BTU, joules, calories, Watt-hours, Megawatt-hours and. Horsepower-hours. The local or remote electronics indicate two temperatures, delta T, mass total and.
PanaFlowTM MV80 Key Benefits • Multivariable vortex flow meter with built-in flow computer for measuring volumetric flow, temperature, pressure, density, energy, and mass
PanaFlowTM MV80 In-Line Multivariable Flow Meters for Mass, Temperature and Pressure Key Benefits · Multivariable vortex flow meter with built-in flow computer for measuring volumetric flow, temperature, pressure, density, energy, and mass flow using a single meter · Measures most gases, liquids and steam without the need to recalibrate · Advanced design and digital signal processing for vibration isolation · Cost effective, accurate and reliable meter for volumetric and mass flow measurement · Energy management through accurate measurement of both temperature and mass flow simultaneously · Remote monitoring and integration to DCS using HART®, Modbus®, and BACnet® communication protocols · Significant cost savings through reduced installation costs, wiring runs and services support using MV meter with no moving parts. Applications · Ideal for high temperature and high velocity steam · Power Generation--fuel and steam applications · Industrial--HVAC, district energy management · Commercial--building, campus and facility energy management · Oil & Gas--allocation of natural gas · Petrochemical--mass balancing, reaction processes heating Panametrics.com Unique Multivariable Design The Panametrics, a Baker Hughes Business, PanaFlow MV80 In-line Multivariable Mass Vortex flow meter is the next generation vortex meter. PanaFlow MV80's multivariable design consists of a vortex shedding velocity sensor, an RTD temperature sensor and a solid state pressure transducer that measures the mass flow rate of steam, gases and liquids. Other meter types use external process measurements to calculate mass flow. The temperature and pressure devices are typically not installed in the same location as the flowmeter. Process conditions can vary greatly between the two locations, causing inaccurate mass flow readings. PanaFlow MV80 measures velocity, temperature and pressure at the same location, which provides more accurate process measurement. Portfolio of Flow Meter Solutions Panametrics is committed to providing customers with the best technologies for their flow measurement needs. PanaFlow MV80 is the newest addition to the PanaFlow family of flow meters, providing effective solutions for smaller pipe sizes for a variety of applications. Panametrics offers the PanaFlow MV80 in a number of configurations to best suit your application measurement needs. Field Service Solutions Panametrics has a global field service team ready to assist in the start-up and commissioning of the PanaFlow MV80 flow meters. This service includes validating the proper installation and programming of the meter, and can include customized training for theory, operation and maintenance. Regularly scheduled preventative maintenance visits will provide peace of mind, ensuring that the meters work to specification and your expectation for years. Mass Flow Measurement--True Multivariable The MV80 offers flow computer functionality in a compact field device. The VTP option