Mass Flowmeter CoriolisMaster FCM2000
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1 Contents Data Sheet Mass Flowmeter CoriolisMaster FCM2000 Coriolis Mass Flowmeters are used for high precision measurement of mass flow and density. The fluid need not be electrically conductive. No moving parts, no wear, no maintenance Ex design acc. to ATEX / FM [USA] Transmitter with DSP technology - The latest digital filter technology assures detection of even the weakest sensor signals Operate using a magnet stick without opening the housing Simultaneous measurement of mass flow, volume flow, density, temperature and concentration Type-tested acc. to NAMUR Options: - Expanded density calibration with temperature compensation - Pressure-resistant housing - EHEDG-certified - Concentration measurement P R O F I PROCESS FIELD BUS B U S 4-wire Compact Design Digital Signal Processor Transmitter Technology
2 Contents Overview of flowmeter and transmitter designs...3. ATEX and IECEx device overview FM device overview (PID: 30526) General information Installation Requirements Model FCM2000-MC Specifications Dimensions Ordering information Model FCM2000-MS Specifications Dimensions Ordering information Transmitter Specifications Concentration measurement DensiMass Inputs/outputs Digital Communication Electrical connections Dimensions Ordering information Ex relevant specifications Questionnaire
3 Overview of flowmeter and transmitter designs MC2 MS2 G0036 Standard Hygienic (EHEDG) Standard Flowmeter sensor Model number MC2 MC2 _ 3 MS2 DN PN DN PN DN PN Flange DIN 250/EN /5 40/00 Flange ASME B6.5 /2... 6" CL CL 600 /2" CL CL 600 Threaded pipe connection DN 5... DN 00 (/2... 4") DN DN 80 (3/4... 3") DN 0 (3/8") conforming to DIN 85 Tri-Clamp DIN (ISO 2852) DN 5... DN 00 (/2... 4") DIN (ISO 2852) DN DN 80 (3/4... 3") DIN (ISO 2852) DN 0 (3/8") Aseptic flange DIN DN 5... DN 00 (/2... 4") DN DN 80 (3/4... 3") "G" threaded pipe connection /4" NPT threaded pipe connection /4" Accuracy of mass flowrate 0. %/0.5 %/0.25 %/0.4" 0. %/0.5 %/0.25 %/0.4" 0.5 %/0.25 %/0.4" Accuracy of density kg/l, 0.00 kg/l kg/l, 0.00 kg/l 0.0 kg/l Accuracy of temperature K K K Materials in contact with fluid Stainless steel Hastelloy C-4 Stainless steel.4435 (36L) Stainless steel.4435 (36L), Hastelloy C-22 Protection class acc. to EN IP 67 IP 67 IP Fluid temperature (see Section 3/4 of the data sheet, Section 0 of the operating instructions) C ( F) C ( F) C ( F) Approvals Explosion protection conforming to ATEX, IEC (KEM 08 ATEX 050X/05X), (IECEx KEM X) FM explosion protection (PID: 30526) Other approvals for potentially explosive areas Hygienic and sterile requirements Transmitter Zone 0//2 Dust-ignition-proof Zone 0//2 Dust-ignition-proof G0044 Zone (ATEX only) Class I Div. Class I Div. 2 Class I Div. Class I Div. 2 Please contact our sales Please contact our sales Please contact our sales organization organization organization FDA FDA, EHEDG FDA Model number ME2_/MC23, MC27 ME2_ Housing Separate, field-mount housing/compact housing Separate, field-mount housing Cable length Up to 50 m (64 ft.); 300 m (984 ft.) on request 5, 0, 20, or 50 m (6, 32, 65, or 64 ft.) Supply power V AC, 24 V AC/DC Current output Active: 0/ ma or passive: ma Current output 2 Passive: ma Pulse output Active (non-ignition-proof) or passive Ext. output switch-off Yes Ext. totalizer reset Yes Forward/reverse flow metering Yes Communication HART protocol, PROFIBUS PA, FOUNDATION Fieldbus Pipe empty detection Yes, based on preconfigured density alarm < 0.5 kg/l Self-monitoring, diagnostics Yes On-site display/totalization Yes Field optimized flow/density Yes Protection class acc. to EN ME2: IP 65/67, NEMA 4X MC : IP 67, NEMA 4X G0035 3
4 . ATEX and IECEx device overview Standard/Non-Ex Zone 2/2, 22 Zone /2 Type MC23 A, U MC23 M, N MC27 B, E. Compact design Standard/non-Ex Ex Zone 2/2, 22 Ex Zone /2 Type ME2 A, U MC2 A, U ME26 B, E MC26 B, E 2. Separate design Transmitter and flowmeter sensor Standard/non-Ex Ex Zone /2 Type ME2 A, U MC2 M, N MC26 B, E 3. Separate design Transmitter Standard/non-Ex Flowmeter sensor Ex Zone /2 Ex Zone 2/2, 22 Type ME22 A, U... MS2 A, U ME27/28 B, E MS26 B, E 4. Separate design (small nominal sizes) Transmitter and flowmeter sensor Standard/non-Ex Ex Zone 2/2, 22 Ex Zone /2 Type ME24/25 A, U... MS26 B, E 5. Separate design (small nominal sizes) Transmitter Standard/non-Ex Ex Zone 2/2, 22 Flowmeter sensor Ex Zone /2 G00387 Fig. : FCM2000 overview 4
