
surface, electronic temperature control and one button measurement
capability make it perfect for heavy use applications.
J57AB & J157AB Automatic Refractometer Application
The J57AB and J157AB are the Petroleum specific Refractometers in the
Rudolph Research Refractometer Product Line. The Rudolph Research J57AB
and J157AM refractometers have temperature control and WU measurement
features needed for testing required in the petroleum industry.
J157 Automatic Refractometer Application
The J157 is designed as a high accuracy refractometer for food and water
based chemical applications. The instrument can read to ±0.00004 RI / ±0.03
BRIX making it more accurate and reproducible than 4 decimal place wide
range chemical refractometers.
J257 Automatic Refractometers Application
The J257 is designed as a multi purpose refractometer useful for a broad range
of refractive index applications. The wide refractive index range of 1.26-1.70
means that this instrument can measure many materials that a refractometer
with a food refractive index range of 1.33 – 1.53 cannot.
J357Automatic Refractometers Application
Designed as a research quality instrument the J357 has the highest
performance of any refractometer in the range. This instrument offers the
same extra wide range as our chemical industry models combined with the
high accuracy of our food industry models. It also offers the most powerful
temperature control and is able to measure at up to 120°C
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159
Asphalt Analyzers
ASA Automated Stability Analyzer
Thermoelectric Bending-Beam Rhoemeter
PORLA Asphalt Analyzer
Asphalt Oxidizing Reactor
ASA Automated
Stability Analyzer
Determines the P-value and
the Po/Frmax of residual
fuel oils per ASTM D7060
Complies with Shell Methods
SMS 1600 & SMS 2715
Features
• For Process Monitoring of Residual
Refinery Streams and Fuel Oils
Because the unit is automatic, no
manpower needed and repeatability
improved. Windows-based software
performs all calculations. Data from
previous runs may be easily accessed
and processed using the supplied Data
view software.
• Determines the P-Value and the
Po/Frmax of Residual Fuel Oils
• Residual Fuel
• Determines the P-value and the
Po/Frmax of residual fuel oils
per ASTM D7060
Applications
• Complies with Shell Methods
SMS 1600 and SMS 2715
• Fuels
• Uses Modern Fiber Optics Techniques
for Improved Detection
• Refinery
The ASA Automated Stability Analyzer is
the ideal tool for for process monitoring of
residual refinery streams and fuel oils: It
automates the procedure for quantifying
maximum flocculation ratio of asphaltenes
in the oil and the peptizing power of the oil
medium according to ASTM D7060.
The ASA complies with Shell Methods SMS
1600 and SMS 2715.
Industries
• Pipeline/Terminal
• Petroleum
• Fuels & Waxes
• Inspection
• Process
Benefits
The ASA Automated Stability Analyzer uses
the latest fiber optic techniques to greatly
improve detection of the flocculation point
and repeatability of the results.
162
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Thermoelectric
Bending-Beam Rhoemeter
Meets or Exceeds ASTM D6648,
AASHTO T313 & SHRP
Provisions for Flexural Creep
Testing of Asphalt Binders
Features
• Meets or Exceeds ASTM D6648,
AASHTO T313, and SHRP
• Provisions for Flexural Creep Testing of
Asphalt Binders
• Precise, Repeatable Data
• Environmentally-Friendly
Thermoelectric Cooling
(No External Refrigeration or
Refrigerants Required)
• Graphical Software for Windows®
• Cooling to –36° Celsius in most
Laboratory Environments
Thermoelectric Bending-Beam Rheometer
performs low-temperature flexural creep
stiffness measurements on asphalt binders
as specified in current ASTM D6648,
AASHTO and SHRP methodology.
Applications
• Bitumen
New Crack Seal Option!
The TE-BBR controls air pressure with
four pneumatic pressure regulators,
permitting the operator to adjust main
input line pressure, air bearing pressure,
and pressure supporting the loading
shaft for a “zero” condition and a “load”
condition.
A magnetic stirring bar at the bottom of
the bath vessel circulates bath fluid to
ensure uniform temperature distribution
throughout the bath. The speed of the
stirring bar rotation is adjustable.
Industries
• Asphalt/Bitumen,
• Refinery,
• Petroleum
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163
PORLA
Asphalt Analyzer
ASTM D7112 is the test method
for PORLA.
One of the main reasons for this interest
has been the high price of crude oil. Using
PORLA allows oil companies and refineries
to prepare feedstock crude oil blends more
economically.
