WDB400 Series Blowdown and Feed Boiler Conductivity Controllers

WDB400 Series Blowdown and Feed Boiler Conductivity Controllers
WDB400 Series
Blowdown and Feed Boiler Conductivity Controllers
For Two Boilers
180449.B Revised 6/4/2010
Part 1.
General
1.1
1.2
Scope
A.
This section describes the requirements for a blowdown and feed conductivity
controller for two boilers with automatically temperature compensated electrodes.
B.
Under this item, the contractor shall furnish and install the conductivity control
equipment and accessories as indicated on the plans and as herein specified.
Submittals
A.
Part 2.
The following information shall be included in the submittal for this
section:
1.
Data sheets and catalog literature for a microprocessor based blowdown
and feed conductivity controller for two boilers and electrodes.
2.
Interconnection and dimensional drawings.
3.
List of spare parts
Products
2.1
Blowdown and feed boiler conductivity controller
A.
The blowdown and feed boiler conductivity control system shall consist of a
control module that provides on/off conductivity control, chemical feed, and
conductivity electrodes that provide measurement of the conductivity, as well as a
temperature measurement for automatic compensation for errors due to
temperature fluctuations.
B.
Control Module:
1.
Enclosure: Polycarbonate, NEMA 4X, lockable hinged door with clear
window.
2.
Power: 100-240 VAC, 50/60 Hz, 8A, Fuse: 1.0 ampere, 5 x 20 mm
3.
Inputs:
• Conductivity (two): 0 to 10,000 µS/cm.
• Temperature (two): Pt1000
• No Flow Interlock (two): Isolated dry contact closure (reed switch)
• Water meter contactor (two): Isolated dry contact closure (reed
switch).
C.
4.
Outputs:
• Control (on/off): Four internally powered relays
6A resistive, 1/8 HP. All relays must be fused together as one
group, total current for this group must not exceed 6A
• 4 – 20 mA (One or two optional): Fully isolated, internally powered,
600 ohm maximum resistive load.
5.
Software features:
• Control relays shall feature adjustable control direction and dead
band.
• Intermittent sampling shall be selectable.
• If intermittent sampling has been selected, then a control strategy
that detects and compensates for flashing shall be implemented.
• Chemical feed shall be selectable from blowdown and feed, feed as
a percentage of blowdown, feed as a percentage of time, and feed
based on a water meter contactor input.
• If chemical feed through the controller is not desired, those relays
may be selected to function as high/low alarm relays.
• A self test shall be available to verify the integrity of the control
module’s sensor input circuitry.
• Manual activation of the relays shall be easily accomplished via the
keypad.
• A maximum output on-time shall be available on both relays to
prevent runaway control.
• The diagnostic alarm relay shall be activated by a number of error
conditions.
• Software upgrade file shall be transferable to the controller via a
USB memory stick.
• Optional data log of conductivity, temperature, and water meter
totals in 10 minute increments over a two-month period.
• Optional event log with time-stamped relay on/off and flow/no flow
events.
• Optional configuration file import/export feature.
Sensor:
1. Operating Principle: The conductivity sensor shall be driven with a low voltage
AC signal, and the return signal voltage will vary with the conductivity of the
intervening solution.
The Pt1000 temperature signal shall also be delivered to the control module, in
order to automatically compensate for sensor errors due to temperature
fluctuations.
2. Materials of construction: 316SS, PEEK or PVDF.
3.
4.
5.
Process connections: 3/4” NPTM sensor thread
Temperature range: 0 – 200 degrees C.
Pressure range: 0 – 250 psig.
D.
Controller and Sensor Performance
1. Range: 0 – 10,000 µS/cm.
2. Accuracy: From 10-10,000 µS/cm ± 1% of reading; from 0-10 µS/cm ± 20%
of reading.
3. Resolution: ± 1µS/cm.
4. Maximum separation between the controller and the sensor shall be 250 feet.
E.
Indication
1. Graphic User Interface
• A 2 line x 16 character backlit LCD display shall indicate the process
values, and the status of outputs and alarms.
