Daniel™ 1500

Daniel™ 1500
Datasheet
January 2013
Daniel 1500
™
Liquid Turbine Flow Meter
Liquid Turbine Flow Meter
Datasheet
Reliability in Tough Applications
Overview
The Daniel 1500 Liquid Turbine Flow Meter is a volumetric
flow metering and transmitting device used extensively in
the petroleum industry. It is the meter of choice for accurate
measurement of liquid hydrocarbons and other process fluids.
The 1500 Liquid Turbine Meter is specifically designed for
pipeline operation and for use within the guidelines of API
Chapter 5.3 (Measurement of Liquid Hydrocarbons by Turbine
Meters) and the test procedures of API Chapter 4 (Proving
Systems).
The meter's proven design of rugged internals provides
reliability and up-time availability to ensure continuous 24/7
pipeline operation for demanding crude oil and refined product
applications. The 1500 Liquid Turbine Meter features a dualhanger suspension system, offering upstream and downstream
support as well as positive rotor centering. The standard
journal bearing is tungsten carbide that delivers exceptional
longevity.
The 1500 Liquid Turbine Flow Meter includes a Universal
Mounting Box (UMB) housing with up to 2 pickoffs and a dual
channel preamplifier. It can be configured with dual UMBs,
enabling complete measurement redundancy and offering up
to four matched pulse outputs to accommodate a wide variety
of metering and proving requirements.
Typical Applications
ƒƒ Crude and refined product pipelines
ƒƒ Custody transfer and check metering
ƒƒ Inventory control
ƒƒ Ship and rail car loading and off-loading
ƒƒ Crude oil production
ƒƒ FSO (floating storage and offloading)
ƒƒ FPSO (floating production, storage and offloading)
Features and Benefits
ƒƒ Output linear with flow rate
ƒƒ Rangeability of 10 to 1
ƒƒ Available in 1 to 18-inch line sizes
ƒƒ High accuracy and repeatability
ƒƒ Bi-directional flow models available
ƒƒ High frequency pulse resolution
ƒƒ Tungsten carbide bearings
ƒƒ Universal Mounting Box (UMB) housing, dual channel preamplifier and 2 pickoffs
ƒƒ Single or dual UMB options
ƒƒ Up to 4 outputs in 2 pairs, each 90° electrically out of
phase
ƒƒ Improved serviceability allows easy access to pickoffs and reduces installation costs
ƒƒ Simple, easy to maintain, field mountable pickoffs require no interruption of conduit lines while servicing
ƒƒ Explosion proof / weatherproof housing
ƒƒ Stainless steel internals
ƒƒ Rimmed or bladed rotor options
ƒƒ Stainless steel or carbon steel body construction
ƒƒ Light product rotor option
Figure 1: Daniel 1500 Turbine Flow Meter
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1
Daniel 1500
January 2013
Standard Specifications
(1)
Meter Performance
Electrical Performance
Pickoff Specifications
Sizes
ƒƒ Type: 2-wire reluctance 1" to 2 1/2"
ƒƒ Linearity: ±0.25%
ƒƒ Resistance: 600 - 900 ohms
ƒƒ Premium Linearity: ±0.15%
ƒƒ Inductance: 250mH max
ƒƒ Repeatability: ±0.02%
ƒƒ Output: Sinusoidal 40mV p-p minimum @minimum
flow with preamplifier load
3" and Larger
ƒƒ Optional: 2, 3 or 4 pickoff coils(2)
ƒƒ Linearity: ± 0.15%
Preamplifier Performance (Dual Channel)
ƒƒ Premium Linearity: ±0.1% and ±0.07%
ƒƒ Inputs supply voltage: 10 - 30 V dc
ƒƒ Repeatability: ± 0.02%
ƒƒ Minimum input signal amplitude: 40mV p-p minimum
Process Parameters
Powered Pulse Output