The PORLA Fully Automatic Stability and
Compatibility Analyser can measure oils
with an asphaltene content as low as
0.05%, which is a twentieth of competitive
instruments. D7112 is the ASTM test
method for the PORLA
Benefits of PORLA
• No need to filter samples to remove
coke particles and other contaminants
• No Need For Experienced Operators
• High Automation Level - Proven
Technology
• Automatic, Simple and Easy Operation
• Asphaltene Sensitive Detector
• Heavy and Crude Oil Compatibility
Application
• Can Analyze Low Asphaltene
Content Oils (<0.1%)
• One Variable and Three Fixed
Dilution Ranges
• Fast Screening Option
• Measurement Mode for Light Samples
• Aromatic Solvent Evaporation
Correction
• Operation at Elevated Temperatures
• Detector uses reflected light,
sensitive to asphaltene particles
• Desk-top laboratory analyser
• Low Labor Requirements
• Sample preparation time of 5 minutes
• Easy To Use And Maintain
• 3 sample titration typically takes
90 minutes
• Less Time Consuming versus Manual
Reference Method
• 1/6 of Manual Method Time
• Increased precision compared to manual
and other methods –
Better Reproducibility and Repeatability
164
Features
• Very quick to clean detector (1 min.)
• Analysis performed at slightly elevated
temperatures to reduce reaction time
• Results stored on PC hard drive,
possible to print hard copy
• Weight :35 kg /
Dimensions (40 x 53.5 x 40cm)
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Asphalt Oxidizing
Reactor
Model: 90
Features
• Asphalt Oxidation for Roofing Materials
• Small Compact Size
• Operating Range to 300°C
• Motor Driven Agitator
• Efficient Air Sparger
Model 90 asphalt oxidizing reactor is
designed expressly for the study of oxidation of asphalt at elevated temperatures
for the manufacture of roofing materials.
Model 90 is an all stainless steel, approximately 4 inch internal diameter by approximately 18 inch tall, electrically heated
reactor with a mixer, an efficient air sparger
for maximum gas dispersion, and a bottom
drain.
heated and insulated stainless reactor
may be lifted from the stand for easier
cleaning.
The reactants' temperature is controlled
by a digital indicating, PID temperature
controller. The operating temperature is
up to 300°C. A temperature limit control
is provided, preventing over heating. The
airflow is controlled by a precision needle
valve and measured by a rotary
flowmeter capable of from 0 to 10 liters
per minute of air. An air pressure
regulator is also provided.
The reactor cover has provisions for
venting the off-gases and for reactor
loading. The sparger, thermocouple and
mixer are removable from the reactor
cover to facilitate cleaning. The bottom
drain has a special ball valve trapping a
minimum volume of reactants, allowing
the full reactor charge to be efficiently
mixed. The reactants are agitated by twin
turbine mixers operated by a controllable
variable speed motor. The electrically
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165
Other Petroleum Products
Water-Oil Separability (Demulsability) Testing Apparatus
Test Baths for Specific Gravity, API Gravity of Petroluem Products
Flourescent Indicator Adsorption(FIA Method)
Lubricity of Aviation Turbine Fuels BOCLE 5001
Vapour-Liquid-Equilibrium Apparatus
Ramsbottom Carbon Residue Test Apparatus
Water-Oil Separability
(Demulsability) Testing Apparatus
Meets The Requirements of ASTM D1401
ISO 6614
FTM 791-3201
DIN 51 599
NF T60-125
Model: 305
Features
•
•
•
•
•
•
•
•
•
The stirrer motor is securely fixed with
only a vertical range of motion without
Full Visibility Bath with the Range of
the use of belts or chains. Apparatus
40° to 95°C
design permits lifting for paddle and
Digital Display Temperature Controller for sample removal. Time is saved in
±0.2°C Stability
alignment for the next test and future
Capacity for 7 Graduated Test Tubes
mechanical problems are avoided by
Adjustable Stirrer Operating at 1500 rpm keeping the motor fixed and use of a
sample turntable that locks in place at
±1 rpm configurable to 2500 rpm
each position.
Configurable stirrer shutdown time and
The stirrer paddle and shaft is machined
7 sample timers up to 59.99 min
from a single piece of stainless steel. This
Audible alarm for stirrer shutdown
paddle reduces the possible micro
Sample turntable with fixed motor
crevices
which
may
accumulate
position, avoids alignment problems
contamination. These contaminants are
High visibility: 3 viewing sides and backlit difficult to remove in paddles of
conventional soldered shaft and paddle
Enclosed cabinet with removable jar for
construction.
tighter temperature control & improved
operator safety
• Viewing sides are special scratch
resistant plastic
A color touch panel, which is friendlier than
single line displays, is used to display
temperature and RPM plus control the unit.
Plus it also has built in timers for each
position to avoid the need for stopwatches.
When agitation is stopped an audible alarm
is sounded to alert the user.
The stirrer speed RPM is measured by a
tachometer and digitally displayed.
168
The enclosed cabinet design gives the
unit a stable footprint less prone to
topple over and safer in high
temperature applications than open jar
designs. The bath jar is easily removable
from the rear. Additional safeguards
include low level, over temperature, and
circuit breaker protection. The bath
cover reduces water loss and has the
capacity for 7 graduated test cylinders.
The unit is backlit for easier reading of
the emulsion separation line.
