Coriolis Mass Flow Meter
P Series
High Precision Coriolis Mass Flow Meter
Component Parts of P Series Coriolis Mass Flow Meter P Series Coriolis Mass Flow Meter is defined as P Series Mass Flow Meter with Flow Accuracy Rate of 0.1,
consisting of "P Series Mass Flow Sensor" and "DPT Transmitter"
Features and Benefits of P Series Coriolis Mass Flow Meter - Double U or Double C Measuring Tube Design
- Gas Measurement Available
- Easy Installation, no need rectifier, filter parts, no special requirements for installing direct pipe section.
- High Stability, no need deploying frequent disassemble calibration
- Allow Low-Range Run, reducing pressure loss and energy consumption & waste
- Integrated Installation saving installation cost
- High Stability, expert in "Custody Transfer / Fiscal Metering of Oil & Gas"
Selection Principle
- In the application of Coriolis Mass Flow Meter, the Max. Flow is decided by "Pressure Loss", while the Min. Flow
by "Measurement Accuracy".
- When selecting the instrumentation, please refer to this manual, and please provide data associated to the
application such as accuracy requirement, flow range, pressure loss, density, viscosity, which ensures the
correct selection and application.
Xi’an Tosilon Automation Co., Ltd
No.299, Daqing Rd, Lianhu District, Xi'an Shaanxi, China
Tel: +86-29-8823 8550
[email protected]; www.tosilon.com
Liquid Flow Rate Performance Index
Performance Index
Max. Mass Flow Rate Sensor Type Mass Flow (kg/h) Volumetric Flow[1] (l/h)
P10 1,000 1,000
P15 3,000 3,000
P20 6,300 6,300
P25 17,000 17,000
P50 63,000 63,000
P80 160,000 160,000
P100 360,000 360,000
P150 550,000 550,000
P200 1,100,000 1,100,000
P250 1,800,000 1,800,000
Mass Flow Accuracy[2] 15:1, Within Measure Ratio[3] ±0.1%
15:1, Beyond Measure Ratio ± (Zero Stability / Instant Flow Rate) x 100%
Volume Flow Accuracy[2] Whole Measure Range ±0.15± (Zero Stability / Instant Flow Rate) x 100%
Repeatability 15:1, Within Measure Ratio ±0.05%
15:1, Beyond Measure Ratio ±1/2 (Zero Stability / Instant Flow Rate) x 100%
Zero Stability Sensor Type kg/h
P10 0.10
P15 0.30
P20 0.63
P25 1.70
P50 6.30
P80 16.0
P100 36.0
P150 55.0
P200 110.0
P250 180.0
[1]. The criterion of volume flow is as per density 1000kg/m3. Regarding to the process liquid density isn't 1000kg/m3,
the value of volume flow is value of maximum mass flow divided by liquid density.
[2]. Flow Accuracy includes repeatability, linearity and comprehensive effect of delay.
[3]. Measure Ratio is defined as the value of maximum flow divided by minimum flow.
Typical Accuracy, Measure Ratio and Pressure Drop of P50 matched DPT100 Transmitter
Gas Measurement Performance
Performance Index
Measure Ratio(from the maximum flow) 20:1 15:1 5:1 1.5:1 1:1
Accuracy ±% 0.14 0.1 0.1 0.1 0.1
Pressure Drop MPa 0.001 0.002 0.02 0.1 0.23
Remark:
When the maximum flow rate exceeds the given flow rate range, the noise from the pipe will affect the accuracy.
Mass Flow Accuracy flow rate>zero stability/0.005 ± 0.5%
flow rate<zero stability/0.005 ± (Zero Stability/Instant Flow Rate)×100%
Mass Flow Repeatability flow rate>zero stability/0.005 ± 0.25%
flow rate<zero stability/0.005 ± 1/2(Zero Stability/Instant Flow Rate)×100%
· Standard Volume
In most application areas, customers are used to use standard volume-determining the volume under pressure and
temperature, standard volume also called as “standard quality” flow unit to the fixed component liquid. Applied to the density
under standard condition (receiving from reference data), flow meter would be output under the configuration of standard
volume unit, which means that could be calculated between measured liquid quality and entrained liquid standard density,
but no need the compensation of pressure, temperature and density.
