daniel seniorsonic gusm (latest 2007)

Product DatasheetDAN-USM-FAMILY-DS-1007October 2007

www.daniel.com

Gas Ultrasonic Flow Meters

Daniel SeniorSonic and JuniorSonic Gas Flow Meters with Mark III Electronics


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Daniel SeniorSonic and JuniorSonic Gas Flow Meters with Mark III Electronics

SeniorSonic Gas Flow Meterwith Mark III Electronics

The Daniel SeniorSonic Gas Flow Meter is designed for natural gas custody transfer where high accuracy and long-term, reliable performance is critical. It utilizes Mark III Electronics, Customer Ultrasonic Interface (CUI) software, and optional features for exceptional flow measurement. This advanced 4-path chordal meter helps customers reduce lost and unaccounted natural gas with exceptional accuracy and linearity throughout the flow range.

The Daniel JuniorSonic Gas Flow Meter also utilizes Mark III Electronics, the same Customer Ultrasonic Interface (CUI) software, and supports the same optional features as the SeniorSonic meter. Its bounce design was developed for accurate flow measurement of non-custody transfer applications such as production measurement, gas storage, and wet gas applications.

Both meters measure transit times of ultrasonic pulses passing through the gas. The difference in transit times of the downstream and the upstream directed pulses is measured. The SeniorSonic flow meter measures transit times on four, carefully chosen, parallel chords. The JuniorSonic flow meter measures flow by bouncing a signal across the meter in one and two path meter designs. Each path is comprised of ultrasonic transducers that act alternately as transmitter and receiver. Upstream and downstream measurement times are accurately measured, and the difference is directly proportional to the velocity and volume of flowing natural gas.

Features and Benefits SeniorSonic four-path chordal design allows accuracy,

stability, redundancy, and operational cost savings JuniorSonic one-path or two-path, single bounce

designs provide a lower cost solution for production measurement, gas storage, and wet gas applications where fiscal measurement is not required, the two-path design provides redundancy for more critical applications

Excellent long-term performance reduces maintenance costs

High rangeability of >100:1 means fewer meter runs, smaller line sizes, and lower capital costs

Customer Ultrasonic Interface (CUI) software offers easy-to-use and learn Windows based meter interface, reduces time to commission a new meter,

and simplifies routine maintenance Mark III Electronics provides fast sampling and output,

an expandable electronics platform, ease-of-use, and an optional archive data log* which enables the reading of audit, alarm, system, hourly, and daily log information

The addition of either the Series 100 Options Board or Series 100 Plus Board provides a direct input of pressure, temperature, and gas composition into the meter which allows the meter to act as a redundant flow computer; it calculates corrected volume rates, mass rates, energy rates, and AGA 10 speed of sound*

Machined, cast body construction for the SeniorSonic is virtually insensitive to measurement uncertainty caused by changes in pressure

Extractable transducers for ease of inspection The Series 100 Plus Board allows the meter to

communicate directly with a digital plant architecture via the HART protocol, such as PlantWeb, or a 375 Field Communicator. *Optional (requires software key)

Typical Applications Custody transfer Production Power plants Underground storage sites Large industrial users Offshore City gates


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SPECIFICATIONSPlease consult the factory if your requirements are outside the specifications noted here. Improved performance and other product and material offerings may be available depending on the application.

SeniorSonic Meter Performance Four-path (Eight Transducer) chordal design Flow calibrated accuracy is 0.1% of reading relative

to lab over entire flow calibration range (Qmin-Qmax) Absolute accuracy is 0.3% including lab uncertainty Repeatability is 0.05% of reading for 5 to 100 fps Velocity rated up to 100 fps (30 m/s) with over-range

performance exceeding 125 fps (38 m/s) on some sizes. Meter meets or exceeds AGA 9 performance

specifications

JuniorSonic Meter Performance One or Two-path bounce design Flow calibrated accuracy is 0.5% of reading relative

to lab* Absolute accuracy is typically 1.5% of actual volume

flow* (without flow calibration) Repeatability is 0.1% of reading for 5 to 100 fps Velocity rated up to 100 fps (30 m/s)

*Does not take into consideration changes in wall roughness and installation effects

Mechanical Ratings Line Sizes: 4 to 42 inches

4" and 6" are 45 dual X orientation 8" and larger are 60 BG orientation Gas temperature: -4 to +212F (-20 to +100C) Operating pressure range: 100 to 4000 psig (689 to