ƒƒ Output: 0 to 5V square wave
Table 1: Temperature Ratings
Carbon Steel
Stainless Steel
Standard
-29°C to 82°C
(-20°F to 180°F)
-40°C to 82°C(4)
(-40°F to 180°F)
High temperature
-29°C to 204°C
(-20°F to 400°F)
-40°C to 204°C
(-40°F to 400°F)
Ambient Temperature
40°C to 60°C (CE)
-40°F to 140°F (UL / C-UL)
ƒƒ Frequency range: 0 to 5 kHz
ƒƒ Loading: 1 kilohm internal pull-up
Variable Voltage Output
ƒƒ Output: 0 to supply voltage square wave
ƒƒ Frequency range: 0 to 5 kHz
ƒƒ Loading: 1 kilohm internal pull-up
Table 2: Pressure Ratings(5)
Size (inch)
ANSI Class
Carbon Steel
Stainless Steel
1 to 18
150
285 psi
275 psi
1 to 18
300
740 psi
720 psi
1 to 18
600
1,480 psi
1,440 psi
1 to 18
900
2,250 psi
2,160 psi
ƒƒ Maximum voltage: 30 V dc
1 to 18
1500
3.705 psi
3,600 psi
ƒƒ Maximum current: 125 mA
Open Collector Output
ƒƒ Output: Square wave
ƒƒ Frequency range: 0 to 5 kHz
ƒƒ Maximum power: 0.5 Watts
Hazardous Area Classifications(3)
ƒƒ UL / C-UL Class 1, Division 1, Groups C&D
ƒƒ CE certified Ex d IIB T6 (ATEX)
ƒƒ NEMA 4 (exceeds IP66)
(1) Please consult Daniel if your requirements are outside the specifications noted below. Other product and material offerings may be available depending on the application.
(2) 3 or 4 pickoff coils require Dual UMB.
(3) The Daniel 1500 Turbine flow meter meets US, Canadian and European industry standards for electrical and intrinsic safety certifications and approvals. Please consult
Daniel for a complete list of agencies and certifications.
(4) Remote mount UMB (option) high temperature > 82°C (180°F), low temperature < -29°C (-20°F).
(5) Max Pressure in PSI @ 38°C (100°F).
2
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Liquid Turbine Flow Meter
Datasheet
Standard Flow Ranges
Table 3: Flow Rate
3
BBL/HR
Standard Flow
Size
Range
(Inches)
1
M /HR
Standard Flow
Range
Ext Max Flow
Range(1)
Min
Max
10
100
115
USGPM
Ext Max Flow
Range(1)
Ext Min Flow Range USGPM
Linearity0.75% (1”- 2.5”)
0.50% (3”- 18”)
5.6
Min
Max
1.6
16
18
Standard Flow
Range
Min
Max
7
70
Ext Max Flow
Range(1)
81
1.5
21
214
246
3.4
34
39
12
15
150
173
2
43
429
493
6.8
68
78
24
30
300
345
2.5
57
571
657
9.1
91
105
32
40
400
460
3
100
1,000
1,150
15.9
159
183
56
70
700
805
4
185
1,850
2,128
29.4
294
338
104
130
1,295
1,489
6
420
4,200
4,830
66.8
668
768
235
294
2,940
3,381
8
850
8,500
9,775
135
1,351
1,554
476
595
5,950
6,843
10
1,200
12,000
13,800
191
1,908
2,194
672
840
8,400
9,660
12
1,800 18,000
20,700
286
2,862
3,291
1,008
1,260
12,600
14,490
16
2,800 28,000
32,200
445
4,452
5,120
1,568
1,960
19,600
22,540
18
4,000 40,000
46,000
636
6,359
7,313
2,240
2,800 28,000
32,200
Table 4: Linearity
Size (Inches)
Standard Linearity
Premium Linearity
1- 2.5
+/-0.25%
+/-0.15%
3- 18
+/-0.15%
+/-0.1%
+/-0.07%*
* 5:1 Turndown
Table 5: Nominal K-Factor
Size (Inches)
Pulses/M3
Pulses/BBL
Pulses/US Gal
Blade
Rim
Blade
Rim
Blade
Rim
21,000
N/A
132,086
N/A
500
N/A
1.5
9,660
N/A
60,760
N/A
230
N/A
2
5,334
N/A
33,550
N/A
127
N/A
1
2.5
3,150
N/A
19,813
N/A
75.0
N/A
3
2,016
4,620
12,680
29,059
48.0
110
4
1,000
2,999
6,287
18,862
23.8
71.4
6
235
1,000
1,479
6,287
5.6
23.8
8
N/A
500
N/A
3,144
N/A
11.9
10
N/A
252
N/A
1,585
N/A
6.0
12
N/A
202
N/A
1,268
N/A
4.8
16
N/A
101
N/A
634
N/A
2.4
18
N/A
101
N/A
634
N/A
2.4
(1) Extended Flow Range with 20% Duty Cycle not to Exceed 2 Hours per Day.