• Four LED lamps shall indicate the on/off status of the control outputs.
F.
Equipment
The blowdown and feed boiler conductivity controller shall be a Walchem
WDB400 series.
Part 3. Operator Functions
3.1
3.2
Calibration
A.
The conductivity electrode calibration shall be a one point calibration, utilizing a
solution of a known conductivity.
B.
All set points shall be set through the 8 button keypad.
C.
An access code shall be available to protect all set points and calibrations, while
allowing the user to view any set point.
Control Module Function Details
A.
The conductivity control output shall be on/off control with adjustable dead band.
B.
The conductivity control direction shall be selected via the keypad.
C.
The chemical feed output shall be on/off control with four choices of feed modes.
D.
All control relays shall have limit timers to prevent runaway control.
Part 4. Execution
4.1
Installation
A.
The sensors shall be installed in the skimmer line that draws a sample from 4-6
inches below the lowest possible boiler water level.
B.
The sensors shall be installed in a pipe with no flow restrictions between the boiler
water and the sensor.
C.
The distance between the sensors and the boiler water shall be as short as possible.
D.
The sample provided must be water, not steam. Back pressure must be provided by
a flow control valve or orifice union located downstream from the sensor.
E.
The sensor cables shall be routed such that they are separated from any AC voltage
by at least 6 inches.
F.
If the sensor cables need to be extended beyond the standard 10 feet, then 24
AWG, 2 twisted pair, shielded cable shall be utilized, to a maximum of 500 ft.
G.
If the optional 4 – 20 mA output(s) is installed, then 22-26 AWG, twisted pair,
shielded cable shall be utilized.
Part 5. Warranty
5.1
Terms
A.
The manufacturer of the above specified equipment shall guarantee equipment of its
manufacture, and bearing its identification to be free from defects in workmanship
and material for a period of 24 months for electronics and 12 months for mechanical
parts from date of delivery from the factory or authorized distributor under normal
use and service and otherwise when such equipment is used in accordance with
instructions furnished by the manufacturer and for the purposes disclosed in writing
at the time of purchase, if any.
B.
In the event a component fails to perform as specified and having been returned to
the manufacturer transportation charges prepaid, and is proven defective in service
during the warranty period, the manufacturer shall repair or replace the defective
part. Replaceable elastomeric parts and glass components are expendable and are
not covered by any warranty.
Part 6. Options
6.1
Related Equipment
A.
B.
C.
D.
E.
Orifice Union for back pressure and blowdown rate control
Solenoid valve for blowdown control
EZB16D1-VC metering pump for chemical feed
Motorized ball valve for blowdown control
100084 Sensor extension cable
Part 7. Spare Parts
7.1
Recommended Spare Parts
A.
B.
103163 Fuse, 1 A, 250 VAC
102864 Fuse, 6 A, 250 VAC
Specifications
Measurement Performance
Conductivity:
Mechanical
Enclosure
Polycarbonate
Range
0-10,000 µS/cm
NEMA rating
NEMA 4X
Resolution
Accuracy
1 µS/cm
Dimensions
Display
See next page
2 x 16 character backlit liquid crystal
Ambient Temp
Storage Temp.
Shipping Weight
32 to 158°F (0 to 70°C)
-20 to 180°F(-29 to 80°C)
10 lbs (approximately)
Temperature:
Range
Resolution
Accuracy
Inputs
Power
Signal
10-10,000 µS/cm ±1% of reading
0-10 µS/cm ±20% of reading
32 to 392° (0 to 200°)
0.1°C
±1% of reading
100-240 VAC, 50/60 Hz, 8A
Fuse: 1.0 ampere, 5 x 20 mm
Outputs
Mechanical relays
Cond Electrode: 1.0 cell factor, 10K
thermistor
Flow Meter (optional): Isolated, dry
contact closure required (i.e. relay, reed
switch)
Flow Switch (optional): Isolated, dry
contact closure required (i.e. reed switch)
4-20 mA
(optional)
Five powered relays
6 A (resistive), 1/8 HP
All relays are fused together as one
group, total current for this group must
not exceed 6A
Fully isolated, internally powered,
600Ω maximum resistive load.