· Pressure Loss
Loss of pressure is affected by the sensor geometric form, gas density and flow rate. While customers are suggested that the
sensor loss of pressure couldn't surpass 0.127Mpa when design type selection.
· Flow Rate
The flow rate of gas measure is much greater than the flow rate of liquid measure, the higher flow rate leads to the noise will
affect the signal of flow meter. So the flow rate within sensor pipe should be lower 0.5 time than sounds rate when the loss of
pressure of flow meter under 0.127Mpa.
Accuracy and Loss of Pressure Data Samples of P50 Type Flow Meter
Measure Different Medium Under Different Pressure
Density Performance Index (only liquid)
[1]: Flow Accuracy includes repeatability, linearity and comprehensive effect of delay, density accuracy index of ± 1 kg/m3
is calculated under the condition of 20 Deg. C and 1-2 bar water.
Performance Index
Accuracy [1] ± 0.001 g/cc ± 1.0 kg/m3
Repeatability ± 0.0005 g/cc ± 0.5 kg/m3
Measuring Range 0.2 – 3.0 g/cc 200 – 3000 kg/m3
Temperature Performance Index
· The Temperature must be heated to the local ambient temperature between -40 to 55 Deg. C (such as using steam tracing
way) when the temperature below -40 Deg. C.
Power Supply & Power Consumption
Note: The DC Starting Current of Flow Meter is Less Than 1A (Without Power Amplifier).
Performance Index
Accuracy All Types ± 0.5 Deg. C
Repeatability All Types ± 0.2 Deg. C
Temperature Limits [2] All Types match all Devices Electronics Options
[2]. Temperature Limits maybe need explosion Protection for further limit because installation in hazardous area, reference
page9.
Temperature Range Measured (Deg. C) -50 – 350 (PT100)
Liquid Temperature Measured (Deg. C) Integrated Installation -40 – 125
Divided Installation -40 – 350
Ambient Temperature (Deg. C) Storage -40 – 70
Application -40 – 55
Match DPT100 Maximum 10W
For sensor P100 P150 P200 P250, the power amplifiers should be provided with extra power supply.
220VAC (or 24VDC) power supply Maximum 30W (20W)
Process Temperature Influence
Pressure Influence
Environmental Influence
Process Temperature Influence (Process Temperature Influence is defined as below)
· Regarding to Mass Flow Measurement, Process Temperature Influence is the maximum zero variation which is caused by
the Process temperature depar tures zero coordinate temperature.
· Regarding to Density Measurement, Process Temperature Influence is the maximum measure variation which is caused by
the Process temperature departures density calibrated temperature.
Maximum Accuracy
Process Temperature Influence
Sensor Type %Maximum Flow Rate Value/ oC Density Accuracy/
oC (kg/m)
P10 ± 0.000125 ± 0.015
P15 ± 0.000125 ± 0.015
P20 ± 0.000125 ± 0.015
P25 ± 0.000125 ± 0.015
P50 ± 0.0005 ± 0.015
P80 ± 0.0005 ± 0.015
P100 ± 0.00075 ± 0.015
P150 ± 0.00025 ± 0.015
P200 ± 0.00025 ± 0.015
P250 ± 0.00025 ± 0.015
Pressure Influence Pressure Influence is defined as
The variation of sensor flow and density is caused by process liquid departures calibrated pressure.
Pressure Influence can be modified.
Sensor Type Flow Accuracy Influenced by Pressure
[1]
%Flow Value / MPa
Density Accuracy Influenced by Pressure[1]
kg/m3 / MPa
P10 - -
P15 - +0.58
P20 - -0.29
P25 -0.03 -0.87
P50 -0.01 +0.145
P80 -0.25 +0.029
P100 -0.58 -1.45
P150 -0.35 -0.41
P200 -0.20 -0.37
P250 -0.14 -0.21
The Data is achieved from pressure influence of flow rate, the specific value is as per the value of sensor nameplate.
