FH85 Metering Solution for Custody Transfer Applications One Step Ahead in Ultrasonic Flowmetering Main Applications Oil Production & Allocation FSO, FPSO Metering Tanker Off-loading Storage Management Pipeline Measurement
FH85 An Integrated and Cost-Effective Metering Solution Leading the market in liquid metering, FAURE HERMAN has developed an ultrasonic flowmeter for custody transfer applications of liquid hydrocarbons. The FH85 is suitable for the measurement of crude and refined products. FH85 features bring key technical advantages and excellent ROI for end-users. Key Technological Features Fully integrated electronics High speed data processing Optimized signal processing 18 ultrasonic paths covering the whole velocity profile No moving parts No pressure drops Insensitive to viscosity changes and swirls Infrared remote control Modbus communication Key Customer Advantages Fully integrated metering solution User-friendly advanced system High accuracy in accordance with OIML Recommendation R117 class.3 and API Standard, Chap. 5.8 Bi-directional measurement Insensitive to pressure surges Low installation costs Low total cost of ownership Ownership Costs Power Consumption Savings Extremely low pressure drop (filter + flow conditioner + meter) compared with turbine and PD meters minimizes power consumption. 1% cross section area eliminates need for filters Maintenance Cost Savings Meter sizes 1 bar pressure drop savings (14.5 PSI) 1kW.h=$.1 Number of operations per year
A Clear Concept Innovation V AB = L AB 2.cosθ x T - BA TAB T BA.TAB The innovative 18-path configuration Ultrasonic Transit Time Method The FH85 operates on the Ultrasonic Transit Time Method. This method uses the difference in propagation time between ultrasonic pulses transmitted along and against the flow from A to B and B to A. The average flow velocity V AB along AB is proportional to (T BA -T AB ). Protected Design The FH85 multi-path ultrasonic flowmeter is the only flowmeter that integrates 36 transducers generating 18 ultrasonic beams, providing a complete 3D view of the flow velocity profile. A Fully Integrated Electronics Tri-dimensional Transducer Thanks to a powerful integrated processing unit (using leading-edge digital technology), the FH85 offers an integrated and compact metering solution. The Flow Velocity Profile Compensation The average speed measured along the ultrasonic propagation path depends on the flow velocity profile. The FAURE HERMAN ultrasonic technology provides detailed information on the flow velocity profile. An accurate measurement of the flowrate can be achieved by rebuilding the whole flow velocity profile across the pipe.
FH85 High Accuracy Multi-Product Measurement FH85 meets or exceeds OIML R117. FH85 meets API International Measurement Standards for custody transfer applications. FH85 rangeability exceeds 1:1. FH85 covers a viscosity range from.2 to 5 cst*. * Please consult your FAURE HERMAN local representative for higher viscosities 1.1 1.75 1.5 1.25 1..9975.995.9925 6 FH85 Flowmeter Typical Curve Calibration Factors / Flowrates +.15 % -.15 %.99 87 55 175 1 1 262 1 65 35 2 2 437 2 75 525 3 3 612 3 85 7 4 4 m 3 /h BPH 1.6 cst 2 cst 5 cst 1 cst Turbulent and / or Laminar Flow Profiles Processing FAURE HERMAN s 18-path technology provides real-time information about the flow velocity profile and enables compensation of dissymetries. The FH85 performance corresponds to the Reynolds number of the measured product. One meter factor for one Reynolds number. 1.1 1.75 1.5 1.25 1..9975.995 6 FH85 Flowmeter Typical Curve Calibration Factors / Reynolds Number Laminar to turbulent transition +.15 % -.15%.9925.99 1 1 1 1 1.6 cst 2 cst 5 cst 1 cst
Swirls and Asymmetric Profiles Compensation Axial Flow Velocity Swirl component Swirl component Flow conditioner Flow Perturbation Test Results for a 6 FH85.5 1 D 6 FH85 Configuration 1 Butterfly valve (5 % closed) 6 FH85 1 D Configuration 2 Thanks to the unique FH85 tri-dimensional symmetric path configuration and software compensation, the flowmeter measurement accuracy is maintained within requirements when swirls and asymetric profiles are present in the pipe. Meter factor variations (%).4.3.2.1 -.1 -.2 -.3 -.4 Configuration 1 Configuration 2 2 %of swirls -.5 1 6 2 1 2 3 1 8 4 2 4 m 3 /h BPH 18-path Measurement Redundancy 1 FH85 Test Results with 1D straight line upstream 1,7 Flowrates The FH85 ultrasonic path configuration ensures the measurement accuracy is still in compliance with API recommendations for custody transfer applications after loosing one transducer. 1,5 1,3 Meter factor 1,1,999,997,995,993 5 3 1 6 1 5 9 2 12 18 paths 15 paths Flowrates m 3 /h BPH
FH85 FHview Communication Software I/O setting This screen gives access to the configuration of the analogue 4-2 ma inputs and outputs. Users can allocate one parameter, for example flowrate or VOS (Velocity of Sound), to each of them and adjust the operating range. The FHview Software FHview is the PC software for the configuration and operation of the FAURE HERMAN FH8 ultrasonic product line. The FH8 product line includes ultrasonic flowmeters for both fiscal and process applications. The communication between FHview and the FH8 uses MODBUS protocol via a RS485 serial link. Global parameters display This screen provides instantaneous information on the FH85 flow conditions such as gross flowrate, average VOS, etc. In addition, users get data relating to the operating status of meter, number of working beams, alarms, and average ultrasonic signal level. Measurement integrity This screen gives all necessary parameters relating to the 18 ultrasonic paths, VOF (Velocity of Flow), VOS and signal gain. These data allow the user to check the measurement integrity on each single beam. 3D Profile of Velocities Graph visualisation A range of functionalities is available to track and view average VOF, VOS and signal gain over time. Example of reconstruction of a 3D profile of Velocities using FH85 ultrasonic 18 paths. Data and events loggers Users can download and record data from the flowmeter with respect to the previously defined period of time. These data relate to the flowmeter parameters. Dated events such as alarms can be downloaded and recorded.