incorporates temperature and pressure sensors to provide an instantaneous reading of compensated mass flow rate of gases, liquids and steam. In addition to outputs for totalized mass and alarm settings, the field configurable electronics deliver up to three analog 4-20 mA outputs of five process measurements, including volumetric flow rate, mass flow rate, pressure, temperature and density. Alternate configurations for mass flow include a temperature only compensation (VT), best used when in saturated steam applications, and an integrated RTD with an external pressure transmitter (VT-EP) when a full function pressure transmitter is desired. Energy Measurement in Liquids and Steam The VT-EM energy monitoring option enables real timeof-flight diffraction calculation of energy consumption for a facility or process. The meter can be programmed to measure steam, hot water or chilled water. This option uses the MV80 flow meter to monitor one side of the process, either sent or return, and uses the input from a second separate temperature sensor on the opposite leg of the process to calculate the change in energy. Selectable energy units include BTU, joules, calories, Watt-hours, Megawatt-hours and Horsepower-hours. The local or remote electronics indicate two temperatures, delta T, mass total and energy total. For energy measurement in steam, the VTP-EM option adds a pressure transmitter to offer better accuracy. Volumetric Flow for Most Gases and Liquids The base model MV80 delivers a direct reading of volumetric flow rate--generally the most cost-effective solution for liquid flow monitoring--in applications ranging from general water flows to hydrocarbon fuel flow measurement. Model Configuration Volumetric Mass Integrated Integrated External External Typical Flow Flow RTD Pressure Temperature Pressure Application Pipe Size* MV80-V Volumetric flow for liquid X and gas Liquid volumetric 1/2" to 12" flow (15 to 300 mm) MV80-VT Mass flow with Temperature X X X and assumed saturated steam Saturated Steam 1/2" to 12" and Liquid mass (15 to 300 flow mm) MV80-VTP Mass flow with integrated X X X X Temperature and Pressure in one device Steam and 1/2" to 12" Gases mass flow (15 to 300 mm) MV80-VT-EP Mass flow with integrated Temperature and analog input for an external pressure transmitter X X X X Steam and 1/2" to 12" Gases mass (15 to 300 flow (special mm) material, high pressure) MV80-VT-EM Energy using integrated X X Temperature and one input for an RTD Transmitter X Saturated Steam 1/2" to 12" and Liquid (15 to 300 Energy mm) MV80-VTP-EM Energy for steam with X X X X X integrated pressure and temperature and one input for an RTD transmitter Steam Energy 1/2" to 12" (15 to 300 mm) Specifications Performance Accuracy Mass flow rate accuracy for gas and steam based on 50-100% of pressure range PanaFlow MV80 Flow Meter Accuracy Process Variable Liquids Gas and Steam Volumetric Flow Rate ± 0.7% of Rate ± 1% of Rate Mass Flow Rate ± 1% of Rate ± 1.5% of Rate Temperature ± 2°F (± 1°C) ± 2°F (± 1°C) Pressure ± 0.3% of Full Scale ± 0.3% of Full Scale Density ± 0.3% of Reading ±0 .5% of Reading Repeatability Mass Flow Rate: ±0.2% of rate Volumetric Flow Rate: ±0.1% of rate Temperature: ±0.2°F (± 0.1°C) Pressure: ±0.05% of full scale Density: ±0.1% of reading Stability