27,579 kPa)* SeniorSonic: 100 to 4000 psig (689 to

27,579 kPa)* JuniorSonic: 150 to 4000 psig (1034 to

27,579 kPa) *See Tables 1A and 1B; Consult factory for lower and higher

pressure applications

Flanges: Raised face and ring joint flange type for 300 to 2500 ANSI classes

Operating temperature: -40 to +149F (-40 to +65C) Operating relative humidity: up to 95% non-

condensing Storage temperature: -40 to +185F (-40 to +85C)

with a low temperature storage limit of -20C for transducers

PerformanceElectronics Power: 12/24/(11-36) VDC

8 watts typical 15 watts maximum Communication protocol: Modbus RTU/ASCII and

TCP/IP (API) Calculation update time: Configurable for of a

second and 1 second Calibration method: Piecewise linearization (meter

factor per datapoint)

JuniorSonic Gas Flow MeterWith Mark III Electronics

4" to 24" 30" 36"

qmin(ft/s) 2 2 2

qt (ft/s) 10 8.5 7.5

qmax (ft/s) 100 85 75


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Maximum Pressure Rating - psiMeter Size

(in) ANSI Carbon Steel 316 SS 316L SS Duplex Stainless Steel4 to 42 300 750 720 720 750

600 1,500 1,440 1,440 1,500900 2,250 2,160 2,160 2,250

1,500 3,750 3,600 3,600 3,7502,500 6,250 6,000 6,000 6,250

Maximum Pressure Rating - barMeter Size

(DN) PN Carbon Steel 316 SS 316L SS Duplex Stainless Steel100 to 1050 50 51.7 49.6 49.6 51.7

100 103.4 99.3 99.3 103.4150 155.1 148.9 148.9 155.1

1500 258.6 248.2 248.2 258.62500 430.9 413.7 413.7 430.9

Note: Pressure rating information is for -20 F to 100 F. Other temperatures may reduce the maximum pressure rating of the materials.

Note: Pressure rating information is for -29C to 38C. Other temperatures may reduce the maximum pressure rating of the materials.

Table 1A: SeniorSonic Body and Flange Pressure Ratings - English Units

SeniorSonic Materials of ConstructionPlease consult the factory for other material offerings.

Body and Flange Material ASTM A352 Gr LCC Carbon Steel (Standard)

ASTM A351 Gr CF8M 316 SS (Optional) ASTM A351 Gr CF3M 316L SS (Optional) ASTM A995 Grade 4A Duplex SS (Optional)

Transducer Holder: 316L SS Transducer Mount: A564 Grade 630 SS Transducer Cable Material: (for local and remote

mounting) TPE Jacket, Tinned Copper Braided Armor,

Aluminum Foil Shield, 20 Gauge Twisted Pair Transducer Cable Gland Material:

Chloroprene/Nitrile Rubber Electronic Housing Material:

ASTM B26 grade A356.0 T6 Aluminum

Paint Specifications Meter Body Paint Specification:

Carbon Steel Body Material: 2 Coat Paint Inorganic Zinc primer and

Acrylic Lacquer Top Coat (Standard) 3 Coat Epoxy: Inorganic Zinc primer,

Epoxy Midcoat, and Polyurethane Top Coat (Optional) Stainless Steel or Duplex Body Material: Unpainted

Electronic Housing: Powder Coat

Table 1B: SeniorSonic Body and Flange Pressure Ratings - Metric Units


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Nominal Meter Size

SeniorSonic Maximum Velocity Rating between 50 and 100 psig (ft/s)

Capacity between 50 and

100 psig (ACFH)a

SeniorSonic Maximum Velocity Rating between

100 and 4000 psig (ft/s)

Capacity at Max Rated

Velocity (ACFH)a

4 50 15,925 100 31,850

6 50 36,125 100 72,250

8 50 62,550 100 125,100

10 50 98,575 100 197,150

12 50 139,925 100 279,850

16 50 220,900 100 441,800

18 50 279,625 100 559,250

20 50 345,150 100 690,300

24 50 502,525 100 1,005,050

30 45b 756,000 85b 1,427,950

36 40b 934,850 75b 1,752,800

Nominal Meter Size

SeniorSonic Maximum Velocity Rating between 50 and 100 psig

(m/s)

Capacity between 59 and

100 psig (ACMH)a

SeniorSonic Maximum Velocity Rating between

100 and 4000 psig (m/s)

Capacity at Max Rated

Velocity (ACMH)a

100 15.2 451 30.5 902

150 15.2 1,023 30.5 2,046

200 15.2 1,771 30.5 3,542

250 15.2 2,791 30.5 5,583

300 15.2 3,962 30.5 7,924

400 15.2 6,255 30.5 12,510

450 15.2 7,918 30.5 15,836

500 15.2 9,774 30.5 19,547

600 15.2 14,230 30.5 28,460

750 13.7b 21,408 25.9b 40,435

900 12.2b 26,472 22.9b 49,634

Table 2A: SeniorSonic Recommended Maximum Velocity Table 2B: SeniorSonic Recommended Maximum Velocity

Figure 1A: SeniorSonic CO2 Limit by Line Size and Pressure Figure 1B: JuniorSonic CO2 Limit by Line Size and Pressure

Notes: a - Capacities are for schedule 40. b - Maximum velocity available at high volume calibration facilities.