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Test Baths for Specific Gravity,
API Gravity of Petroleum Products
Conforms to ASTM D287, D1298,
D3142 & D6822
ISO 3675
IP 160
DIN 51 757
Model: 177-4D
Features
• Conforms to ASTM D287, D1298,
D3142, D6822
• Models available from 1-12
test positions
• Operating temperature up to 100°C
• Temperature stability ±0.1°C
• Unique, fixed stainless steel cylinder
tube in baths
• Unique individually heated tube baths
Model 28-1 is a single position "heated
tube" design that does not require a glass
hydrometer cylinder to put the test
sample in. The metal tube is filled to the
top with the sample where it is brought to
the desired test temperature. The
hydrometer is placed into the tube to
determine the API or specific gravity. An
overflow catch collar collects the excess
sample to waste. After completion of the
test a drain valve is opened and the
sample is discarded to a waste container
or sink.
Model: 28-1
Model 177-12 accepts twelve 2 inches
diameter by 16 inch long hydrometer
cylinders for measurement of API or
specific gravity at temperatures from
ambient to +100°C. It has an agitated
liquid bath and adjustable overflow pipe
to maintain the correct bath level when
the hydrometer cylinders are immersed.
The 17 inch deep stainless steel,
insulated bath is electronically heated
and its temperature control is provided
by digital indicating temp. controller with
resolution to 0.1°C providing temp.
stability or better than ±0.1°C.
The cabinet dimensions are 31"x 6"x 21".
Shipping weight is 200 lbs/27 cu.ft.
Model 177-6 is similar to Model 177-12
but a smaller bath to accept 6 test tubes.
Model 177-4D is a 12 inch diameter by 18
inch borosilicate glass jar with support to
hold vertically 4 test cylinders.
Temperature control is provided by a
digital display adjustable controller. The
agitated bath is also protected by high
temperature limit switch as well as a low
bath liquid level switch.
Models 28-2 and 28-6 are similar to
Model 28-1 but with two and six test
positions, respectively.
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169
Flourescent Indicator Adsorption
(FIA Method)
Conforms to ASTM D1319 Test Method
Model: FIA 1319-4
ISO 13757
IP 156
NF M07-024
Features
• Available in two, four or six
test positions
• Zone measuring device
• Spherical joint/hose connector for
each position
• Large easy to read gauges
• Complete standard adsorption
column for each position
• Adjustable scales
• Portable UV lamp
• Portable vibrator supplied for tighter
silica gel packing
Model FIA-1319-4 is identical to Model
FIA-1319-6 but has 4 test positions.
FIA-1319 is a series of apparatus used for
determination of saturated, non-aromatic
olefins, and aromatics in petroleum
fractions that distill below 315°C by
Fluorescent Indicator Adsorption (FIA
Method). This apparatus conforms to
ASTM D1319 and other similar test
methods. It is available in 6, 4, and 2
position versions. We supply a portable
handheld vibrator, purchased separately. It
is unlike competitive units that offer fixed
mounted vibrator. Benefit is the ability to
focus the vibration to specific areas of the
column to more tightly pack the silica gel.
Model FIA-1319-6 consists of
• Wall mounting panel with universal
brackets and mounting fixtures for
6 FIA columns
• 6 easy to read pressure gauges
Model FIA-1319-2 is identical to Model
FIA-1319-4 but has 2 test positions.
The test method permits the use of two
types of adsorption columns .Precision
bore columns, our part number FIA-11,
can be reused after cleaning. Requires
purchase of one cleaning capillary
FIA-14. Adsorption columns with
standard bore, our FIA-16, offer the
convenience of being disposable after
each use. Order additional replacement
columns, our FIA-17.
In addition to the FIA-1319 apparatus,
also needed are a portable vibrator,
standard silica gel, dyed silica gel, and
appropriate number of spare precision
bore or standard columns. Columns are
very long, fragile, and costly to ship, so
consider ordering larger quantities of
spares to amortize the shipping costs.
• Pressure manifold with precision
needle valve for each position
170
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Lubricity of Aviation Turbine Fuels
BOCLE 5001
Conforms to ASTM D5001
Test Equipment for Measurement of
Aviation Turbine Fuels Lubricity by the
Ball-on-Cylinder
Lubricity
Evaluator
according to ASTM D5001.
BOCLE 5001 according to ASTM D5001
measures the actual wear scar size with a
Test Ball specimen. The wear scar is
generated by the friction between the
stationary ball and a rotating cylinder. A
part of the rotating cylinder is immersed in
the turbine fuel tank (50 ml) and covered
with the turbine fuel.
of the air which is circulated into and
above the test fluid – the air flow rate is
controlled, too. The Test Ball is loaded by
a preselected load for the test period 30
min. After the test the minor & major
axis of the resultant wear scar measured
with a microscope. Two measurements
have to be performed for getting an
averaged result, the more lubricity a
Turbine Fuel has the lower is the
resultant wear scar.
The temperature of the fuel tank is
controlled, as well as the relative humidity
Technical Specifications
Fluid Volume
50 ± 1.0 ml
Fluid Temperature
25 ± 1°C
10 ± 0.2% RH at 25 ± 1°C
Flow Rate Through The Fluid
0.5 L/min.
Flow Rate Over The Fluid
3.3 L/min.
Pre-Treatment Time
15 min.