5 .2 FM device overview (PID: 30526) FM installation Class I, Div. /Div. 2 Class I, Div. Area, Zone Class I, Div. 2 Area, Zone 2 General purpose / Safe Area MC27C MC23O MC23T ME2T MC2T ME2O ME2T MC2O G00332 Fig. 2 5
6 2 General information Change from one to two columns The FCM2000 is ABB's economical and uncomplicated mass flowmeter, featuring the new DSP transmitter, either integrated in the flowmeter or mounted separately from it. The compact unit reduces installation and cabling expenditure. Flowrate information can be viewed directly at the meter site and the meter can be installed in systems in an even more space-saving manner than is currently possible. The FCM2000 operates according to the Coriolis principle. The design offers the following benefits: Space-saving, rugged design. Wide flow measuring range; meter size "S" (DN.5 [/6"]) to meter size "L" (DN 50 [6"]). Variety of process connection options. Two separate current outputs for measuring mass or volume flowrate, density, or temperature, as well as one pulse output. Contact inputs and outputs. HART protocol, PROFIBUS PA, FOUNDATION Fieldbus. Ex approval: The user can select the "i" or "e" type of protection for the output circuits; the type chosen will depend on the circuits which are connected. The type of protection can be changed after installation has been completed. The contact outputs can be configured as NAMUR outputs by the user. Permissible fluid temperature up to 200 C (392 F), CIP-enabled Illuminated, 2-line display with data entered using a magnet stick and without opening the housing. Certified acc. to EHEDG. Mass transmitter with digital signal processor (DSP) The transmitter for the FCM2000 incorporates a digital signal processor (DSP) that enables high-precision mass flow and density measurements to be made. The Coriolis sensor signals are immediately converted into digital data without any intermediate analog steps. Excellent long-term stability and reliability together with fast signal processing are achieved with the new DSP transmitter. Self-diagnostic functions for the flowmeter sensor and the transmitter, in combination with absolute zero stability, are benefits you can count on to ensure accurate measurements are taken. The FCM2000 transmitter is particularly well suited for use in the following cases: When mass flowrate is to be metered to the highest degree of accuracy. When the fluid density is to be determined. When the components of a recipe are to be mixed together. When metering non-conductive fluids or highly viscous, solidloaded liquids, for example. In batch filling systems. 2. Installation Requirements 2.. General information Change from one to two columns Inspection Before installing the flowmeter sensor, check for physical damage due to possible improper handling during shipment. All claims for damage are to be made promptly to the shipper. Installation Requirements / System Sizing Information The FCM2000 is suitable for both indoor and outdoor installations. The standard instrument meets the requirements of Protection Class IP 67. The primary is bidirectional and can be installed in any orientation. It is important to ensure that the meter pipes are always completely filled with fluid. The corrosion resistance of the fluid wetted materials must be evaluated. The following points are to be considered during installation: The preferred flow direction is indicated by the arrow on the flowmeter sensor. Flow in this direction will be indicated as positive (a forward/reverse flow calibration is available as on option). Installation position The FCM2000 operates in any orientation. The optimal installation orientation is vertical with the flow upwards. Supports In order to support the weight of the flowmeter sensor and to ensure reliable measurements when adverse external effects exist (e. g., vibrations), the primary should be installed in rigid pipelines. Two supports or hangers should be installed symmetrically and stress free in close proximity to the in- and outlet process connections. Shut Off Devices To conduct a system zero adjustment, shut off devices are required in the pipeline: - in horizontal installation at the outlet, - in vertical installation at the inlet. When possible, shut off devices should be installed both up- and downstream from the flowmeter sensor. Inlet Straight Sections The mass meter does not require any flow conditioning inlet straight sections. Care should be exercised to ensure that any valves, gates, sight glasses, etc., do not cavitate and are not set into vibration by the flowmeter sensor. 6