Over 12 Months Mass Flow Rate: ±0.2% of rate Volumetric Flow Rate: negligible Temperature: ±0.9°F (± 0.5°C) Pressure: ±0.1% of full scale Density: ±0.1% of reading Response Time Adjustable from 1 to 100 seconds Operating Process and Ambient Temperature Process Standard Temperature (code ST): -40 to 500°F (-40 to 260°C) Process High Temperature (code HT): Up to 750°F (400°C) Ambient Operating: -40 to 140°F (-40 to 60°C) Ambient Storage: -40 to 185°F (-40 to 85°C) Pressure Transducer Ratings Full Scale Operating Pressure Max. Over-Range Pressure psia bara psia bara 30 2 60 4 100 7 200 14 300 20 600 40 500 35 1000 70 1500 100 2500 175 Power Requirements DC2 Option: 12-36 VDC loop powered, 25mA, 1W max, loop powered (single output) DC4 Option: 12-36 VDC, 300 mA max, 9W max, (multiple outputs) DC4POE Option: 12-28 VDC or power over Ethernet, 5W max, (multiple outputs) AC Option: 100-240 VAC, 50/60 Hz, 5 Watt (multiple outputs) Display Alphanumeric 2 line x 16 character LCD Digital Display: Six pushbuttons for full field configuration. Pushbuttons can be operated with magnetic wand without removal of enclosure covers. Display can be mounted in 90° intervals for better viewing Output Signals Analog: 4-20 mA, loop powered for volumetric meters Alarm: Solid state relay, 40 VDC Totalizer Pulse: 50 millisecond, 40 VDC DC2 Option: One analog, one totalizer pulse, HART DC4, DC4POE, and AC Option: Up to three analog signals, three alarms, one totalizer pulse, HART, Modbus, BACnet Physical Wetted Materials 316L stainless steel standard, plus: · PTFE based thread sealant on models with pressure transducer · PTFE packing on standard temperature models with packing gland · Graphite-based packing on high temperature models with packing gland · Carbon steel and Hastelloy C meter bodies optional Certifications FM/FMC Class I, Division 1, Groups B, C & D, Class II, III, Division 1, Groups E, F & G Type 4x and IP66, T6, Ta = -40°C - +60°C ATEX II 2 G Ex d IIB + H2 T6, II 2 D Ex tD A21 IP66 T85°C, Ta = -40°C - +60°C IECEx Ex d IIB + H2 T6, Ex tD A21 IP66 T85°C, Ta = -40°C +60°C Sizing Considerations Piping Conditions Condition One 90° elbow before meter Two 90° elbows before meter Two 90° elbows before meter, out of plane Reduction before meter Expansion before meter Partially open valve Pipe Diameters (D) Upstream Downstream 10D 5D 15D 5D 25D 5D 10D 5D 20D 5D 25D 5D Velocity and Flow Rate Ranges Velocity Range Maximum for liquids: 30 ft/s (9 m/s) Minimum for liquids: 1 ft/s (0.3 m/sec) Maximum for gases or steam: 300 ft/s (90 m/s) Minimum for gases or steam: see equations below ft/s = 5 density (lb/ft3) m/s = 6.1 density (kg/m3) Turndown Ratio The turndown ratio is application-dependent, and it can exceed 100:1. Consult the PanaFlow MV Sizing Program for exact values. Flow Rate Ranges for Water Refer to the table below for minimum and maximum flow rate ranges, or use the PanaFlow MV Sizing Program to calculate your flow rate range. Minimum and Maximum Flow Rates for Water Rate Nominal Pipe Size (in.) 0.5 0.75 1 1.5 2 3 4 6 8 GPM min. 0.9 1.4 2.2 5.5 9.2 21 36 81 142 GPM max. 22 40 67 166 276 618 1076 2437 4270 Rate Nominal Pipe Size (mm) 15 20 25 40 50 80 100 150 200 m3/hr min. 0.2 0.3 0.5 1.3 2.3 4.7 8.1 18 32 m3/hr max. 5 9 15 38 63 140 244 554 970 Upon the recommendation