Applied Load
1000 g
240 ± 1 rpm
30 ± 0.1 min
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171
Vapor-Liquid-Equilibrium
Apparatus
Application
Determination vapor-liquid-equilibrium
for calculation of required separation
efficiency.
The vapor-liquid phase equilibrium of
mixtures with two or more components
are an essential basis for determining
the theoretical number of separation
stages and other distillation conditions.
A special advantage of the apparatus is
that in case of mixtures with miscibility
gaps, a direct gaseous sampling of the
vapor phase is possible by means of
another sampling port.
condition; the necessary fittings,
probes and safety devices for this
purpose are integrated in the cased
basic frame. A version for working
under vacuum conditions is also
available.
Micro processor controlled regulation
unit for precise and reliable work and
can be upgraded for operations under
reduced pressure as well. A heating
mantle and tape for operation at
higher temperatures is also available.
The model VLE 100 D is designed for
operation
under
overpressure
Technical Specifications
180° C
Measurement
approx. 100 ml
3000 - 1.0 mbar
172
Mains supply
208 - 250 V, 50 Hz (60 Hz upon request)
Dimensions (W x H x D)
0.5 x 0.85 x 0.50 m
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Ramsbottom Carbon Residue
Test Apparatus
ASTM D524, D6074
IP 14, ISO 4262
FTM 791-5002
NF T60-117
Type Of Furnace
Electrically heated block furnace.
Max Operating Temp.
Programmable up to 650 oC
Continuous Operating Temp.
550 oC +/- 5oC
Capacity
5 samples simultaneously
Heater
Ceramic shealted split bend heater
Temperature Controller
Temperature is controlled by microprocessor based
PID temp. controller with dual display to monitor
and switch on/off the heater.
Input Power Supply
230 VAC, 50 Hz
Thermocouple
Calibrated thermocouple, capable of measuring up
to 1000 oC at accuracy of +/- 1oC
Control Panel/ Display
Digital display for present & set temperatures,
heater indicator and main switch on/off indicator.
Safety Interlocks/ Relay
Safety cut-off and emergency switch off for
power overload.
Structure
Double walled structure, thermally insulated for
better performance during continuous operation.
Powder coated external surface for and
esthetic appearance.
Electrical Requirement
• 220-240V, 50/60Hz, Single Phase
• Or 115V, 50/60Hz, Single Phase
Accessories Supplied with
Equipment
• 10 Sample Bulbs
• Syringe
• Tongs
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173
Mobile Fuel & Oil Laboratory
Mobile Fuel & Oil Laboratories
Mobile Fuel & Oil
Laboratories
Features
• Fuel resistant workbench
• Drawers with lock
testing analyzers (various brands are
available) can be installed to comply with
your individual needs.
• Chair for convenient working
• Air conditioning & Heating system
• Desk for PC
• Fire extinguisher
• Integrated wash basin
• Compartment lightning
• Van fit for rough roads
- shock proof installation of instruments
- water and power supply
- connection to printer and PC
Mobile Fuel & Oil Labs are ideal solution
for fast and precise fuel & oil quality
checks in the field. Equipped with the
portable, rugged and fully automated
analyzers, a detailed fuel & oil analysis can
be performed in less than 30 minutes by a
single person directly on-site.,
All instruments are securely mounted on
specially designed shock absorbers to
avoid damage during driving. Specially
designed lab desks and lockers provide
optimal work space and storage of
samples and chemicals. The on board
electric transformer supplies power to
the instruments and devices from 2
sources: chargeable 12V batteries and
external and internal 240V. Containers
for waste and fresh/distillate water
supply are easily accessible through the
back doors.