Resolution, .001% of span, accuracy
±1% of reading
Dimensions
5.465”
(139mm)
6.750”
(171mm)
7.684”
(195mm)
4.0” Typ
(102mm)
INTERMITTENT SAMPLING
RECOMMENDED INSTALLATION
Skimmer Blowdown Line
1" Min. up to Electrode
CONDUCTIVITY
ELECTRODE
Full Port Block
Valve
DATA LOGGING
(2 POSSIBLE)
Manual Blowdown
(Normally Closed)
Reducing Bushing
1/2" Motorized Ball Valve
or Solenoid Valve
E
System A
1/2" Flow Control Valve
or Orifice Union
WDB
To Drain
ALARM
OR
PUMP
B
C
B
D
B
ALARM
OR
PUMP
Install accessories
either vertically or
horizontally, per
manufacturer's
instructions.
TO
POWER
SOURCE
A
Skimmer Blowdown Line
1" Min. up to Electrode
Full Port Block
Valve
B
C
CONDUCTIVITY
ELECTRODE
Manual Blowdown
(Normally Closed)
Reducing Bushing
1/2" Motorized Ball Valve
or Solenoid Valve
System B
WIRING DETAILS
A
AC POWER, 8 AMPS MAX
2 x 28 AWG PLUS GROUND OR LOCAL
CODE
B
AC POWER, 6 AMPS MAX
SOLENOID, ALARM OR METERING PUMP
2 x 18 AWG PLUS GROUND OR LOCAL
CODE
C
AC POWER, 6 AMPS MAX
MOTORIZED BALL VALVE
3 x 18 AWG PLUS GROUND OR LOCAL
CODE
D
CONDUCTIVITY ELECTRODE
4 x 24 AWG PLUS SHIELD, 10 FT SUPPLIED
E
OPTIONAL 4-20mA OUTPUT
2 x 24 AWG PLUS SHIELD
1/2" Flow Control Valve
or Orifice Union
D
To Drain
WIRING DETAILS
A
AC POWER, 8 AMPS MAX
2 x 28 AWG PLUS GROUND OR LOCAL CODE
B
AC POWER, 6 AMPS MAX
SOLENOID, ALARM OR METERING PUMP
2 x 18 AWG PLUS GROUND OR LOCAL CODE
C
AC POWER, 6 AMPS MAX
MOTORIZED BALL VALVE
3 x 18 AWG PLUS GROUND OR LOCAL CODE
D
CONDUCTIVITY ELECTRODE
4 x 24 AWG PLUS SHIELD, 10 FT SUPPLIED
E
OPTIONAL 4-20MA OUTPUT
2 x 24 AWG PLUS SHIELD
Ordering Information
WDB400(Voltage) (Output) (Sensor) (USB)
VOLTAGE
1 = 120 VAC, prewired
5 = 100-240 VAC, conduit
OUTPUT
N = No data output
4 = Isolated 4-20 mA output
2 = Two isolated 4-20 mA outputs
SENSOR
N = No electrodes
5 = Standard electrodes (up to 250 psi)
USB FEATURES
N = Software upgrade capability only
U = Integrated datalogging, event/reset logging, and configuration file import/export
Safety Approvals
Agency Approvals
UL
CAN/CSA
CE Safety
CE EMC
ANSI/UL 61010-1:2004, 2nd Edition*
C22,2 No.61010-1:2004 2nd Edition*
EN 61010-1 2nd Edition (2001)*
EN 61326 :1998 Annex A*
Note: For EN61000-4-6,-3 the controller met performance criteria B.
*Class A equipment: Equipment suitable for use in establishments other than domestic, and those directly
connected to a low voltage (100-240 VAC) power supply network which supplies buildings used for
domestic purposes.
BLEED
R+
R+
R-
R-
L2 L2
N.C.