of a Panametrics application engineer, a concentric reducer inline flow body may be requested. Flow Rate Ranges for Saturated Steam Refer to the tables below for minimum and maximum flow rate ranges, or use the PanaFlow MV Sizing Program to calculate your flow rate range. Minimum and Maximum Flow Rates for Saturated Steam (lb/hr) Press. Nominal Pipe Size (in.) (psig) 0.5 0.75 1 1.5 2 3 4 6 8 10 12 6.5 12 20 49 82 183 318 722 1264 1988 2813 5 52 122 265 650 1087 2431 4231 9594 16806 26429 37395 15 27 46 112 187 419 728 1652 2893 4550 6438 100 271 639 1386 3405 5690 12729 22156 50233 87998 138386 195803 20 37 62 151 253 565 983 2229 3905 6141 8689 200 493 1163 2525 6203 10365 23184 40354 91494 160279 252055 356635 24 45 74 182 304 680 1184 2685 4704 7397 10466 300 716 1688 3664 9000 15040 33642 58556 132763 232575 365747 517499 28 51 85 209 349 780 1358 3079 5393 8481 12000 400 941 2220 4816 11831 19770 44222 76971 174516 305717 480771 680247 31 57 95 233 389 870 1514 3433 6014 9457 13381 500 1170 2760 5988 14711 24582 54987 95710 217001 380148 597812 845850 Minimum and Maximum Flow Rates for Saturated Steam (kg/hr) Press. Nominal Pipe Size (mm) (barg) 15 20 25 40 50 80 100 150 200 250 300 3 5 8 19 32 72 126 286 500 786 1113 0 18 42 91 274 375 838 1459 3309 5797 9116 12898 6 11 18 45 75 167 290 658 1153 1813 2565 5 95 224 485 1192 1992 4455 7754 17581 30799 48434 68530 8 15 24 59 99 222 387 877 1537 2417 3419 10 168 397 862 2118 3539 7915 13777 31237 54720 86053 121758 9 17 29 71 119 266 463 1050 1840 2893 4094 15 241 569 1236 3036 5073 11347 19750 44779 78444 123360 174543 11 20 33 81 136 304 529 1199 2100 3303 4673 20 314 742 1610 3956 6611 14787 25738 58355 102226 160761 227463 13 24 40 99 165 369 642 1455 2548 4007 5669 30 463 1092 2370 5822 9729 21763 37880 85884 150451 236599 334766 Flow Rate Ranges for Air Refer to the tables below for minimum and maximum flow rate ranges, or use the PanaFlow MV Sizing Program to calculate your flow rate range. Minimum and Maximum Flow Rates for Air @70°F (SCFM) Press. Nominal Pipe Size (in.) (psig) 0.5 0.75 1 1.5 2 3 4 6 8 10 12 1.8 3 5 13 22 50 87 198 347 546 773 0 18 41 90 221 369 826 1437 3258 5708 8976 12701 5 9 15 38 63 141 245 555 972 1529 2163 100 138 325 704 1730 2890 6466 11254 25515 44698 70292 99456 7 13 21 52 86 193 335 761 1332 2095 2965 200 258 609 1322 3248 5427 12140 21131 47911 83931 131895 186752 8 15 25 63 104 234 407 922 1615 2540 3594 300 380 896 1944 4775 7978 17847 31064 70431 123375 194025 274529 10 18 29 72 120 269 467 1060 1857 2920 4132 400 502 1183 2568 6309 10542 23580 41043 93057 163000 256358 362724 11 20 33 80 134 300 521 1182 2071 3257 4608 500 624 1472 3195 7849 13115 28034 51063 115775 203000 318941 451272 Minimum and Maximum Flow Rates for Air @20°C (nm3/hr) Press. Nominal Pipe Size (mm) (barg) 15 20 25 40 50 80 100 150 200 250 300 3 5 9 21 36 79 138 313 549 863 1221 0 28 66 142 350 584 1307 2275 5157 9034 14207 20102 7 13 21 52 87 194 337 764 1339 2105 2979 5 165 390 847 2080 3476 7775 13533 30682 53749 84525 119596 9 17 29 70 117 262 457 1035 1914 2853 4036 10 304 716 1554 3819 6381 14273 24844 56329 98676 155178 219563 11 21 34 85 142 317 551 1250 2190 3444 4873 15 442 1044 2265 5565 9299 20801 36205 82087 143801 297386 319968 13 24 40 97 162 363 632 1434 2511 3949 5588 20 582 1373 2979 7318 12229 27354 47612 107949 189105 297386 420775 16 29 48 118 198 442 770 1745 3057 4807 6801 30 862 2034 4414 10843 18119 40529 70544 159942 280187 440621 623439 Dimensional Outlines Remote Electronics Option Drawing This option is available on all models. See the drawing below for the dimensions. 