Mobile Labs have the flexibility to be built
and equipped according to individual
requirements: the type of vehicle can be
chosen, air-condition, ventilation system,
auxiliary heating, sink with fresh and/or
distilled water, vessel dryer, anti-skid
flooring, fire extinguishers and certainly a
large selection of on-board fuel & oil
176
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Complete Solution
• Gasoline analyzer
• Diesel analyzer
Application
• Terminals, retail outlets and tank farms are scattered
over a wide area
• Adulteration and cross contamination c
an happen everywhere
• Flashpoint tester
• Vapor pressure tester
• Viscometer
• XRF Sulfur determination
• Compliance testing has to be done “on the spot”
• Distillation
• Transportation to a lab is too time consuming
• Elemental Analysis
• Fast and cost effective results needed
• Particle Count
• Cold Properties
• Physical & Chemical Properties
• …and more according to your needs
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177
On-Site Environmental Oil & Fuel Testing
InfraCal 2 Oil in Water Testing
PCB and Chlorinated Organics Testing
Used Oil Testing
Soil Testing: Petroleum Hydrocarbons & Water
Condition Monitoring Of Industrial Oils
Alternative Fuels Testing
InfraCal 2
Oil in Water Testing
Complies with
ASTM D7066 Standard
Correlates with
EPA 1664 Method
Features
Applications
• Higher signal to noise for increased
sensitivity/performance
Oil in Water / Soil Testing
• Touch screen intuitive display
• FOG in Wastewater
• Holds multiple calibrations
• Sub-ppm Oil in Water
• Internal data logging and data transfer
capabilities
• Oil Content in Frac Water
• Alarm functions
• Security features to protect calibrations
& instrument settings
• Optional internal battery pack
• TPH in Soil Remediation
• Hydrocarbons in Drill Cuttings
• Oil in Water in the Petrochemical
Industry
Biofuels Measurements
• Biodiesel in Diesel Fuel
• Complies with ASTM D7066
(Model Trans-SP) 0.1 ppm
• Ethanol in Gasoline
• Correlates with EPA 1664 Method
(Model ATR-SP) 0.3 ppm
Specific Applications
Password Login Feature
180
• Oil Level in Produced Water
• Biodiesel QC Production
• Metal Parts Cleaning
Calibration Table
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PCB & Chlorinated Organics Testing
Clor-N-Oil
Field Test Kits for PCB Screening of Electrical Insulating Fluid 20, 50, 500 ppm Action Level
U.S. EPA SW-846 Method 9079
Analytes:
PCB's
Matrix:
Transformer Oil
Detection Method: Fixed endpoint colorimetric titration
Action Levels:
Above or Below 20, 50, 500 ppm
Analysis Time:
Less than five minutes
Packaging:
20 Kits to a shelf pack, 80 kits per case. Minimum
order 10 kits. Orders greater than 10 kits must be in
multiples of 20.
Clor-N-Soil
Field Test Kit for PCB Screening of Soil at 50 ppm
Analytes:
PCB's
Matrix:
Soil
Detection Method: Fixed endpoint colorimetric titration
Action Levels:
50 ppm
Analysis Time:
10 minutes
Packaging:
12 Kits to a shelf pack, 48 kits per case.
Minimum order 6 kits. Orders greater than 6 kits
must be in multiples of 12.
L2000®DX PCB / Chloride Analyzer
Field Testing: Quantitative PCB/Chlorinated Organics Testing for Dielectric
Fluid, Soil, Water, and Surface Samples
U.S. EPA SW-846 Method 9078 for Soil
Analytes:
PCB's, Chlorinated Organics
Matrix:
Water, Transformer Oil, Surface Wipes, Soil
Detection Method: Electrochemical
Action Levels:
Soil: 2-2000ppm
Water: 10ppb-2000ppm
Wipe: 2-2000ug/100cm
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Analysis Time:
Oil - 5 min, Soil, Wipes and Water 10 min.
Packaging:
Ships as single unit
181
Used Oil Testing
Clor-D-Tect 1000
Field screening test for total (halogens) chlorine in used oil.
U.S. EPA SW-846 Method 9077
ASTM Method D5384
Analytes:
Chlorine, Chlorinated Organics
Matrix:
Used Oil, Solvents, Organic Liquids
Detection Method: Fixed endpoint colorimetric titration
Action Levels:
Above or below the 1000 ppm regulatory limit
Interferences:
Sulfur may cause false positive results
Analysis Time:
Less than 5 minutes
Packaging:
20 Kits to a shelf pack, 80 kits per case. Minimum order
10 kits. Orders greater than 10 kits must be in
multiples of 20.
Clor-D-Tect Q4000
Field test kit for quantifying total chlorine (halogens) in used oil
U.S. EPA SW-846 Method 9077
ASTM Method D5384
Analytes:
Chlorine, Chlorinated Organics
Matrix:
Used Oil, Solvents, Organic Liquids
Detection Method: Quantitative colorimetric titration
Action Levels:
200 - 4000 ppm
MDL:
200 ppm
MQL:
600 ppm
Interferences:
Sulfur may cause false positive results
Overall Accuracy:
10% +/- MDL
Analysis Time:
5 minutes
Packaging:
20 Kits to a shelf pack, 80 kits per case. Minimum order
10 kits. Orders greater than 10 kits must be in multiples
of 20.