The maximum calibrated pressure we apply in our factory is 0.4MPa.
Pressure Rating
The pressure (the unlisted temperature can be calculated by the linear insert method) should be lowered
down as per the follow terms if operating temperature surpass 148 Deg. C:
Vibration Limits In accordance with GB/T2423.11 to bear 50 periods at the condition of a=1g (g=9.8m2/s), (20-500) Hz Frequency-scanned.
Suggested to apply divided installation if the application area vibration surpass a=0.5g
Safety & Protection Tested and issued certification by National Explosive-proof Electrical Products Quality Supervising and Testing Center
Explosion-proof Mark: P10 ~ P80 Ex ib IIC T3-T6
P100~P250 Ex d ib IIC T6 Gb
Explosion-proof Certification No.: P10~P80 CNEx 10.0468
P100~P250 CNEx 12.2660
Protection Class: IP67 (Sensor)
Usage Limits
Flow Tube Pressure Rating Sensor Type Standard Pressure-Proof
MPa
Max. Pressure-Proof
MPa
P10 4 6.3
P15 4 6.3
P20 4 6.3
P25 4 6.3
P50 4 6.3
P80 4 6.3
P100 4 6.3
P150 4 6.3
P200 4 6.3
P250 4 6.3
Measuring Tube
316L Sensor 304 Sensor
Less than 148 No need No need
To 204 oC Lower down 7.2% Lower down 5.4%
To 260 oC Lower down 13.8% Lower down 11.4%
To 316 oC Lower down 19.2% Lower down 16.2%
To 343 oC Lower down 21.0% Lower down 18.0%
To 371 oC Lower down 22.8% Lower down 19.2%
“T” group refers to the maximum surface temperature of the sensor at the working temperature of 55 Deg. C
Explosion-proof performance is accordance with GB3836.1-2010, GB3836.3-2010, GB3836.4-2010
Applications: T1~T6 group explosive dangerous location 1 zone and 2 zone, device class llC, downward compatibility llA, IIB
The ex-proof performance will not be affected by the installation of sensor and transmitter(separated or integrated).
Usage Limits
Structure Material Wetted Part Measuring Tube 00Cr17Ni14Mo2 (316L)
Separated Liquid 0Cr18Ni9 (304) or 00Cr17Ni14Mo2 (316L)
Flange 0Cr18Ni9 (304) or 00Cr17Ni14Mo2 (316L)
Cover Sensor 0Cr18Ni9 (304)
Transmitter Casted aluminum alloy(coated polyester epoxy)
Junction Box Casted aluminum alloy(coated polyester epoxy)
Weight Weight Supplied: GB / T9115.1 – 2000
The weight of Steel pipe welding neck flanges with male and female face flow meter for PN 40. All weights as per (kg) for
counts.
Sensor Type Integrated Installation (kg) Divided Installation (kg)
P10 9.5 6.5
P15 10.5 7.5
P20 14.0 11.0
P25 24.0 21.5
P50 50.0 46.0
P80 89.0
P100 - 208.0
P150 - 248.0
P200 - 365.0
P250 - 580.0
Structure Parameter
Dimension
P10 Integrated Installation
Note: listed flanges in the above form are steel pipe welding neck flanges with male and female face
Structure Parameter
Flange (GB/T9115.1-2000)
A B L C H E M I D F Flange (HG/T20592-2009)
DN (mm) PN (MPa)
15 4.0 162 320 170 223 436 76 14 65 95 180
Flange (HG/T20615-2009)
A B L C H E M I D F Flange (ASME B16.5)
DN (mm) PN (Class)
15 300 190 320 170 223 436 76 16 66.5 95 180
P10 Divided Installation
Note: listed flanges in the above form are steel pipe welding neck flanges with male and female face.