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Daniel 1500
January 2013
Flow Range Adjustments
Specific Gravity
High Viscosity Liquids
Table 6A: Specific Gravity = 1 (0.7 to 1)
Meter
Minimum Linear
Size
Flow Rate
(Inches) BBL/HR M3/HR USGPM
1
10
1.6
7
1.5
21
3.4
15
2
43
6.8
30
2.5
57
9.1
40
3
100
15.9
70
4
186
29.5
130
6
420
66.8
294
Maximum Linear
Flow Rate
BBL/HR M3/HR USGPM
100
15.9
70
214
34.1
150
429
68.1
300
571
90.9
400
1,000
159
700
1,850
294
1,295
4,200
668
2,940
Increases in viscosity of the measured liquid will reduce the
rangeability of the flow meter. Generally, the minimum flow rate of
the meter will have to be increased to maintain the linearity rating
of the meter.
The increased flow rate may be determined according to the
following ratio:
Liquid Viscosity (Centistokes)
Sizing
ratio =
Nominal Line Sizes
Table 6B: Specific Gravity = 0.6
Meter
Minimum Linear
Size
Flow Rate
(Inches) BBL/HR M3/HR USGPM
1
17
2.7
12
1.5
36
5.7
25
2
71
11.4
50
2.5
96
15.2
67
3
167
26.6
117
4
309
49.1
216
6
701
112
491
Maximum Linear
Flow Rate
BBL/HR M3/HR USGPM
116
18.4
81
247
39.3
173
493
78.4
345
657
105
460
1,150
183
805
2,127
338
1,489
4,830
768
3,381
Table 7: Minimum Flow
Sizing
Minimum Flow
Ratio (Inches)
(% of Normal Maximum Flow Rate)
1
Use Normal Minimum Flow Rate
1.5
20%
Table 6C: Specific Gravity = 0.5
Meter
Minimum Linear
Size
Flow Rate
(Inches) BBL/HR M3/HR USGPM
1
23
3.6
16
1.5
50
7.9
35
2
101
16.1
71
2.5
134
21.3
94
3
236
37.5
165
4
436
69.3
305
6
989
157
692
Maximum Linear
Flow Rate
BBL/HR M3/HR USGPM
116
18.4
81
247
39.3
173
493
78.4
345
657
105
460
1,150
183
805
2,127
338
1,489
4,830
768
3,381
Table 6D: Specific Gravity = 0.4
Meter
Minimum Linear
Size
Flow Rate
(Inches) BBL/HR M3/HR USGPM
1
29
4.5
20
1.5
60
9.5
42
2
120
19.1
84
2.5
160
25.4
112
3
280
44.5
196
4
517
82.2
362
6
1,173
187
821
Maximum Linear
Flow Rate
BBL/HR M3/HR USGPM
116
18.4
81
247
39.3
173
493
78.4
345
657
105
460
1,150
183
805
2,127
338
1,489
4,830
768
3,381
Table 6E: Specific Gravity = 0.3
Meter
Minimum Linear
Size
Flow Rate
(Inches) BBL/HR M3/HR USGPM
1
33
5.2
23
1.5
71
11.4
50
2
141
22.5
99
2.5
190
30.2
133
3
331
52.7
232
4
613
97.4
429
6
1,393
221
975
4
Maximum Linear
Flow Rate
BBL/HR M3/HR USGPM
116
18.4
81
247
39.3
173
493
78.4
345
657
105
460
1,150
183
805
2,127
338
1,489
4,830
768
3,381
2
25%
2.5
30%
3
35%
4
40%
5
45%
6
50%
7
55%
8
60%
Example:
The sizing ratio of a 4-inch turbine meter measuring a liquid of 8
cSt is 8/4, or 2. The normal maximum flow rate of this size of meter
is 1295 GPM. The new minimum flow rate is 25% of 1295, or 324
GPM. The flow rate for this application is now 324-1295 GPM,
with standard linearity (+/-0.15%) and repeatability of (+/-0.02%)
maintained.