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Input/Output One Ethernet Port1, 3 (TCP/IP) (Up to 10 Mbps) Three Serial Ports2

1.2 to 115 kbps baud rate Modbus RTU/ASCII

When Beldon wire No. 9940 or equivalent is used: Max. cable length is 88.3 meters (250 ft) at

9600 bps with RS-232 communications Max. cable length is 600 meters (1970 ft) at

57600 bps with RS-485 communications

Two Isolated Frequency Pair Outputs for Volumetric Flow Rate2

Individually configurable frequency range as 0-1000 Hz or 0-5000 Hz frequency range

(frequency over-range 150% of full scale) Individually configurable as forward, reverse,

absolute, or bi-directional flow Individually configurable for Open Collector

or TTL Include level B security

Two 4-20 mA Outputs for Volumetric Flow Rate2

One conventional 4-20 mA (optional) One 4-20 mA with HART (optional) Internally powered and magnetically isolated to

500V Two 4-20 mA Analog Inputs (16 - bit) for Pressure and

Temperature (Optional) One Digital Input Four Digital Outputs

Individually configurable for data validity or flow direction

Individually configurable for Open Collector or TTL

Operation/Configuration Software Daniel CUI (Customer Ultrasonic Interface)

Windows - based software Daniel CUI is required for transmitter configuration Daniel CUI Standard Edition supplied with meter at no

charge Daniel CUI Deluxe Edition optional Daniel CUI requires RS-232, RS-485 full duplex, or

Ethernet

Port Supports Modbus OptionalA RS-232 and RS-485 full and half duplex SlaveB RS-232 and RS-485 full and half duplex SlaveC RS-232 and RS-485 half duplex Master

Table 3: Daniel CUI Key Features

Comprehensive monitor screen shows meter perfor-mance information

Create maintenance logs and reports Audit/Alarm/History retrieval in Excel or CSV files Field set up wizard Meter directory support View and chart advanced diagnostic data View and save waveforms AGA 10 SOS Calculator1 Automatic file naming and organized saving supports hundreds of meters

Trend maintenance logs View multiple graphs simultaneously Compare meter configurations stored in Excel logs Calibrate analog inputs Meter factor wizard for flow calibration

Daniel CUI

Standard

Daniel CUI

Deluxe

1 Optional (requires software key in meter)

2 Frequency, Analog and Serial Outputs are independent of each other.

3 Ethernet port interface for Daniel CUI diagnostics only


Page 6 SeniorSonic Gas Flow Meter

Safety Classifications UL listed for use in Class 1, Division 1, Group D

hazardous locations in both the US and Canada (UL E152246)

CE marked to ATEX directive (94/9/EC) Certified to Eex d ia T4 to standards EN 50014,

EN 50018, and EN 50020 BASEEFA Certificate 04ATEX0081/5

Table 4: Option Boards Series 100 BoardSeries 100 Plus Board

Two 16 bit, 4-20 mA full differential analog inputs for pressure and temperature

One 16 bit, 4-20 mA analog output for volume, energy and mass flow rate, velocity and SOS

One serial RS-232/485 port for live gas composition from the Daniel Gas Chromatograph

Obtains power from the main CPU

Transmitters can be source powered from the board or can be externally loop powered

One 16 bit, 4-20mA HART analog output for volume, energy and mass flow rate, velocity, or SOS

Series 100 Option Boards

Metrology Approvals NMI No. T10078 Physikalisch-Techniche Bundesanstalt No. 1.33-7.241-

DAN 96.02 Industry Canada No. AG-0415C; Russian Federation for Standardization, Metrology and

Certification No. 13619-93 InMetro Approval Certificate No. 233 GOST No. PPC BA-13879 Russian Pattern Approval Certificate No. 19334, 19335

Please consult Daniel for other metrology approvals.