HydroCLOR-Q
Field Test kit for Organic Chlorine Determination for Oil/Water Mixtures
and Used Antifreeze/Coolant
Analytes:
Chlorinated Organics
Matrix:
Water/Oil Mix, Antifreeze
Detection Method: Quantitative colorimetric titration
182
Action Levels:
200-4000 ppm
Analysis Time:
Less than 10 minutes
Packaging:
Sold in packs of 12
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HydroSCOUT Analyzer System Percent Range for Used Oil
Field Test for Quantifying Water In Used Oil - Percent Range
U.S. EPA SW-846 Draft Method 9001
Analytes:
Water
Matrix:
Used Oil, Solvents, Organic Liquids, Lubricating Oils,
Industrial Oils, Gasoline
Detection Method: Quantitative calcium Hydride reaction
Action Levels:
High range: 1500 ppm - 100%,
Low Range: 50ppm to 10,000ppm
MDL:
0.15 %v/v and 5 %v/v
MQL:
0.45 %v/v and 15 %v/v
Interferences:
Ethylene Glycol / Acids
Overall Accuracy:
10% +/- MDL
Analysis Time:
3 minutes
Packaging:
Ships as single unit
TitraCLOR - C
Laboratory Test for Quantifying Chlorine in Used Oil (colorimetric end point)
Analytes:
Chlorine, Chlorinated Organics
Matrix:
Used Oil, Solvents, Organic Liquids
Action Levels:
50 - 6000 ppm chloride with a precision of +/- 5%
MDL:
50ppm
MQL:
150ppm
Interferences:
Sulfur
Overall Accuracy:
10% +/- MDL
Analysis Time:
5 Minutes
Packaging:
Boxes of ten
TitraCLOR - P
Quantitative (Laboratory) Test for Chlorine in Used Oil (potentiometric end point)
biolab@biolab.com.tr
Analytes:
Chlorine, Chlorinated Organics
Matrix:
Used Oil, Solvents, Organic Liquids
Action Levels:
50 - 6000 ppm chloride with a precision of +/- 5%
Analysis Time:
5 minutes
Packaging:
Boxes of 10
183
Soil Testing:
Petroleum Hydrocarbons & Water
PetroFLAG HIGH RANGE EXTRACT
Field Test Kit Reagents for High Range Analysis of Total Petroleum
Hydrocarbon (TPH) in Soil
Analytes:
Matrix:
Detection Method:
Action Levels:
MDL:
MQL:
Interferences:
Overall Accuracy:
Analysis Time:
Petroleum Hydrocarbons
Soil
Turbidimetric Development
150 ppm (MDL) to 20,000 ppm
150 ppm
450 ppm
Natural Hydrocarbons
10% +/- MDL
Throughput 1-10 samples in 15 minutes
PetroFLAG REAGENTS
TPH Field Test Reagents for PetroFLAG Soil Analyzer
Petroleum Hydrocarbons
Analytes:
Soil
Matrix:
Detection Method: Turbidimetric Development
15 ppm - 2000 ppm (analyte dependent)
Action Levels:
15 ppm
MDL:
45 ppm
MQL:
Natural Hydrocarbons
Interferences:
Overall Accuracy: 10% +/- MDL
Throughput 1-10 samples in 15 minutes
Analysis Time:
PetroFLAG TPH ANALYZER System
Field Test Kit for Total Petroleum Hydrocarbons in Soil
U.S. EPA SW-846 Method 9074
Analytes:
Petroleum Hydrocarbons
Matrix:
Soil
Detection Method: Turbidimetric Development
Action Levels:
(MDL) 15 -2000 ppm (analyte dependent)
MDL:
15 ppm
MQL:
45 ppm
Interferences:
Natural Hydrocarbons
Overall Accuracy: 10% +/-MDL
Analysis Time:
Throughput 1-10 samples in 15 minutes
HydroSCOUT ANALYZER System for SOIL
Field Test for Quantification Of Water In Soil.
On-Site Test Kit for Quantifying Moisture Content of Soil
U.S. EPA SW-846 Draft Method 9001
Analytes:
Water
Matrix:
Soil
Detection Method: Quantitative calcium hydride reaction
Action Levels:
0.25% (w/w) - 50% (w/w)
MDL:
0.25% (w/w)
Analysis Time.
Under 10 minutes
184
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Condition Monitoring of
Industrial Oils
TitraLube TAN
Field Test Kit for Quantifying Total Acid Number in
Industrial/Lubricating Oils.
Analytes:
Total Acid Number (TAN)
Matrix:
Lubricating Oils, Industrial Oils, BioDiesel
Detection Method: Quantitative colorimetric titration
Action Levels:
0-2 TAN Units (mg KOH/gm oil)*
MDL:
0.18 TAN Units
MQL:
0.50 TAN Units
Overall Accuracy:
10% +/- MDL
Analysis Time:
5 minutes
Packaging:
Packs of 20 tests
TitraLube TBN
Field Test Kits for Quantifying Total Base Number, (TBN), in Lubricating Oil
in Diesel Engines. ASTM Method D5984-96
Analytes:
Total Base Number (TBN)
Matrix:
Lubricating Oils, Industrial Oils
Detection Method: Quantitative colorimetric titration
Action Levels:
0- 20 TBN Units (mg KOH/gm oil)*
MDL:
0.6 TBN Units
MQL:
1.8 TBN Units
Overall Accuracy:
10% +/- MDL
Analysis Time:
5 minutes
Packaging:
Packs of 20 tests
HydroSCOUT Analyzer System Percent Range
for Lubricating Oils
Field Test for Quantifying Water In Used Oil - Percent Range
U.S. EPA SW-846 Draft Method 9001
Analytes:
Water
Matrix:
Lubricating Oils, Industrial Oils, BioDiesel
Detection Method: Quantitative calcium Hydride reaction
biolab@biolab.com.tr
Action Levels:
50 - 10,000 ug/mL
MDL:
50 ug/mL
MQL:
150 ug/mL
Interferences:
Ethylene Glycol / Acids
Overall Accuracy:
10% +/- MDL
Analysis Time:
Less than ten minutes
Packaging:
Ships as single unit
185
Alternative Fuels Testing
HydroSCOUT Analyzer System PPM Range for Lubricating Oils
Analyzer system for quantifying moisture content of industrial oils - ppm range.