Note:
Use of the turbine meter on high viscosity liquids at the maximum extended flow
range is allowable, but may increase the wear rate of the turbine.
The pressure drop through the meter may be estimated (for low to medium
viscosities) according to the following formula:
DP = (PD) x (μ)1/4 x (SG)3/4
or
DP = (PD) x (v)1/4 x (SG)
Where:
DP = Estimated pressure drop
PD = Pressure drop for water at expected flow rate
μ = Absolute viscosity in centipoises
v = Kinematic viscosity in centistokes
SG = Specific gravity
Note: μ = (v) x (SG)
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Liquid Turbine Flow Meter
Datasheet
Product Diagrams
Electrical
DUAL CHANNEL PREAMP
TERMINAL IDENTIFICATION
CUSTOMER CONNECTIONS
Common
4 5
J3
White
Pickoff
Black or Red
Channel A
Channel B Output
Common
Channel A Output
+10 To 30 VDC
TB1 1 2 3
Table 8: Preamp Jumper Configurations
J4
1
TB2
2
TB3
J1
2
1
J2
Black or Red
Jumper
A
B
Out
J1-Chan. A Input
NA
40mV. PP Min
NA
J2-Chan. B Input
NA
40mV. PP Min
NA
J3-Chan. A Output
5v.Pulse
Sup. Volt. Pulse (10-30 VDC)
O.C.
J4-Chan. B Output
5v.Pulse
Sup. Volt. Pulse (10-30 VDC)
O.C.
Pickoff
White
Channel B
UMB
PREAMP JUMPER CONFIGURATIONS
Figure 2: Dual Channel Preamp Terminal
Identification
JUMPER POSITIONS
Customer
Connections
JUMPER
A
B
J1-CHAN.
J1-CHAN.
J3-CHAN.
J4-CHAN.
A INPUT
B INPUT
A OUTPUT
B OUTPUT
Meter Assembly
N/A
N/A
5V.PULSE
5V.PULSE
40mV. PP MIN
40mV. PP MIN
SUP. VOLT. PULSE (10-30 VDC)
SUP. VOLT. PULSE (10-30 VDC)
OUT
N/A
N/A
O.C.
O.C.