5.0 in. (127 mm) 8.3 in. (211 mm) 5.0 in. (127 mm) 5.7 in. (145 mm) 3.0 in. (76 mm) 3.0 in. (76 mm) 0.5 in. (12.7 mm) U-Bolt Provided Remote Cable 50 ft (15 m) long x 0.3 in. (8 mm) dia. 2.1 in. (53 mm) 3.0 in. (76 mm) Remote Electronics Option available on all models In-line Flanged Models - Table Pipe Size (nominal) L Weight* H ANSI 150 ( PN 16) 1.2 in. (15 mm) 4.6 in. 14.8 in. 12.0 lb (116 mm) (376 mm) (5.5 kg) 3/4 in. (20 mm) 4.8 in. 15.0 in. 13.0 lb (122 mm) (381 mm) (5.9 kg) 1 in. (25 mm) 5.0 in. 15.0 in. (126 mm) (381 mm) 13.4 lb (6.1 kg) 1 1/2 in. (40 mm) 5.5 in. 15.0 in. 14.5 lb (140 mm) (384 mm) (6.6 kg) 2 in. (50 mm) 6.0 in. 15.3 in. 19.4 lb (153 mm) (389 mm) (8.8 kg) 3 in. (80 mm) 7.0 in. 15.8 in. 27.5 lb (175 mm) (401 mm) (12.5 kg) 4 in. 8.0 in. 16.2 in. 43.3 lb (100 mm) (203 mm) (411 mm) (19.7 kg) 6 in. 9.0 in. 17.3 in. 48.4 lb (150 mm) (229 mm) (439 mm) (22.0 kg) 8 in. 10.5 in. 18.2 in. 71 lb (200 mm) (267 mm) (462 mm) (32.2 kg) 10 in. 15.0 in. 18.2 in 188.3 Lb (250 mm) (381 mm) (462 mm) (85.5 Kg) 12 in. 17.7 in. 19.2 in. 298.6 Lb (300 mm) (450 mm) (488 mm) (135.6 Kg) *Add 11 lb (5 kg) for remote electronics Weight* ANSI 300 ( PN 40) 12.5 lb (5.7 kg) 14.0 lb (6.4 kg) 16.3 lb (7.4 kg) 22.7 lb (10.3 kg) 26.8 lb (12.2 kg) 39.4 lb (17.9 kg) 60.3 lb (27.4 kg) 96.0 lb (43.6 kg) 148 lb (67.4 kg) 262.3 Lb (119.1 Kg) 402.6 Lb (182.8 Kg) Weight* ANSI 600 (PN 64) 13.0 lb (5.9 kg) 14.5 lb (6.6 kg) 16.3 lb (7.4 kg) 24.6 lb (11.2 kg) 33.2 lb (15.1 kg) 56.1 lb (25.5 kg) 96.0 lb (43.6 kg) 178 lb (80.8 kg) 299 lb (136 kg) 462.3 Lb (209.9 Kg) 606.6 Lb (275.4 Kg) Wafer Models - Drawing and Table 5.0 in. (127 mm) 5.0 in. (127 mm) 3.0 in. (76 mm) In-line Flanged Models - Drawing H* 5.0 in. (127 mm) 5.0 in. (127 mm) 3.0 in. (76 mm) H* *See table L* *See table L* Pipe Size (nominal) L H 1 in. (25 mm) 2.8 in. (71 mm) 14.8 in. (376 mm) 1 1/2 in. (40 mm) 2.8 in. (71 mm) 15.1 in. (384 mm) 2 in. (50 mm) 3.0 in. (76 mm) 15.3 in. (389 mm) 3 in. (80 mm) 4.0 in. (102 mm) 15.8 in. (401 mm) 4 in. (100 mm) 4.7 in. (119 mm) 16.2 in. (411 mm) *Add 11 lb (5 kg) for remote electronics Weight* 10.1 lb (4.6 kg) 11.9 lb (5.4 kg) 14.1 lb (6.4 kg) 22.7 lb (10.3 kg) 33.0 lb (15.0 kg) PanaFlow MV80 Ordering Information A - B - C -D- E - F - G - H - I - J - K Parent Number Code: MV80 In-line Multivariable Mass Vortex Flow Meter Feature 1: Multivariable Options V Volumetric flow meter for liquid, gas and steam VT Velocity and temperature sensors VTP Velocity, temperature and pressure sensors VT-EM Energy output options VTP-EM Energy options with pressure sensor VT-EP Velocity and temperature sensors with analog input for pressure VTEP- Energy option with external pressure sensor EM Feature 2: Flow Body 04 1/2-inch Nominal Bore (15 mm) 06 3/4-inch Nominal Bore (20 mm) 08 1-inch Nominal Bore (25 mm) 12 1.5-inch Nominal Bore (40 mm) 16 2-inch Nominal Bore (50 mm) 24 3-inch Nominal Bore (80 mm) 32 4-inch Nominal Bore (100 mm) 48 6-inch Nominal Bore (150 mm) 64 8-inch