Analytes:
Matrix:
Detection Method:
Action Levels:
MDL:
MQL:
Interferences:
Overall Accuracy:
Analysis Time:
Packaging:
Water
Lubricating Oils, Industrial Oils, BioDiesel
Quantitative calcium Hydride reaction
50 - 10,000 ug/mL
50 ug/mL
150 ug/mL
Ethylene Glycol / Acids
10% +/- MDL
Less than ten minutes
Ships as single unit
HydroSCOUT Reagents PPM Range for Lubricating Oils
Field Test Reagents for quantifying water in industrial/lubricating oils - ppm range
Analytes:
Water
Matrix:
Solvents, Organic Liquids, Lubricating Oils, Industrial Oils
Packaging:
Boxes of 40
TitraLube TAN
Field Test Kit for Quantifying Total Acid Number in
Industrial/Lubricating Oils.
Analytes:
Matrix:
Detection Method:
Action Levels:
MDL:
MQL:
Overall Accuracy:
Analysis Time:
Packaging:
Total Acid Number (TAN)
Lubricating Oils, Industrial Oils, BioDiesel
Quantitative colorimetric titration
0-2 TAN Units (mg KOH/gm oil)*
0.18 TAN Units
0.50 TAN Units
10% +/- MDL
5 minutes
Packs of 20 tests
Quant-N-OL
Field Test Kit for Quantifying Ethanol in gasoline.
Analytes:
Ethanol, Alcohol
Matrix:
Gasoline
Detection Method: Miscibility
186
Action Levels:
0 to 90%
Analysis Time:
Less than 2 minutes
Packaging:
Boxes of 20 tests
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Index by Test Methods
ASTM American Society for Testing and Materials
Standards Page
Standards Page
Standards Page
D56
102, 103, 104
D976
92
D2699
86, 88, 89, 90
D86
68, 69, 70, 87, 88, 90
D1078
68, 69, 70
D2700
86, 88, 89, 90
D91
128
D1123
127
D2709
128
D92
105
D1159
134
D2711
128
D93
102, 103, 104
D1160
74
D2857
37
D94
134
D1177
141
D2879
97
D95
129
D1209
122
D2885
88
D96
128
D1243
37
D2892
72, 75, 76
D97
138
D1250
118
D2893
144, 145
E123
70
D1267
96
D2896
114, 132, 134
E128
154
D1290
128
D2983
60
D130
147
D1298
169
D3142
169
D156
122
D1319
170
D3227
114, 132, 134
E203
127
D1348
127
D3235
154
D287
169
D1364
127
D3401
127
E308
122
D1401
168
D3603
149
E313
122
D1500
122
D3828
102
D323
89, 90, 96, 97, 99
D1533
126
D3829
58, 59
D1544
122
D4006
129
D445
30, 31, 32, 33, 34, 35, 38,
39, 40, 41, 42, 43, 44, 45,
46, 47, 48, 49, 50, 54
D1568
127
D4007
128
D1655
34, 141
D4017
127
D509
122
D1795
37
D4045-81
115
D524
173
D1796
128
D4052
118
D525
146
D1881
154
D4084-07
115
D613
87, 88, 89, 90, 92
D1925
122
D4243
37
D664
114, 132, 133, 134
D1966
128
D4287
54
D665
149
D2196
54
D4294
108
D721
154
D2270
39
D4310
144, 145
D789
37
D2273
128
D4336
145
D848
122
D2274
144, 145
D4377
127
D873
146
D2386
141
D4468-85
115
D850
70
E2412
18
D4539
140
D890
127
D2420
134
D4603
37
D892
152, 153, 154, 155
D2440
146
D4636
144, 145
D893
128
D2500
138
D4672
127
D943
144, 145
D2532
34
D4684
58, 59
D974
134
D2622
111
D4683
53
biolab@biolab.com.tr
187
Index by Test Methods
88
Standards Page
Standards Page
Standards
Page
D4739
114, 132, 133
D6595
7, 8, 9, 10
ISO 3839
134
D4741
53
D6648
163
ISO 4262
173
D4814
147, 148
D6728
6, 9
ISO 4263
144, 145
D4871
145, 146
D6786
24
ISO 4406
24
D4928
126
D6811
154
ISO 5163
89, 90
D4929
134
D6821
59
ISO 5164
89, 90
D4953
96, 97, 99
D6822
169
ISO 5165
87, 89, 90
D5001
171
D6896
58, 59
ISO 6614
168
D5002
118
D6897
96, 97, 99
ISO 7120
149
D5186
92
D7060
162
ISO 7536
146
D5188
96, 97, 99
D7094
103, 104
ISO 8217
108
D5191
89, 90, 96, 97, 99
D7039