Pickoff A
Pickoff B
Upstream Cone
Hanger Blades
Flow Conditioning Plate
(Optional 3"-6" only)
Deflector Ring
Thrust Washer
Hanger Hub
Downstream
Cone
Rotor
Assembly
Hanger Blades
Shaft
Hanger Hub
Thrust Washer
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Daniel 1500
January 2013
Materials of Construction
Standard Materials
Table 9A: Meter with Bladed Rotor (1" to 6")
Meter Body and Flanges
Universal Mounting Box (UMB)
Blades
1"
1.5" to 6"
Rotor Hub
1" to 6"
Shaft
1" to 2.5"
3" to 6"
Tolerance Rings (2.5"-24")
Bearing Set
Suspension
Cones
Carbon Steel
Aluminum 356-T6
Stainless Steel (304SS)
Aluminum 356-T6
Stainless Steel (316SS)
Aluminum 356-T6
430SS / 304SS
430SS
430SS / 304SS
430SS
NICKEL-200 / 316SS(1)
NICKEL-200(2)
430SS
430SS
316SS
316SS
17-4 PH SS HT(3)
K-MONEL
Tungsten Carbide
304SS
304SS
316SS
17-4 PH SS HT(3)
K-MONEL
Tungsten Carbide
304SS
304SS
316SS
17-4 PH SS HT(3)
K-MONEL
Tungsten Carbide
316SS
316SS
Table 9B: Meter with Rimmed Rotor (3" to 24")
Meter Body and Flanges
Universal Mounting Box (UMB)
Blades
Rotor Hub
Rotor Rim
3" and 4"
6" and 24"
Shaft
Tolerance Rings
Bearing Set
Suspension
Deflector Ring
Rim Buttons
Cones
Carbon Steel
Aluminum 356-T6
304SS
430SS
Stainless Steel (304SS)
Aluminum 356-T6
304SS
430SS
Stainless Steel (316SS)
Aluminum 356-T6
316SS
316SS
316SS
304SS
17-4 PH SS HT(3)
K-MONEL
Tungsten Carbide
304SS
304SS
Mu-Metal
304SS
316SS
304SS
17-4 PH SS HT(3)
K-MONEL
Tungsten Carbide
304SS
304SS
Mu-Metal
304SS
316SS
316SS
17-4 PH SS HT(3)
K-MONEL
Tungsten Carbide
316SS
316SS
Mu-Metal
316SS
Table 9C: Meter with Light Weight Rotor (3" to 12")
Meter Body and Flanges
Universal Mounting Box (UMB)
Blades
3" to 4" (Blade Type)
6" to 12" (Rim Type)
Rotor Hub
3"
4" to 12"
Shroud (6"-12")
Shaft
Tolerance Rings
Bearing Set
Suspension
Deflector Ring
Cones
Carbon Steel
Aluminum 356-T6
Stainless Steel (304SS)
Aluminum 356-T6
Stainless Steel (316SS)
Aluminum 356-T6
430SS
304SS
430SS
304SS
430SS
304SS
430SS
6061-T6 ALUM
430SS
17-4 PH SS HT(3)
K-MONEL
Tungsten Carbide
304SS
304SS
304SS
430SS
6061-T6 ALUM
430SS
17-4 PH SS HT(3)
K-MONEL
Tungsten Carbide
304SS
304SS
304SS
430SS
6061-T6 ALUM
430SS
17-4 PH SS HT(3)
K-MONEL
Tungsten Carbide
304SS
316SS
304SS
NOTE: Teflon Coated rotor available for Rim and Blade type.
(1) For full NACE MR0175:2002 compliancy, material will change to 430SS.
(2) Rim type rotor not recommended, use blade type rotor only.
(3) For full NACE MR0175:2002 compliancy, material will change to 316SS with hard chrome or optional full NACE MR175/ISO151: 2003.
6
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Liquid Turbine Flow Meter
Datasheet
NACE MR0175 2002-Compliant Materials
Table 9D: Meter with Bladed Rotor (1" to 6")
Meter Body /Flanges
Universal Mounting Box (UMB)
Blades
1"
1.5" to 6"
Rotor Hub
Shaft
1" to 2.5"
3" to 6"
Tolerance Rings (2.5"-24")
Bearing Set
Suspension
Cones
Carbon Steel
Aluminum 356-T6
Stainless Steel (304SS)
Aluminum 356-T6
Stainless Steel (316SS)
Aluminum 356-T6
430SS / 304SS
430SS
430SS
430SS / 304SS
430SS
430SS
 430SS / 316SS
430SS
316SS
316SS
316SS with Hard Chrome(2)
K-MONEL
Tungsten Carbide
304SS
304SS
316SS
316SS with Hard Chrome(2)
K-MONEL
Tungsten Carbide
304SS
304SS
316SS
316SS with Hard Chrome(2)
K-MONEL
Tungsten Carbide
316SS
316SS
Table 9E: Meter with Rimmed Rotor (3" to 24")
Meter Body and Flanges
Universal Mounting Box (UMB)
Blades
Rotor Hub
Rotor Rim
3" and 4"
6" and 24"
Shaft
Tolerance Rings
Bearing Set
Suspension
Deflector Ring
Rim Buttons
Cones
Carbon Steel
Aluminum 356-T6
304SS
430SS
Stainless Steel (304SS)
Aluminum 356-T6
304SS
430SS
Stainless Steel (316SS)
Aluminum 356-T6
316SS
316SS
316SS
304SS
17-4 PH SS HT(2)
K-MONEL
Tungsten Carbide
304SS
304SS
Mu-Metal
304SS
316SS
304SS
17-4 PH SS HT(2)
K-MONEL
Tungsten Carbide
304SS
304SS
Mu-Metal
304SS
316SS
316SS
17-4 PH SS HT(2)
K-MONEL
Tungsten Carbide
316SS
316SS
Mu-Metal
316SS
NOTE: Teflon coated rotor available for Rim and Blade type.