Nominal Bore (200 mm) 80 10-inch Nominal Bore (250mm) 96 12-inch Nominal Bore (300mm) Feature 3: Meter Body Material C Carbon Steel S 316 Stainless Steel H Hastelloy Feature 4: Process Connection 150 ANSI 150# Flange 300 ANSI 300# Flange 600 ANSI 600# Flange W Wafer ANSI 600# 16 PN 16 40 PN 40 64 PN 64 Feature 5: Electronics Enclosure L R (25) R (50) Type 4X enclosure Remote electronics Type 4X, 25 ft (8 m) cable Remote electronics Type 4X, 50 ft (8 m) cable Feature 6: Display Options DD Digital Display and Programming Buttons ND No Display Feature 7: Input Power DC2 DC4 AC DC4POE 12 to 36 VDC required on 2-wire (loop powered) meters with 1AHL only 12 to 36 VDC standard volumetric meter on 4-wire 100-240 VAC, 50/60 Hz 12-28 VDC or Power over Ethernet (5 Watts maximum), Requires TCP/ IP option *See on the next page PanaFlow MV80 Ordering Information A - B - C -D- E - F - G - H - I - J - K Feature 8: Output 1AHL 1AH 1AM 1AMIP 1AB 1ABIP 3AH 3AM 3AMIP 3AB 3ABIP Loop powered option - one analog output (4-20mA), one pulse, one frequency, HART (DC2 option only) 1AH One analog output (4-20mA), one alarm, one pulse, one frequency, HART (DC4 or AC option only) One analog output (4-20mA), one alarm, one pulse, one frequency, Modbus/RTU (DC4 or AC option only) One analog output (4-20mA), one alarm, one pulse, one frequency, Modbus TCP/IP (DC4POE option only) One analog output (4-20mA), one alarm, one pulse, one frequency, BACnet/MSTP (DC4 or AC option only) One analog output (4-20mA), one alarm, one pulse, one frequency, BACnet TCP/IP (DC4POE option only) Three analog output (4-20mA), three alarm, one pulse, one frequency, HART (DC4 or AC option only) Three analog output (4-20mA), three alarm, one pulse, one frequency, Modbus RTU (DC4 or AC option only) Three analog output (4-20mA), three alarms, one pulse, one frequency, Modbus TCP/IP (DC4POE option only) Three analog output (4-20mA), three alarm, one pulse, one frequency, BACnet/MSTP (DC4 or AC option only) Three analog output (4-20mA), three alarms, one pulse, one frequency, BACnet TCP/IP (DC4POE option only) Feature 9: Process Temperature Options ST Standard Process Temperature -40° to 500°F (-40° to HT 260°C) High Process Temperature up to 750°F (400°C) Feature 10: Process Pressure P0 No pressure sensor P1 Maximum 30 psia (2 bara), Proof 60 psia (4 bara) P2 Maximum 100 psia (7 bara), Proof 200 psia (14 bara) P3 Maximum 300 psia (20 bara), Proof 600 psia (41 P4 bara) P5 Maximum 500 psia (34 bara), Proof 1000 psia (64 bara) Maximum 1500 psia (100 bara), Proof 2500 psia (175 bara) MV80 - VTP - 24 - S - 300 - L - DD - AC - 3AM - ST - P1 (example part number string) Accessories The following accessories are available for the PanaFlow MV80 and may be ordered by adding the suffix listed in the table to the order string. Suffix PED MC PT CC NC O2 Description PED compliant system Material Certifications, US Mil certs on all wetted parts Pressure Test certificate Certificate of Conformance NACE Certification Oxygen cleaning Panametrics.com Copyright 2020. Baker Hughes Company. This material contains one or more registered trademark of Baker Hughes Company and its subsidiaries in one or more countries. All third-party product and company names are trademarks of their respective holders. 920-404HAdobe PDF Library 15.0