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Weights and Dimensions

Figure 2A Figure 2B: Optional field installed position of enclosure housing*

8.52" (216mm)

ENCLOSURE BASE

ENCLOSUREHOUSING

A

C

BA

B C

6.00'' (152mm) removal

16.50'' (419mm)

Board

Removal5.75"

(146mm)

Endcap Removal

1.25" (32mm)

*Enclosure Housing may be rotated 360 degrees in 90 degree increments

ENCLOSURE HOUSING

ENCLOSURE BASE

Figure 2C


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Nominal Line Size (DN) 100 150 200 250 300 400 450 500 600 750 900

Transducer Angle 45 45 60 60 60 60 60 60 60 60 60

300 ANSI

A (mm) 737 749 546 622 660 762 800 902 991 1,137 1,302B (mm) 254 318 343 406 483 597 635 699 813 1,092 1,270C (mm) 408 430 456 487 511 554 576 605 662 773 833Weight (kg) 159 209 204 294 380 572 647 852 1,275 1,928 2,427

600 ANSI

A (mm) 737 749 546 622 660 762 800 902 991 1,226 1,397B (mm) 254 356 381 445 521 648 710 775 914 1,130 1,314C (mm) 408 430 456 487 511 554 576 605 662 773 833Weight (kg) 168 209 231 332 428 677 791 1,031 1,561 2,495 3,765

900 ANSI

A (mm) 787 940 546 622 660 762 800 902 991 Call 1,543B (mm) 292 381 419 508 559 686 745 813 940 Call 1,461C (mm) 408 437 456 487 511 554 576 605 662 Call 857Weight (kg) 205 290 263 398 478 781 922 1,206 1,814 Call 5,445

1500 ANSI

A (mm) 787 940 699 775 876 1,054 914 940 1,219 Call CallB (mm) 311 394 470 546 610 705 785 857 1,040 Call CallC (mm) 408 437 463 494 532 576 760 637 665 Call CallWeight (kg) 215 322 384 471 827 1,190 1,435 1,676 2,791 Call Call

Nominal Line Size (in)

4 6 8 10 12 16 18 20 24 30 36

Transducer Angle

45 45 60 60 60 60 60 60 60 60 60

300 ANSI

A (in) 29.00 29.50 21.50 24.50 26.00 30.00 31.50 35.50 39.00 44.75 51.25B (in) 10.00 12.50 15.00 17.50 20.50 25.50 28.00 30.50 36.00 43.00 50.00C (in) 16.07 16.94 17.94 19.19 20.13 21.81 22.69 23.81 26.07 30.44 32.81Weight (lb) 350 460 509 733 943 1,493 1,743 2,273 3,442 4250 5350

600 ANSI

A (in) 29.00 29.50 21.50 24.50 26.00 30.00 31.50 35.50 39.00 48.25 55.00B (in) 10.00 14.00 16.50 20.00 22.00 27.00 29.25 32.00 37.00 44.50 51.75C (in) 16.07 16.94 17.94 19.19 20.13 21.81 22.69 23.81 26.07 30.44 32.81Weight (lb) 370 460 580 877 1,054 1,723 2,033 2,658 4,000 5,500 8,300

900 ANSI

A (in) 31.00 37.00 27.50 30.50 34.50 41.50 36.00 37.00 48.00 Call 60.75B (in) 11.50 15.00 18.50 21.50 24.00 27.75 31.00 33.75 41.00 Call 57.50C (in) 16.07 17.19 18.44 19.44 20.94 22.69 29.94 25.07 26.19 Call 33.75Weight (lb) 453 640 847 1,039 1,824 2,623 3,163 3,696 6,153 Call 12,005

1500 ANSI

A (in) 31.00 37.00 27.50 30.50 34.50 41.50 36.00 37.00 48.00 Call CallB (in) 12.25 15.50 18.50 21.50 24.00 27.75 31.00 33.75 41.00 Call CallC (in) 16.07 17.19 18.44 19.44 20.94 22.69 29.94 25.07 26.19 Call CallWeight (lb) 473 710 847 1,039 1,824 2,623 3,163 3,696 6,153 Call Call

Table 5A: SeniorSonic Weight and Dimensional Data - English Units

Table 5B: SeniorSonic Weight and Dimensional Data - Metric Units


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Nominal Line Size (DN) 100 150 200 250 300 400 450 500 600 750 900


300 ANSI

A (mm) 502 749 800 864 900 1,118 CALL 1,216 1,406 1,613 1,772B (mm) 254 318 381 445 521 648 CALL 775 914 1,092 1,270C (mm) 273 356 419 508 559 686 CALL 813 940 1,130 1,314

Weight (kg) 97 129 181 222 297 411 CALL 852 967 1,858 2,513

600 ANSI

A (mm) 476 749 800 864 900 1,118 CALL 1,286 1,489 1,702 1,867B (mm) 273 356 419 508 559 686 CALL 813 940 1,130 1,314C (mm) 529 508 532 561 586 627 CALL 678 729 805 881

Weight (kg) 108 154 219 304 373 624 CALL 1,108 1,377 2,193 2,874

900 ANSI

A (mm) 508 940 1,041 1,016 1,194 1,118 CALL 1,626 1,842 CALL CALLB (mm) 292 381 470 546 610 692 CALL 857 1,041 CALL CALLC (mm) 529 508 532 561 586 627 CALL 678 1,034 CALL CALL