(2) For full NACE MR0175:2002 compliancy, material will change to 316SS with hard chrome or optional full NACE MR175/ISO151: 2003.
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Daniel 1500
January 2013
Weights and Dimensions
B
3”
(76.2 mm)
4 - 1/2”
(114 mm)
Minimum distance
requirements for service
C
(5D)
(10D)
UPSTREAM FLOW
STRAIGHTENER
(OPTIONAL)
DOWNSTREAM FLOW
STRAIGHTENER
(OPTIONAL)
D
A
E
F
Table 10: Daniel 1500 Liquid Turbine Flow Meter and Flow Straightening Sections
Sizes (Inches)
1
1.5
2
2.5
3
4
6
8
10
12
16
18
A
INCHES
8
9
9
10
10
12
14
16
20
24
32
36
B
A
Sizes
MM
INCHES
(Inches) Inches
mm
203
1
8 4
203
1.5
9 4.5 229
229
2
9
229
229
2.5
104.5 254
3
10 5
254
254
4
12
305
254
5
6
14
356
305
8
16 6
406
10
20 7
508
356
12
24
610
406
8
16
32
813
18
36 10 914
508
MM
Inches
B
C
INCHES
mm
C
MM
Inches
D
INCHES
mm
102 4
6.75
102
6 171
3/4
171
114
7 181
1/8
181
114 4.5
7.13
4.5
114
7 1/8
181
114 5
7.13
127
7 181
9/16
192
127
7 192
1/2
197
127 5
7.56
6
152
8 1/4
209
127
7.50
191
7
178
9 5/16
236
152 8
8.25
203
10 210
5/16
262
254
11237
3/8
289
178 10
9.31
12
305
12 3/8
314
203 16 10.31
262
406
14
356
457
15
254 18 11.38
289 381
please consult
610For certified
12 dimension
305prints, 12.38
314factory
813
16
406
14
356
914
18
457
15
381
Inches
N/A N/A
N/A N/A
21
21 25
25 30
40
30
60
40 80
60 100
120
80 160
100 180
120
160
180
D
MM
mm
N/A
N/A
N/A
N/A
533
533
533
762
635
1,016
762
1,524
1,016
2,032
2,540
1,524
3,048
2,032
4,064
4,572
2,540
3,048
4,064
4,572
E
E
INCHES
Inches
N/A
N/A
N/A
N/A
13
1513
1515
20
15
30
20
40
5030
60
8040
9050
MM
mm
Inches
N/A N/AN/A
N/A N/AN/A
330
43
330 330 46
381 381 55
508
72
381
762
104
1,016 508136
1,270 762170
1,524
204
2,0321,016
272
2,2861,270
306
60
80
90
F
F
INCHES
1,524
2,032
2,286
mm
N/A
N/A
N/A
N/A
1,092
43
1,168
1,397
50
1,829
55
2,642
72
3,454
4,318
104
5,182
136
6,909
7,772
170
204
272
306
MM
N/A
N/A
1,092
1,270
1,397
1,829
2,642
3,454
4,318
5,182
6,909
7,772
N/A = Not Applicable
Table 11: Approximate Shipping Weight
Sizes (Inches)
1
1.5
2
2.5
3
4
6
8
10
12
16
18
ANSI Class 150
lbs
11
18
20
29
32
46
77
121
207
321
730
1,093
kg
5.0
8.1
9.1
13.1
14.5
20.8
34.8
54.8
93.7
145
330
495
ANSI Class 300
lbs
13
21
22
35
42
68
112
180
280
433
836
1,160
kg
5.9
9.5
10.0
15.8
19.0
30.8
50.7
81.5
127
196
378
525
ANSI Class 600
lbs
15
24
26
40
46
87
169
275
460
590
1,260
1,660
kg
6.8
10.9
11.8
18.1
20.8
39.4
76.5
125
208
267
570
751
ANSI Class 900
lbs
29
45
66
88
88
135
265
426
658