7 System Design Information The presence of gas bubbles in the fluid can result in erroneous measurements, particularly in the density measurement. Therefore the flowmeter sensor should not be installed at the highest point in the system. Advantageous are installations in low pipeline sections, e. g., at the bottom of a U-section in the pipeline (invert). Long drop lines downstream from the flowmeter sensor should be avoided to prevent the meter tube from draining. Installation should be performed as stress free as possible. The flowmeter sensor should not come in contact with any other objects. Attachments to the housing are not permissible. When the cross-section of the connecting pipeline is larger than the flowmeter sensor size, suitable standard reducers should be installed. If strong vibrations exist in the pipeline, they should be damped using elastic pipeline elements. The damping devices must be installed beyond the supported flowmeter section and outside of the section between the shut off devices. The direct connection of flexible elements to the flowmeter sensor should be avoided. Care should be exercised to ensure that any dissolved gases, which may be present in many liquids, do not outgas. The back pressure at the outlet should be at least 0.2 bar (2,9 psi). Ensure that operation below the vapor pressure cannot occur when a vacuum exists in the meter tube. The flowmeter sensor should not be installed in the vicinity of strong electromagnetic fields, e. g., near motors, pumps, transformers etc. When operating more than one meter in one or multiple interconnected pipelines, the flowmeter primaries should be spaced distant from each other or the pipelines should be decoupled to prevent cross talk. Request information about special installation conditions for meter size "L". Zero balance In order to adjust the zero under operating conditions, it must be possible to reduce the flowrate "ZERO" while the meter tube remains completely filled. A bypass line is optimal when the process cannot be shut down. It is important for accurate measurements that during the zero adjustment there are no gas bubbles in the flowmeter sensor. It is also important that the pressure and temperature in the meter tube be the same as those which exists during operation. B A G003 Fig. 3: Vibrations G0036 Fig. 4: Zero point adjustment with bypass line 7
8 2..2 Installation notes for FCM2000-MC2 Horizontal Installations, Self Draining Vertical installation position The optimal installation orientation is a vertical installation with an upward flow as shown in Fig. 5. This has the advantage that any solids contained in the fluid will settle downward and any gas bubbles will move upward out of the meter tube when the flowrate is zero. Additionally, it is easy to drain the meter tube. Deposits can thereby be avoided. G00304 Fig. 7: Horizontal Installations, Self Draining, α 2-4 Installation in a Drop Line The installation recommendation shown in Fig. 8 is only permissible if a pipeline reduction or orifice with a smaller cross-section can be installed to prevent the flowmeter sensor from partially draining during the measurements. Fig. 5: G00302 Vertical installation position, self-draining (flow upwards) Horizontal Installation Orientations Fig. 6: Horizontal Installation Orientations G G00305 Fig. 8: Installation in a Drop Line Supply reservoir 2 Flowmeter sensor 3 Orifice/pipe constriction 4 Valve 5 Product reservoir 8