Weight (kg) 113 141 298 336 531 717 CALL 1,406 2,041 CALL CALL

1500 ANSI

A (mm) 508 940 1,041 1,016 1,194 1,626 CALL CALL CALL CALL CALLB (mm) 311 394 483 584 673 826 CALL CALL CALL CALL CALLC (mm) 529 508 532 561 586 627 CALL CALL CALL CALL CALL

Weight (kg) 142 186 374 508 789 1,560 CALL CALL CALL CALL CALL

Nominal Line Size (in) 4 6 8 10 12 16 18 20 24 30 36


300 ANSI

A (mm) 19.75 29.50 31.50 34.00 35.44 44.00 CALL 47.89 55.36 63.50 69.75B (mm) 10.00 12.50 15.00 17.50 20.50 25.50 CALL 30.50 36.00 43.00 50.00C (mm) 10.75 14.00 16.50 20.00 22.00 27.00 CALL 32.00 37.00 44.50 51.75Weight (kg) 214 284 398 490 654 905 CALL 1879 2132 4096 5540

600 ANSI

A (mm) 18.75 29.50 31.50 34.00 35.44 44.00 CALL 50.62 58.62 67.00 73.50B (mm) 10.75 14.00 16.50 20.00 22.00 27.00 CALL 32.00 37.00 44.50 51.75C (mm) 20.81 20.00 20.94 22.07 23.07 24.69 CALL 26.69 28.69 31.69 34.69Weight (kg) 238 340 482 670 822 1,375 CALL 2,443 3,036 4,835 6,335

900 ANSI

A (mm) 20.00 37.00 41.00 40.00 47.00 44.00 CALL 64.00 72.50 CALL CALLB (mm) 11.50 15.00 18.50 21.50 24.00 27.25 CALL 33.75 41.00 CALL CALLC (mm) 20.81 20.00 20.94 22.07 23.07 24.69 CALL 26.69 40.69 CALL CALLWeight (kg) 250 310 658 740 1,170 1,580 CALL 3,100 4,500 CALL CALL

1500 ANSI

A (mm) 20.00 37.00 41.00 40.00 47.00 64.00 CALL CALL CALL CALL CALLB (mm) 12.25 15.50 19.00 23.00 26.50 32.50 CALL CALL CALL CALL CALLC (mm) 20.81 20.00 20.94 22.07 23.07 24.69 CALL CALL CALL CALL CALLWeight (kg) 312 410 825 1,120 1,740 3,440 CALL CALL CALL CALL CALL

Table 6A: JuniorSonic Weight and Dimensional Data - English Units

Table 6B: JuniorSonic Weight and Dimensional Data - Metric Units


Page 10

Calculating meter capacity:To calculate a volume rate for a given velocity, first find the capacity in this table for the meter size and operating pressure. Next, multiply the capacity by the ratio of the desired velocity divided by 100 ft/s to obtain the desired volume rate.Example: Determine the hourly flow rate at 70 ft/s for an 8-inch meter operating at 800 psig.Flow Rate = 7635 MSCFHVelocity = 70 ft/sAnswer = 7635 MSCFH x 70 ft/s = 5344 MSCFH 100 ft/s

Selection of Meter Size:These tables can be used to determine the flow range at reference conditions for all meter sizes. All calculations are based on Schedule 40 bore, 60 F and typical gas composition. These values are intended to be a guide in sizing. Contact Daniel engineering for assistance with specific applications.

PSIG 4 6 8 10 12 16 18 20 24 30 36100 242 550 952 1,501 2,130 3,363 4,257 5,291 7,652 10,870 13,343200 450 1,021 1,768 2,787 3,956 6,246 7,906 9,826 14,210 20,187 24,780300 649 1,473 2,551 4,022 5,709 9,012 11,408 14,178 20,506 29,129 35,757400 842 1,911 3,309 5,217 7,405 11,690 14,797 18,391 26,599 37,785 46,382500 1,029 2,335 4,043 6,373 9,046 14,281 18,077 22,467 32,493 46,158 56,660600 1,209 2,744 4,752 7,491 10,633 16,787 21,248 26,409 38,194 54,257 66,601700 1,384 3,141 5,438 8,572 12,168 19,210 24,316 30,221 43,708 62,090 76,217800 1,553 3,524 6,102 9,619 13,653 21,555 27,284 33,911 49,044 69,670 85,521900 1,716 3,895 6,745 10,632 15,092 23,827 30,160 37,485 54,213 77,012 94,534