Structure Parameter
Flange (GB/T9115.1-2000)
A B L C H E M I D Flange (HG/T20592-2009)
DN (mm) PN (MPa)
15 4.0 162 320 170 223 357 76 14 65 95
Flange (HG/T20615-2009)
A B L C H E M I D Flange (ASME B16.5)
DN (mm) PN (Class)
15 300 190 320 170 223 357 76 16 66.5 95
P15 Integrated Installation
Note: listed flanges in the above form are steel pipe welding neck flanges with male and female face
Structure Parameter
Flange (GB/T9115.1-2000)
A B L C H E M I D F Flange (HG/T20592-2009)
DN (mm) PN (MPa)
15 4.0 162 370 190 250 458 94 14 65 95 180
Flange (HG/T20615-2009)
A B L C H E M I D F Flange (ASME B16.5)
DN (mm) PN (Class)
15 300 190 370 190 250 458 94 16 66.5 95 180
P15 Divided Installation
Note: listed flanges in the above form are steel pipe welding neck flanges with male and female face.
Structure Parameter
Flange (GB/T9115.1-2000)
A B L C H E M I D Flange (HG/T20592-2009)
DN (mm) PN (MPa)
15 4.0 162 370 190 250 379 94 14 65 95
Flange (HG/T20615-2009)
A B L C H E M I D Flange (ASME B16.5)
DN (mm) PN (Class)
15 300 190 370 190 250 379 94 16 66.5 95
P20 Integrated Installation
Note: listed flanges in the above form are steel pipe welding neck flanges with male and female face
Structure Parameter
Flange (GB/T9115.1-2000)
A B L C H E M I D F Flange (HG/T20592-2009)
DN (mm) PN (MPa)
25 4.0 202 480 265 337 540 114 14 85 115 180
Flange (HG/T20615-2009)
A B L C H E M I D F Flange (ASME B16.5)
DN (mm) PN (Class)
25 300 246 480 265 337 540 114 18 89 125 180
P20 Divided Installation
Note: listed flanges in the above form are steel pipe welding neck flanges with male and female face.
Structure Parameter
Flange (GB/T9115.1-2000)
A B L C H E M I D Flange (HG/T20592-2009)
DN (mm) PN (MPa)
25 4.0 202 480 265 337 460 114 14 85 115
Flange (HG/T20615-2009)
A B L C H E M I D Flange (ASME B16.5)
DN (mm) PN (Class)
25 300 246 480 265 337 460 114 18 89 125
P25 Integrated Installation
Note: listed flanges in the above form are steel pipe welding neck flanges with male and female face
Structure Parameter
Flange (GB/T9115.1-2000)
A B L C H E M I D F Flange (HG/T20592-2009)
DN (mm) PN (MPa)
40 4.0 274 615 295 383 563 146 18 110 150 180
Flange (HG/T20615-2009)
A B L C H E M I D F Flange (ASME B16.5)
DN (mm) PN (Class)
40 300 320 615 295 383 563 146 22 114.5 155 180
P25 Divided Installation
Note: listed flanges in the above form are steel pipe welding neck flanges with male and female face.