Remote Control and Local Display Number of operating beams Global parameters display Velocity of sound Totalizer Flowrate The unique intrinsically safe infrared remote control allows for noncontact communication and adjustment of display parameters and access to various configuration levels, and alarms management based on preset security levels. Local display The local display provides nonfiscal information about the flow conditions, flowrate, totalizer, VOS, etc. The display units can be modified by using either the configuration software or the infrared remote control. Meter Selection Flow Velocities D E C B The turndown ratio is determined on the basis of a flow velocity of 1 m/s to 1 m/s. The extended flow rate is determined on a velocity of 15 m/s. A Standard Dimensions: ANSI 15 to ANSI 6 RF Flanged Ultrasonic Flowmeter Sizes A B Standard Turndown Ratio Extended Flowrates Approx. Weights (ANSI 15) Overall Dimensions of Electronic Enclosures in. mm C D E 17.4 12.6 13.3 441 32 339 in. mm in. mm in. mm m 3 /h Bbl/h m 3 /h Bbl/h m 3 /h Bbl/h kg lbs 4 1 23. 584.2 13.8 35 3 18 3 1 8 45 2 7 125 275 6 15 26. 66.4 14.4 365 65 39 65 3 9 975 5 85 15 33 8 2 3. 762. 14.4 365 12 72 1 2 7 2 1 8 1 8 18 396 1 25 32. 812.8 14.6 37 18 1 1 1 8 11 2 7 16 2 215 473 12 3 35. 889. 15.6 395 25 1 5 2 5 15 3 75 22 5 27 594 14 35 37. 939.8 17.3 44 35 2 1 3 5 21 5 25 31 5 4 88 16 4 4. 116. 19.1 485 45 2 7 4 5 27 6 75 4 5 55 121 18 45 43. 1 92.2 19.3 489 6 3 6 6 36 9 54 75 1 43 2 5 46. 1 168.4 2.9 53 7 4 2 7 42 1 5 63 9 1 79 24 6 52. 1 32.8 26.2 665 1 6 1 6 15 9 1 2 264
Specifications Environment Ambient temperature range Process temperature range Climatic protection EMC Safety : ATEX II 2 G Transducer classification Enclosure classification Remote control Mechanical Pressure range Meter body materials Performances Accuracy Repeatability Fluid velocity range Viscosity range Density range - 4 to + 6 C (- 4 to + 14 F) - 45 to + 12 C (- 49 to + 248 F) IP 66, NEMA 4X EN 61 Ex m II T6 to T4 Ex diib T6 Ex ia IIC T4 ANSI 15 / 3 / 6 Carbon steel Low temperature carbon steel (upon request) Stainless steel 316 (upon request) Duplex ±.15 % (1:1) In compliance with API recommendations 1 m/s to 1 m/s (3.28 fts to 32.8 fts) (extended range upon request).2 to 5 cst (higher upon request) 4 to 1,5 kg/m 3 Electronics Enclosure material Power supply voltage frequency LCD Local Display Remote Control Type Dimensions Weight Power supply Inputs / Outputs Analog inputs Pulse outputs Analog outputs Serial link Approvals ATEX PED EMC Custody transfer Cast iron EN: GJL 2 11 to 22 Vac ± 15 % - 25 W 5/6 Hz Parameters back-up battery 4 lines x 2 characters Infrared with numeric keyboard (16 keys) 12 x 65 x 22 mm (14/3, 5/2, 13/15 ) 6 g 1or2Lithium battery 3.6 V 2 4-2 ma (pressure, temperature) 2 (with 9 phase shift) TTL (Vmax 5 Vdc, Imax 1mA, Fmax 2kHz) or Open collector (Umax 3 V, Imax 5 ma, Pmax 3 mw) 3 4-2 ma 2 Relay contacts (Alarms) 1 RS485 (Modbus) 94/9/EC compliant 97/23/EC compliant 24/18/EC compliant OIML R117-1 / MID (Class.3) and other national approvals (upon request) www.faureherman.com www.faureherman.com FAURE HERMAN - Route de Bonnétable - B.P. 2154-7246 La Ferté-Bernard Cedex - France FAURE HERMAN Tél.: - Route +33 de ()2 Bonnétable 43 6 28 - BP 6 2154 - Fax :- 7246 +33 ()2 La Ferté-Bernard 43 6 28 7 Cedex - France Tel. : + 33 ()2 43 6 28 6 - Fax : + 33 ()2 43 6 28 7 Direct Sales France - Tel. : +33 ()2 43 6 28 95 Fax : +33 ()2 43 6 28 89 E-mail : fhprojects@idexcorp.com E-mail : fhprojects@idexcorp.com / www.faureherman.com FAURE HERMAN METER METER Inc. - Inc. 6961 -Brookhollow 6961 Brookhollow West Drive West Suite Drive 1 - Houston Houston TX. TX. 774 (U.S.A.) (U.S.A.) Phone Phone : + 1713 : +1713 623 62388 Fax Fax : + : +1713 1713623 6232332 2332 - E-mail E-mail : FHH-Sales@idexcorp.com : FHH-Sales@idexcorp.com www.liquidcontrolsgroup.com TThis document is not contractual, Faure Herman maintains the right to modify certain characteristics without notice. Ref. 85A 12/211