1000 1,875 4,256 7,369 11,616 16,488 26,031 32,950 40,952 59,228 84,136 103,2791100 2,030 4,606 7,976 12,572 17,846 28,174 35,662 44,323 64,104 91,063 111,7811200 2,180 4,948 8,568 13,505 19,170 30,265 38,309 47,612 68,861 97,820 120,0761300 2,328 5,282 9,147 14,418 20,466 32,312 40,899 50,832 73,518 104,435 128,1961400 2,473 5,612 9,717 15,317 21,742 34,325 43,448 54,000 78,100 110,944 136,1861500 2,616 5,937 10,281 16,206 23,004 36,317 45,970 57,134 82,632 117,382 144,0891600 2,759 6,261 10,842 17,090 24,259 38,299 48,479 60,252 87,142 123,789 151,9531700 2,902 6,586 11,404 17,976 25,516 40,284 50,991 63,374 91,657 130,203 159,8271800 3,046 6,913 11,970 18,868 26,782 42,283 53,521 66,520 96,206 136,665 167,7591900 3,192 7,244 12,544 19,772 28,066 44,310 56,087 69,708 100,818 143,216 175,8012000 3,341 7,582 13,128 20,694 29,374 46,375 58,700 72,956 105,515 149,889 183,992

Table 7A: Flow Rates (MSCFH) Based Upon Max Rated Velocity 4 thru 24 = 100 ft/sec; 30 = 85 ft/sec 36 = 75 ft/sec

Table 7B: Flow Rates (MMSCFD) Based Upon Max Rated Velocity 4 thru 24 = 100 ft/sec; 30 = 85 ft/sec 36 = 75 ft/sec

PSIG 4 6 8 10 12 16 18 20 24 30 36100 5.9 13.3 23.0 36.3 51.5 81.3 103.0 128.0 185.1 262.9 322.7 200 10.8 24.5 42.4 66.9 94.9 149.9 189.7 235.8 341.1 484.5 594.7 300 15.6 35.4 61.2 96.5 137.0 216.3 273.8 340.3 492.1 699.1 858.2 400 20.2 45.9 79.4 125.2 177.7 280.6 355.1 441.4 638.4 906.8 1,113.2 500 24.7 56.0 97.0 152.9 217.1 342.7 433.8 539.2 779.8 1,107.8 1,359.8 600 29.0 65.9 114.1 179.8 255.2 402.9 510.0 633.8 916.7 1,302.2 1,598.4 700 33.2 75.4 130.5 205.7 292.0 461.0 583.6 725.3 1,049.0 1,490.2 1,829.2 800 37.3 84.6 146.5 230.8 327.7 517.3 654.8 813.9 1,177.1 1,672.1 2,052.5 900 41.2 93.5 161.9 255.2 362.2 571.9 723.8 899.6 1,301.1 1,848.3 2,268.8

1000 45.0 102.1 176.9 278.8 395.7 624.7 790.8 982.8 1,421.5 2,019.3 2,478.7 1100 48.7 110.5 191.4 301.7 428.3 676.2 855.9 1,063.8 1,538.5 2,185.5 2,682.8 1200 52.3 118.7 205.6 324.1 460.1 726.4 919.4 1,142.7 1,652.7 2,347.7 2,881.8 1300 55.9 126.8 219.5 346.0 491.2 775.5 981.6 1,220.0 1,764.4 2,506.4 3,076.7 1400 59.3 134.7 233.2 367.6 521.8 823.8 1,042.8 1,296.0 1,874.4 2,662.7 3,268.5 1500 62.8 142.5 246.8 388.9 552.1 871.6 1,103.3 1,371.2 1,983.2 2,817.2 3,458.1 1600 66.2 150.3 260.2 410.2 582.2 919.2 1,163.5 1,446.1 2,091.4 2,970.9 3,646.9 1700 69.6 158.1 273.7 431.4 612.4 966.8 1,223.8 1,521.0 2,199.8 3,124.9 3,835.9 1800 73.1 165.9 287.3 452.8 642.8 1,014.8 1,284.5 1,596.5 2,308.9 3,280.0 4,026.2 1900 76.6 173.9 301.1 474.5 673.6 1,063.4 1,346.1 1,673.0 2,419.6 3,437.2 4,219.2 2000 80.2 182.0 315.1 496.6 705.0 1,113.0 1,408.8 1,750.9 2,532.4 3,597.3 4,415.8


Page 11

Selection of Meter Size:These tables can be used to determine the flow range at reference conditions for all meter sizes. All calculations are based on Schedule 40 bore, 15 C and typical gas composition. These values are intended to be a guide in sizing. Contact Daniel engineering for assistance with specific applications.