Structure Parameter
Flange (GB/T9115.1-2000)
A B L C H E M I D Flange (HG/T20592-2009)
DN (mm) PN (MPa)
40 4.0 274 615 295 383 513 146 18 110 150
Flange (HG/T20615-2009)
A B L C H E M I D Flange (ASME B16.5)
DN (mm) PN (Class)
40 300 320 615 295 383 513 146 22 114.5 155
P50 Integrated Installation
Note: listed flanges in the above form are steel pipe welding neck flanges with male and female face
Structure Parameter
Flange (GB/T9115.1-2000)
A B L C H E M I D F Flange (HG/T20592-2009)
DN (mm) PN (MPa)
50 (Standard) 4.0 562 460 595 702 930 201 18 125 165 180
65 (Option) 4.0 570 460 595 702 903 201 18 145 185 180
Flange (HG/T20615-2009)
A B L C H E M I D F Flange (ASME B16.5)
DN (mm) PN (Class)
50 (Standard) 300 606 460 595 702 930 201 18 127 165 180
65 (Option) 300 620 460 595 702 930 201 22 149 190 180
P50 Divided Installation
Note: listed flanges in the above form are steel pipe welding neck flanges with male and female face
Structure Parameter
Flange (GB/T9115.1-2000)
A B L C H E M I D Flange (HG/T20592-2009)
DN (mm) PN (MPa)
50 (Standard) 4.0 562 460 595 702 847 201 18 125 165
65 (Option) 4.0 570 460 595 702 903 201 18 145 185
Flange (HG/T20615-2009)
A B L C H E M I D Flange (ASME B16.5)
DN (mm) PN (Class)
50 (Standard) 300 606 460 595 702 847 201 18 127 165
65 (Option) 300 620 460 595 702 847 201 22 149 190
P80 Mass Flow Sensor
Note: listed flanges in the above form are steel pipe welding neck flanges with male and female face
Structure Parameter
Flange (GB/T9115.1-2000)
A B C D E F H I M Flange (HG/T20592-2009)
DN (mm) PN (MPa)
80 (Standard) 4.0 850 774 937 200 214 277 310 160 18
100 (Option) 4.0 864 774 937 235 214 277 310 190 22
Flange (HG/T20615-2009)
A B C D E F H I M Flange (ASME B16.5)
DN (mm) PN (Class)
80 (Standard) 300 892 774 937 210 214 277 310 168.5 22
100 (Option) 300 904 774 937 255 214 277 310 200 22
P100 Mass Flow Sensor
Note: listed flanges in the above form are steel pipe welding neck flanges with male and female face
Structure Parameter
Flange (GB/T9115.1-2000)
A B C D E H I M n Flange (HG/T20592-2009)
DN (mm) PN (MPa)
100 (Standard) 4.0 890 824 1135 235 264 285 190 22 8
150 (Option) 4.0 910 824 1135 300 264 285 250 26 8
Flange (HG/T20615-2009)
A B C D E H I M n Flange (ASME B16.5)
DN (mm) PN (Class)
100 (Standard) 300 932 824 1135 255 264 285 200 22 8
150 (Option) 300 956 824 1135 320 264 285 270 22 12
P150 Mass Flow Sensor
Note: listed flanges in the above form are steel pipe welding neck flanges with male and female face
Structure Parameter
Flange (GB/T9115.1-2000)
A B C D E H I M n Flange (HG/T20592-2009)
DN (mm) PN (MPa)
150 (Standard) 4.0 1090 950 1050 300 290 285 250 26 8
200 (Option) 4.0 1116 950 1050 375 290 285 320 30 12
Flange (HG/T20615-2009)
A B C D E H I M n Flange (ASME B16.5)
DN (mm) PN (Class)
150 (Standard) 300 1136 950 1050 320 290 285 270 22 12
200 (Option) 300 1162 950 1050 380 290 285 330 26 12
P200 Mass Flow Sensor
Note: listed flanges in the above form are steel pipe welding neck flanges with male and female face
Structure Parameter
Flange (GB/T9115.1-2000)
A B C E F H M I D n Flange (HG/T20592-2009)
DN (mm) PN (MPa)
200 (Standard) 4.0 1211 1005 1415 380 290 285 30 320 375 12
250 (Option) 4.0 1245 1005 1415 380 290 285 33 385 450 12
Flange (HG/T20615-2009)
A B C E F H M I D n Flange (ASME B16.5)
DN (mm) PN (Class)
200 (Standard) 300 1257 1005 1415 380 290 285 26 330 380 12
250 (Option) 300 1269 1005 1415 380 290 285 29.5 387.5 445 16
P250 Mass Flow Sensor
Note: listed flanges in the above form are steel pipe welding neck flanges with male and female face
Structure Parameter
Flange (GB/T9115.1-2000)
A B C E F H M I D n Flange (HG/T20592-2009)
DN (mm) PN (MPa)
250 (Standard) 4.0 1370 1120 1690 450 320 328 33 385 450 12
300 (Option) 4.0 1390 1120 1690 450 320 328 33 450 515 16
Flange (HG/T20615-2009)
A B C E F H M I D n Flange (ASME B16.5)
DN (mm) PN (Class)
250 (Standard) 300 1394 1120 1690 450 320 328 29.5 387.5 445 16
300 (Option) 300 1420 1120 1690 450 320 328 32.5 451 520 16
Note:
For P100, P150, P200, P250, the ambient temperature of the power amplifiers is -20 ~ 55 (Deg. C), it is not
allowed to cover or wrap, nor apply heat tracing to the power amplifiers in the process of heat tracing,
otherwise the interior components will be damaged.