896
CF
CF
ANSI Class 1500
kg
13.1
20.4
29.9
39.8
39.8
61.1
120
193
298
406
CF
CF
lbs
29
45
66
88
133
200
375
570
1,020
1,560
CF
CF
kg
13.1
20.4
29.9
39.8
60.2
90.5
170
258
462
706
CF
CF
CF = Consult Factory
For ANSI ratings not listed, please consult factory.
8
www.EmersonProcess.com
Liquid Turbine Flow Meter
Datasheet
Daniel 1500 Turbine Flow Meter Selection Matrix
T XX X
X
X
X X
X
X X X
X
X
X
Device
Series 1500
Other Documentation
T
Line Size / Standard Flow Range
A
None
C
Material Test Reports (DOC MTR)
E
1" DN25 (7-70 GPM, 10-100 BHP, 1.6-16 M³/H)
01
1.5" DN40 (15-150 GPM, 21-214 BHP, 3.4-34 M³/H)
15
2" DN50 (30-300 GPM, 43-429 BHP, 6.8-68 M³/H)
02
NACE with Material Test Report - Compliant
with MR0175 2002; Special Order for NACE
MR0175 /ISO 151 2003
2.5" DN65 (40-400GPM, 57-571 BHP, 9.1-91M³/H)
25
Approvals / Documentation
3" DN80 (70-700 GPM, 100-1000 BHP, 15.9-159 M³/H)
03
J
UL / CUL
4" DN100 (130-1295 GPM, 185-1850 BHP, 29.4-294 M³/H)
04
K
CE (Includes ATEX, PED or SEP and EMC )
6" DN150 (294-2940 GPM, 420-4200 BHP, 66.8-668 M³/H)
06
8" DN200 (595-5950 GPM, 850-8500 BHP, 135-1351 M³/H)
08
M
INMETRO
10" DN250 (840-8400 GPM, 1200-12000 BHP, 191-1908 M³/H)
10
12" DN300 (1260-12600 GPM, 1800-18000 BHP, 286-2862 M³/H)
12
16" DN400 (1960-19600 GPM, 2800-28000 BHP, 445-4452 M³/H)
18" DN450 (2800-28000 GPM, 4000-40000 BHP, 636-6359 M³/H)
Linearity
C
1" - 2.5" (+/- 0.25%), 3" - 18" (+/- 0.15%)
16
D
1" - 2.5" (+/- 0.15%), 3" - 18" (+/- 0.10%)
18
E
3" - 18" (+/- 0.07% with 5:1 Turndown)
Display Mounting
Pressure Rating / Flange Type
150# ANSI, RF (Sizes 1" - 18", 285 psi MWP, 125-250 AARH)
A
A
None
300# ANSI, RF (Sizes 1" - 18", 740 psi MWP, 125-250 AARH)
B
B
Integral
C
Remote
600# ANSI, RF (Sizes 1" - 18", 1480 psi MWP, 125-250 AARH)
C
900# DANIEL, RTJ (Sizes 1" - 4", 2220 psi MWP)
G
1500# DANIEL, RTJ (Sizes 1" - 2.5", 3705 psi MWP)
H
2500# DANIEL, RTJ (Sizes 1" - 2.5", 6170 psi MWP)
J
Display
Design Style / Enclosure Style
1 Aluminum UMB (Sizes 1" - 18")
D
2 Aluminum UMBs (Sizes 3" - 18")
Z
None
D
MRT-97 Electronic Register
Materials of Construction
Body / Flange / Internals
Meter Output / Temperature Range
1
Standard Temperature Options (-29°C to 82°C)
1 Pick-Off, 1 Dual Channel Preamp
A
A
2 Pick-Offs (90° Out of Phase), 2 Dual Channel Preamps
B
2 Pick-Offs (90° Out of Phase), 1 Dual Channel Preamp
C
1 Pick-Off Only
D
2 Pick-Offs Only (90° Out of Phase)
E
4 Pick-Offs (Each Pair 90° Out of Phase), 2 Dual Channel Preamps