109, 110, 111
ISO 8754
108
D5236
73, 74, 75
D7066
180
ISO 9029
129
D5293
51
D7112
164
ISO 9262
60
D5304
146
D7226
55, 56, 57
ISO 10101-3 126
D5386
122
D7279
38, 40, 47, 49
ISO 10337
126
D5460
127
D7344
68
ISO 12058
48
D5481
52, 53
D7536
13
ISO 12937
126
D5482
96, 97
D7596
24
ISO 13757
170
D5530
127
D7777
89, 90
ISO 13736
102, 104
D5776
134
D7806
89, 90
ISO 20847
108
D5845
89, 90, 91
D7889
20
ISO 20884
109, 110, 111
D5853
138
D5901
141
D5972
141
Standards
Page
Standards
Page
D6045
122
ISO 307
37
DIN 6162
122
D6074
173
ISO 918
70
DIN 51 355
149
D6082
152, 153, 154, 155
ISO 1628
37
DIN 51 428
138
D6166
122
ISO 2160
147
DIN 51 566
151, 152, 153
D6277
89, 90, 91
ISO 2719
102, 103, 104
DIN 51 587
144, 145
D6304
126
ISO 3013
141
DIN 51 599
168
D6371
140
ISO 3015
138
DIN 51 757
169
D6377
96, 97, 99
ISO 3016
138
DIN 51 758
102
D6378
87, 88, 94, 95, 97
ISO 3105
30, 34
DIN 51 759
147
D6450
103, 104
ISO 3104
30, 34, 40, 50, 87, 88
DIN 51 780
146
D6470
134
ISO 3405
68, 89, 90
DIN 53 015
48
D6594
145
ISO 3675
169
ISO International Standardization
DIN German Standardization
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Index by Test Methods
IP Institute of Petroleum
Miscellaneous Standards
Standards
Page
Standards
Page
Standards
Page
Tappi T230
37
IP 15
138
AASHTO T313
163
UOP 163
134
IP 16
141
ACEA
53
UOP 212
134
IP 34
102
IP 40
146
American Standard
Methods 2120 E
122
USP (631) Color and
Achromicity
122
IP 71
34
AOCS CD 12-57
144, 145
USP 911
37
IP 74
129
AOCS Dd 5-92
122
IP 75
128
AOCS Td 1a
122
IP 123
68, 69, 70
API MPMS Chapter 10.9
126
IP 135
149
BS2000 Parts 123, 191, 195 70
IP 146
153, 154, 155
BS 7392
70
IP 154
147
CP Appendix IX A
122
IP 160
169
CEC L-36-A-90
52, 53
IP 170
102, 104
DEF STAN 91:91
34
IP 191
70
DGK F050.2
122
IP 195
70
EN 116
90
IP 219
138
EN 13016
90
IP 227
148
EN 13016-2+2
96, 97
IP 236
86
EN ISO 3405
70
IP 237
86
GOST 52340
96
IP 267
60
HAL and User Defined
24
IP 309
138, 140
ICUMSA GS1-7
122
IP 336
108
ICUMSA GS2/3-9
122
IP 358
129
IHC BT-10
145
IP 359
128
JIS K2254
69
IP 370
52, 53
JIS K2258-2
96, 97
IP 386
126
JIS K2265
102
IP 388
144, 145
JIS K2580
122
IP 394
96, 97, 99
NAS 1638
24
IP 409
94, 95, 97
NAVAIR 01-1A-17
24
IP 419
140
SAE AS 4059
24
IP 435
141
IP 438
126
SAE J300
51, 52,
53
IP 481
96, 97
SCAN-CM 15:99
37
IP 496
108
SHT 0769
96, 97
IP 523
102
SMS 1600
162
IP 524
102
SMS 2715
IP 528
141
IP 529
141
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AFNOR Standards
Standards
Page
NF M07-002
70
NF M07-015
147
NF M07-024
170
NF M07-047
144, 145
NF T60-117
173
NF T60-125
168
NF T60-129
153, 154, 155
NF T60-150
144, 145
NF T60-151
147
Federal Test Method
Standards
Page
FTM 791-3201
168
FTM 791-3213
154, 155
FTM 791-3352
146
FTM 791-3354
146
FTM 791-5002
173
FTM 791-5307
143
FTM 791-5308
145
FTM 791-5321
145
FTM 791-5325
147
U.S. EPA Standards
Standards
Page
EPA 1664
180
EPA S-846 Draft Method 9001
183
184
185
162
EPA SW-846 Method 9074
184
PAPTAC G.24P
37
EPA SW-846 Method 9077
182
Ph. Eur. Method 2.2.2
122
EPA SW-846 Method 9078
181
EPA SW-846 Method 9079
181
189
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Beytepe 06810
Ankara Turkey
Tel : + 90 312 468 85 30
Fax: + 90 312 468 85 33
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