Structure Parameter
Item Code Description
Instrumentation Series P Precise Coriolis Mass Flow Meter
Sensor Type
10 1,000 kg/h
15 3,000 kg/h
20 6,300 kg/h
25 17,000 kg/h
50 63,000 kg/h
80 160,000 kg/h
100 360,000 kg/h
150 550,000 kg/h
200 1,100,000 kg/h
250 1,800,000 kg/h
Transmitter Type
W000 None
D100 DPT100 [Accuracy 0.1,Chinese interface,IP65,Exde[ib]IICT6,Divided installation]
D101 DPT100 [Accuracy 0.1,Chinese interface,IP65,Exde[ib]IICT6,Integrated installation]
D102 DPT100 [Accuracy 0.1,English interface,IP65,Exde[ib]IICT6,Divided installation]
D103 DPT100 [Accuracy 0.1,English interface,IP65,Exde[ib]IICT6,Integrated installation]
D104 DPT100 [Accuracy 0.1,Russian interface,IP65,Exde[ib]IICT6,Divided installation]
D105 DPT100 [Accuracy 0.1,Russian interface,IP65,Exde[ib]IICT6,Integrated installation]
Sensor Type
B 316L & 304 Stainless Steel, Temperature-Resistance 250 oC
C 316L Stainless Steel, Temperature-Resistance 350 oC
R 316L Stainless Steel, Steam Heat Tracking Type
D 316L & 304 Stainless Steel, Electric Heating Tracing
L 316L Stainless Steel
H Hastelloy C22
T Special Requirement
Power Supply
0 None
1 18 VDC – 36 VDC
2 85 VAC – 265 VAC
3 Smart Power
4 Sensor 220 VAC; Transmitter 24 VDC
Process Connection
Type
A GB/T9115.1-2000 RF; Welding Neck Flange 4 MPa RF
C GB/T9115.1-2000 RF; Welding Neck Flange 6.3 MPa RF
E HG/T20615-2009 RF; Welding Neck Flange Class300 WN-RF
F ASME B16.5-1988 RF; Welding Neck Flange Class150 WN-RF
G ASME B16.5-1988 RF; Welding Neck Flange Class300 WN-RF
I HG/T20592-2009 RF; Welding Neck Flange 4 MPa WN-RF
T Special Request
Process Connection
Dimension
B DN 15
D DN 25
F DN 40
G DN 50
H DN 65
I DN 80
J DN 100
Order Guide
L DN 150
M DN 200
N DN 250
O DN 300
T As Requests
Accessory
0 None
1 10m Cable
2 Carbon steel flange, bolt and nut, Metal gasket, 10m Cable
3 Stainless steel flange, bolt and nut, Metal gasket, 10m Cable
4 Carbon steel flange, bolt and nut, Metal gasket
5 Stainless steel flange, bolt and nut, Metal gasket
9 As requests
Electrical Connection
W None
M M20
N 1/2 NPT
P 3/4 NPT
G G 1/2
E G 3/4
T As request
Communication & Data
Collection Methods
0 None
1 Active circulation (4~20mA), Active frequency (0~10KHz), RS-485
2 Active circulation (4~20mA), RS-485
3 Active frequency (0~10KHz), RS-485
4 Passive frequency (0~10KHz), RS-485
5 Active circulation (4~20mA), Active frequency (0~10KHz), Passive HART
6 Active circulation (4~20mA), Active frequency (0~10KHz), Active HART
7 Passive frequency (0~10KHz), Active HART
9 As request
Measurement Mode
G Custody Transfer / Fiscal Metering Type
B Standard Measurement Type
D Gas Measurement Type (Accuracy 0.35)
Z Undefined