L
304 SS / 304 SS / 304 SS
2
CS / CS / 304 SS
4
316 SS / 316 SS / 316 SS
5
CS / CS / 316 SS
Flow Direction / Flow Conditioning
A
Horizontal, No Flow Conditioning Plate
B
Vertical, No Flow Conditioning Plate
C
Horizontal, Flow Conditioning Plate (Aluminum, Sizes 3" - 8" Only)
F
D
Vertical, Flow Conditioning Plate (Aluminum, Sizes 3" - 8" Only)
2 Pick-Offs (90° Out of Phase), 2 Dual Channel Preamps
G
E
Horizontal, Bi-Directional, No Flow Conditioning Plate
2 Pick-Offs (90° Out of Phase), 1 Dual Channel Preamp
H
1 Pick-Off Only
J
High Temperature Options (-29°C to 204°C)
1 Pick-Off, 1 Dual Channel Preamp
2 Pick-Offs (90° Out of Phase), 1 Terminal Block
K
2 Pick-Offs (90° Out of Phase), 2 Terminal Blocks, RMB with Dual Channel Preamp
M
1 Pick-Off, 1 Terminal Block, RMB with Dual Channel Preamp
N
Rotor Type
Metrology Approvals
Unspecified
OIML (Sizes 3" - 16")
1
5
A
Blade-Type Rotor, Uni-Directional, Sizes 1" - 6"
F
Teflon Coated Blade-Type Rotor, Uni-Directional, Sizes 1" - 6"
B
Blade-Type Rotor, Bi-Directional, Sizes 1" - 6"
G
Teflon Coated Blade-Type Rotor, Bi-Directional, Sizes 1" - 6"
C
Rim-Type Rotor, Uni-Directional, Sizes 3" - 18"
H
Teflon Coated Rim-Type Rotor, Uni-Directional, Sizes 3" - 16"
D
Rim-Type Rotor, Bii-Directional, Sizes 3" - 18"
J
Teflon Coated Rim-Type Rotor, Bi-Directional, Sizes 3" - 16"
M
Light Product Rotor, Uni-Directional, Sizes 3" - 12"
This is for informational purposes only. Not every option is listed and some options are contingent on others. Please consult factory for
assistance designing your optimal meter.
www.EmersonProcess.com
9
Emerson Process Management
Daniel Measurement and Control, Inc.
North America / Latin America:
Headquarters
USA - Houston, Texas
T +1.713.467.6000
USA Toll Free 1.888.FLOW.001
Europe: Stirling, Scotland, UK
T +44.1786.433400
Middle East, Africa: Dubai, UAE
T +971.4.811.8100
Asia Pacific: Singapore
T +65.6777.8211
www.Daniel.com
©2013 Daniel Measurement and Control, Inc. All Rights Reserved. Unauthorized duplication in
whole or in part is prohibited. Printed in the USA. DAN-LIQ-DS-1500TM-0113
Daniel Measurement and Control, Inc. (“Daniel”) is an Emerson Process Management business
unit. The Daniel name and logo are trademarks of Daniel Industries, Inc. The Emerson logo is a
trademark and service mark of Emerson Electric Co. All other trademarks are the property of their
respective companies.
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