FEED
N.O
.
N.C.
N.O.
IN-
FLOW SW 1
IN+
T+
IN+
IN-
FLOW MTR 1
T+
IN+
COND
T- RED
BLK
FLOW MTR 2
IN- IN+
FLOW SW 2
COND +5V
T- RED
BLK
F1
L1 L2/N
+5V
F2
GROUND
STUD
SYSTEM B
T-
COND
RED
BLK
+5V
L1 L2/N
V
WHITE
EN
GRE
0
0V 24
12 L
N E
R /Y
G RN
G
T+
SHIELD
BLK 120V
BRN 240V
SHIELD
WHT 120V
BLU 240V
SYSTEM A
Do not connect
shield drain wire
at this end!
SYSTEM A
SYSTEM B
T+
G WR B
FLOW SW 1
IN-
IN+
IN-
FLOW SW 2
IN+
T-
COND
RED
BLK
+5V
FLOW MTR 2
IN- IN+
ITE
WH
N
EE
GR
IN+
FLOW MTR 1
Conductivity
Electrode
Do not connect
shield drain wire
at this end!
G WR B
Contact Closure:
Polarity not critical
Power Supply
(115 VAC or 230 VAC)
Hall Effect
Flow Meter
Reed Switch
Flow Meter
Polarity not Critical
WDB INPUTS
Conductivity
Electrode
Chart
Recorder
Chart
Recorder
L2
L2
L2
L2
L2
L2
BLEED
N.C.
N.O.
FEED
N.C.
BOI 1
N.O.
N.C.
N.O.
BIO 2
N.C.
N.O.
ALARM
N.C.
N.O.
N.C.
N.O.
IN-
FLOW SW 1
IN+
IN+
IN-
FLOW MTR 1
IN- IN+
COND
T+ T- RED
+5V
BLK
IN+
FLOW SW 2 FLOW MTR 2
COND
T+ T- RED
BLK +5V
L1 L2/ N
GROUND
STUD
GRN 120V
GRN/YEL 240V
GRN 120V
GRN/YEL 240V
TO GROUND
STUD
IF MOTORIZED
BALL VALVE
Blowdown Solenoid/
Motorized Ball Valve
BLOWDN B
N.O.
N.C.
NOTE: When connecting a
motorized ball valve, the pre-wired
pigtail must be removed and the
valve requires two wires, one to
N.O. to open the valve and one to
N.C. to close the valve.
AUX B
N.C.
N.O.
BLK 120V
BRN 240V
AUX A
N.C.
N.O.
BLK 120V
BRN 240V
BLOWDN A
N.C.
N.O.
BLK 120V
BRN 240V
L2/N
IF MOTORIZED
BALL VALVE
L2/N
BLK 120V
BRN 240V
L2/N
WHT 120V
BLU 240V
L2/N
WHT 120V
BLU 240V
L2/N
WHT 120V
BLU 240V
WHT 120V
BLU 240V
L2/N
GRN 120V
GRN/YEL 240V
TO GROUND
STUD
ALARM
N.C.
N.O.
WHT 120V
BLU 240V
BLK 120V
BRN 240V
GRN 120V
GRN/YEL 240V
GRN 120V
GRN/YEL 240V
TO GROUND
STUD
Alarm
Blowdown
Solenoid/
Motorized
Ball Valve
Pump
WDB OUTPUTS
Pump
AUX B
BLOWDOWN A
WATER METER B
(OPTIONAL)
SPARES
CONDUCTIVITY
ELECTRODE A
CONDUCTIVITY
ELECTRODE B
4-20mA 1
(OPTIONAL)
4-20mA 2
(OPTIONAL)
SPARE
POWER
BLOWDOWN B
WATER METER A
(OPTIONAL)
AUX A
ALARM
WDB WIRING
FLOW SWITCH B
(OPTIONAL)
FLOW SWITCH A
(OPTIONAL)
Was this manual useful for you? yes no
Thank you for your participation!

* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project

Download PDF

advertisement