Calculating meter capacity:To calculate a volume rate for a given velocity, first find the capacity in this table for the meter size and operating pressure. Next, multiply the capacity by the ratio of the desired velocity divided by 30 m/s to obtain the desired volume rate. Example: Determine the hourly flow rate at 21 m/s for an 8 inch meter operating at 4500 kPag.Flow Rate = 171.6 MSCMHVelocity = 21 m/sAnswer = 171.6 MSCMH x 21 m/s = 120.12 MSCMH 30 m/s

KPAG 4 6 8 10 12 16 18 20 24 30 361000 10 22 38 60 85 134 169 210 304 432 5301500 14 31 54 85 120 190 240 299 432 614 7532000 18 40 70 110 157 247 313 389 562 799 9812500 22 50 86 135 192 304 384 478 691 981 1,2043000 26 58 101 159 226 356 451 560 811 1,151 1,4133500 30 67 116 183 260 410 519 646 934 1,326 1,6284000 33 75 130 205 291 460 582 724 1,047 1,487 1,8254500 37 84 145 228 324 512 648 805 1,165 1,655 2,0315000 41 92 159 251 357 563 713 886 1,281 1,820 2,2345500 44 100 172 272 386 609 770 958 1,385 1,967 2,4156000 47 108 186 294 417 658 833 1,035 1,497 2,126 2,6106500 50 115 198 313 444 701 887 1,103 1,595 2,265 2,7817000 54 122 212 334 474 748 947 1,177 1,702 2,418 2,9697500 57 129 223 352 500 789 999 1,241 1,795 2,550 3,1318000 60 136 236 373 529 835 1,057 1,313 1,900 2,698 3,3128500 63 143 247 390 554 874 1,106 1,375 1,989 2,825 3,4689000 66 150 260 410 582 919 1,163 1,445 2,090 2,969 3,6459500 69 156 271 427 606 957 1,211 1,505 2,177 3,092 3,796

10000 72 164 283 446 634 1,001 1,266 1,574 2,276 3,234 3,970

KPAG 4 6 8 10 12 16 18 20 24 30 361000 0.231 0.524 0.908 1.431 2.031 3.207 4.060 5.046 7.297 10.366 12.7251500 0.328 0.745 1.290 2.033 2.886 4.556 5.767 7.167 10.366 14.726 18.0762000 0.427 0.970 1.679 2.647 3.757 5.932 7.508 9.332 13.496 19.172 23.5342500 0.525 1.191 2.062 3.251 4.615 7.285 9.222 11.461 16.576 23.548 28.9053000 0.616 1.398 2.420 3.815 5.415 8.550 10.822 13.450 19.453 27.633 33.9203500 0.710 1.610 2.788 4.395 6.239 9.849 12.467 15.495 22.410 31.834 39.0774000 0.795 1.805 3.125 4.926 6.993 11.040 13.974 17.368 25.119 35.682 43.8014500 0.885 2.009 3.479 5.483 7.783 12.288 15.554 19.331 27.958 39.716 48.7525000 0.974 2.210 3.826 6.031 8.561 13.515 17.108 21.262 30.751 43.684 53.6235500 1.052 2.388 4.135 6.518 9.253 14.608 18.490 22.981 33.237 47.215 57.9576000 1.137 2.581 4.469 7.045 10.000 15.788 19.984 24.837 35.922 51.028 62.6396500 1.212 2.750 4.762 7.505 10.654 16.820 21.290 26.461 38.270 54.364 66.7337000 1.294 2.936 5.084 8.013 11.374 17.957 22.730 28.250 40.857 58.039 71.2447500 1.364 3.096 5.361 8.450 11.995 18.937 23.971 29.792 43.088 61.208 75.1348000 1.443 3.276 5.673 8.941 12.692 20.038 25.363 31.523 45.591 64.764 79.4998500 1.511 3.430 5.939 9.361 13.287 20.978 26.553 33.002 47.730 67.803 83.2309000 1.588 3.605 6.242 9.838 13.965 22.048 27.908 34.686 50.166 71.263 87.4769500 1.654 3.754 6.501 10.246 14.545 22.963 29.065 36.124 52.246 74.218 91.104

10000 1.730 3.926 6.798 10.715 15.210 24.012 30.394 37.776 54.635 77.611 95.269

Table 8B: Flow Rates (MMSCMD) Based Upon Max Rated Velocity 4 thru 24 = 30.5 m/s; 30 = 25.9m/s 36 = 22.9 m/s

Table 8A: Flow Rates (MSCMH) Based Upon Max Rated Velocity 4 thru 24 = 30.5 m/s; 30 = 25.9m/s 36 = 22.9 m/s


Page 12

Piping recommendation for SeniorSonic or JuniorSonic with no flow conditioner

Minimum Piping recommendation for SeniorSonic or JuniorSonic with Daniel Profiler*

The drawings below represent recommended piping lengths with or without Daniel flow conditioners when installed with the Daniel SeniorSonic flowmeter. If shorter lengths are used there may be an increase in flow measurement uncertainty.

20 D 5 D

5 D 5 D

2 D

2 D

3-5 D

5 D5 D 10 D 10 D

Minimum Piping recommendation for Bi-directional SeniorSonic or JuniorSonicwith Daniel Profiler*

WARNING!Do not operate this instrument in excess of the specifications listed. Failure to heed this warning could result in serious injury and/or damage to the equipment.

10 D

*Note: these are minimum lengths. Many users specify 10 D + Flow Conditioner + 10 D for upstream in uni-directional designs and the same for bi-directional designs per AGA9 second edition April, 2007 default installation recommendation.


Page 13

Daniel Ultrasonic Model Number Selections S-01086

Country Metrology ApprovalA None

Electrical Approvals1 U.L. / C-U.L.2 CE (ATEX and PED)

Pressure Tap Options1 Right 1/2" NPT - Left 1/2" NPT2 Right None - Left None3 Right Pipet - Left Pipet4 Right 1/2" NPT - Left None5 Right 1/2" NPT - Left Pipet6 Right Pipet - Left None 7 Right Pipet - Left 1/2" NPT 8 Right None - Left 1/2" NPT 9 Right None - Left Pipet

Tagging Language1 English

Tagging Format1 Inch/ANSI/US Customary2 Inch/ANSI/Metric3 DN/PN/US Customary4 DN/PN/Metric

Port AngleA 45 DegreeB 60 Degree

Expansion BoardA NoneB Series 100 Board C Series100 Plus Board

DisplayA None

Electronics MountingA Integral MountB Remote Mount w/ 15ft. cables

Electrical Conduits1 3/4" NPT2 M20 (uses reducers)

Input Power1 10.4 to 36 VDC

Enclosure Type1 Aluminum w/ Powder Coat

NEMA 4X/7Transducers

1 T-11 (-20C to +100C)2 T-12 (-20C to +100C)

34 -DeviceSeniorSonic 4-Path 00JuniorSonic 1-Path 10JuniorSonic 2-Path 20Size4 inch 046 inch 068 inch 0810 inch 1012 inch 1216 inch 1618 inch 1820 inch 2024 inch 2430 inch 3036 inch 36Pressure ClassANSI 300 / PN 50 03ANSI 600 / PN 100 05ANSI 900 / PN 150 06ANSI 1500 / PN 200 07Flange TypeRF/RF S01RTJ/RTJ S02FEFA/FEFA S03Body MaterialCarbon Steel (-45C to 127C) M1316 SS (-50C to 127C) M2316L SS (-50C to 127C) M3ASTM A995 Grade 4A Duplex M4Carbon Steel (-50C to 127C) M5A106 Grade B P1A333 Grade 6 P2API 5L X52 P3API 5L X56 P4API 5L X60 P5API 5L X65 P6API 5L X70 P7A312 Grade TP316 P8A312 Grade TP316L P9ASTM A790 D4ScheduleSchedule LW LWCSchedule 20 020Schedule 30 030Schedule 40 040Schedule 60 060Schedule 80 080Schedule 100 100Schedule 120 120Schedule 140 140Schedule 160 160Schedule STD STDSchedule XS XS0

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Emerson Process ManagementDaniel Measurement and Control, Inc.,

World Area HeadquartersHouston, Texas, USAT: 713-467-6000, F: 713-827-3880USA Toll Free 1-888-FLOW-001www.daniel.com

Calgary, Alberta, CanadaT: 403-279-1879, F: 403-236-1337

Singapore - Asia PacificT: +65-6777-8211, F: +65-6770-8001

Stirling, Scotland - Europe, Mid-East, AfricaT: +44 (0) 1786 433400, F: +44 (0) 1786 433401

2005 Daniel Measurement and Control, Inc. All Rights Reserved. Unauthorized duplication in whole or in part is prohibited. SeniorSonic and JuniorSonic gas flow meters are protected under US and foreign patents and patents pending.Printed in the USA. DAN-USM-FAMILY-DS-0705

Daniel Measurement and Control, Inc. is a wholly owned subsidiary of Emerson Electric Co., and a division of Emerson Process Management. The Daniel name and logo are registered trademarks of Daniel Industries, Inc. The Emerson logo is a registered trademark and service mark of Emerson Electric Co. All other trademarks are the property of their respective companies. The contents of this publication are presented for informational purposes only, and while every effort has been made to ensure their accuracy, they are not to be construed as warranties or guarantees, expressed or implied, regarding the products or services described herein or their use or applicability. All sales are governed by Daniels terms and conditions, which are available upon request. We reserve the right to modify or improve the designs or specifications of such products at any time. Daniel does not assume responsibility for the selection, use or maintenance of any product. Responsibility for proper selection, use and maintenance of any Daniel product remains solely with the purchaser and end-user.

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