9 Difficult Installation Conditions The accumulation of air or gas bubbles in the meter pipe can lead to increased inaccuracies. Fig. Fig. 9 shows critical installation conditions. Installations at the highest point in the pipeline (Figure A) can result in the formation of air pockets which can lead to appreciable inaccuracies. Another difficult installation condition is immediately upstream of a free discharge (Figure B) in a drop line. A 2..3 Installation notes FCM2000-MS2 Installing the flowmeter sensor DN.5 (/6 ) Horizontal installation is recommended. If vertical installation is required, a flow direction from below to above is recommended for better elimination of air bubbles. In order for air to be removed from the flowmeter sensor, the flow speed in the flowmeter sensor must be at least m/s. If the fluid contains solid particles, especially in conjunction with too little flow, a level installation location of the flowmeter sensor and positioning of the input flange completely on top is recommended so that the particles can be more easily flushed out. In order to avoid a partial emptying of the flowmeter sensor, a sufficient back pressure must be present at the unit (min bar/( psi)). Install the flowmeter sensor in a vibration-free manner to a wall or a steel frame. Position the flowmeter sensor at a low location in the system in order to avoid a negative pressure in the flowmeter sensor, that could lead to air or gas separation in the fluid. Ensure that the flowmeter sensor is not run empty (in the normal operation) as this can lead to inaccurate measurements. Horizontal B G00307 Fig. 9: Difficult Installation Conditions G00306 Vertical Important: Check whether the coordination flowmeter sensor and transmitter is correct. Compatible devices have the same end numbers, e. g., X00 and Y00 or X002 and Y002, on the type plate. Pressure losses The pressure losses, at the operating conditions, depends on the fluid and the actual flow. To calculate the pressure loss, the design program CD-CALC is provided. Fig. 0 G
10 High temperature version In the high temperature design the multi-connection plug is separated from the sensor housing by a pipe. Thereby the plug can still be accessed even when the sensor is insulated. - Angle multi-connection plug, vertical A specific orientation of the connection box is not prescribed for vertical installations, although the rotation of the sensor may not exceed the value shown. ± 90 ± 45 G00374 Fig. : Installation DN.5 (/6 ) vertical G0037 Important If there are large differences between the fluid and ambient temperature the sensor must be insulated, to prevent two phase flow and accuracy effects. This is especially important for low flowrates. The sensor must always be completely filled with homogeneous liquid or a single phase gas, otherwise the accuracy could be adversely affected. For air/gas in volatile fluids horizontal installations are recommended. Fig. 4: Angle multi-connection plug vertical Installing flowmeter sensor DN3/DN6 (/0 / /4") A horizontal installation position is recommended for light flow, since air bubbles are easier to remove in this position. If the liquid is volatile or contains solid particles, vertical installation is not recommended. Horizontal - + The mounting bracket included with the shipment should always be used. The bracket should be secured to a wall or a steel framework (vibration free and mechanically stable). 0mm Vertical G mm (0,08 ) G00372 Fig. 2: Installation DN.5 (/6 ) horizontal Angle multi-connection plug, horizontal To achieve optimum performance, the multi-connection plug is to be installed as shown in the figure. The multi-connection plug can be rotated within the angle noted. + ±5 ±5 G00373 Fig. 3: Angle multi-connection plug horizontal Fig. 5 G0030 0
11 Change from one to two columns Mass Flowmeter CoriolisMaster FCM2000 Change from one to two columns 3 Model FCM2000-MC2 3. Specifications Operating temperature effect Less than ± % of Q max / K Reproducibility of flowrate at rates > 5 % of Q max 0.0 % of flow rate for nom. deviation ± 0. % 0.5 % of flow rate for nom. deviation ± 0.25 % and 0.4 % Measuring range for density kg/dm 3 Fig. 6: FCM2000-MC2 flowmeter sensor Nominal sizes "E" (DN 20); "F" (DN 25); "G" (DN 40); "H" (DN 50); "I" (DN 65); "J" (DN 80); "K" (DN 00); "L" (DN 50) Measuring ranges for flowrate Nominal size Max. measuring range [Q max ] in [kg/min] "E" DN 20 (3/4") "F" DN 25 (") "G" DN 40 ( /2") "H" DN 50 (2") "I" DN 65 (2 0...,890 /2") "J" DN 80 (3") ,460 "K" DN 00 (4") ,60 "L" DN 50 (6") 0...,000 G0036 Measured value deviation for density Standard calibration ± 5 g/l Expanded density calibration ± g/l For separate designs, the signal cable is already calibrated and may not be either shortened or lengthened subsequently. The transmitter is calibrated accordingly and may not be changed. Reproducibility of density ± 0. g/l Measured value deviation for temperature C ( F) < C (33.8 F) For the precise temperatures for units with Ex approval, refer to the "Ex relevant specifications" section. If the ambient temperature is below -20 C (-4 F), additional flowrate, density, and temperature deviations are to be expected. Protection class: IP 65/IP 67, NEMA 4X Measured value deviation for flowrate DN 20 (3/4") to DN 65 (.5") (sizes "E", "F", "G", "H", "I") ± 0.4 % of flow rate % of Q max ± 0.25 % of flow rate % of Q max ± 0.5 % of flow rate % of Q max ± 0. % of flow rate % of Q max (not for size "E") (deviation from rate + zero error) Measured value deviation for flowrate DN 80 (3") and DN 00 (4") (sizes "J", "K") ± 0.4 % of flow rate % of Q max ± 0.25 % of flow rate % of Q max ± 0. % of flow rate % of Q max ± 0.5 % v. M % v. Q max (deviation from rate + zero error) Measured value deviation for flowrate DN 50 (6") (size "L") ± 0.4 % of flow rate ± 0.05 % of Q max ± 0.25 % of flow rate ± 0.05 % of Q max ± 0.5 % of flow rate ± 0.05 % of Q max ± 0. % of flow rate ± 0.05 % of Q max
12 3.. Reference conditions Calibration fluid Water 25 C (77 F) (+ 5 K/- 5 K) Pressure bar ( psi) Ambient temperature 25 C (77 F) (+ 0 K/- 5 K) Supply power Line voltage as per name plate U N ± % Warm-up phase 30 minutes Installation according to this specification No visible gas phase, no external mechanical or hydraulic disturbances, particularly cavitation Output calibration Pulse output Effect of the analog output on the measurement accuracy Similar to pulse output ± 0. % of measured value 3..2 Materials and additional specifications Flowmeter sensor materials Parts in contact with fluid Stainless steel.457/.4308 (36Ti/CF8) Stainless steel.4435/36l Hastelloy C-4/2.460 With flowmeter sensor material.4435 cert. acc. to EHEDG Option: Manufactured acc. to NACE MR075 (ISO 556) Housing Stainless steel.430/.4308 (304/CF8) Process connections Flange DIN/ASME Tri-clamp DIN (ISO 2852) - DN 5... DN 50 (/2... 2"): series 3 - DN DN 00 (2 /2... 4"): series Threaded pipe connection conforming to DIN 85 The max. permissible operating pressure is determined by the respective process connection, the fluid temperature, the screws, and the gasket material. Pressure rating PN 6, PN 40, PN 00 (up to DN 80 [3"]) CI 50, CI 300, CI 600 (up to DN 80 [3"]) Housing as protective device (optional) Max. 40 bar (580 psi) Pressure Equipment Directive 97/23/EC Conformity assessment in accordance with Category III, fluid group, gas Take into consideration the corrosion resistance of the meter tube materials as regards the measuring fluid. EHEDG-approved unit versions The appropriate installation conditions must be observed in order to achieve an installation that complies with hygiene requirements. The process connection/gasket combination created by the operator is particularly important too. Therefore, to ensure that the installation complies with hygiene requirements, only parts that conform to EHEDG stipulations (EHEDG Position Paper "Hygienic Process connections to use with hygienic components and equipment") may be used. Transmitter materials Housing Alloy casting, varnished Mid-section: RAL 702 Cover: RAL 9002 Paint coat: µm thickness Fluid temperature Standard: C ( F) The relevant ambient temperatures for use in a potentially explosive area can be found in the corresponding chapter. Ambient temperature C ( F); opt C ( F) The relevant ambient temperatures for use in a potentially explosive area can be found in the corresponding chapter. 2
13 Material load for process connections Process connection Threaded pipe connection conforming to DIN 85 Tri-Clamp conforming to DIN Nominal size DN (/2... /2") (2... 4") (/2... 2") (2 /2... 4") PS max [bar] TS max [ C] TS min [ C] Pressure [mbar] E F G H I J K L Material load curves for flanged units Pressure [bar] PN PN PN PN Pressure [psi] 0, G0034 Mass flowrate [kg/min] Fig. 9: Pressure loss curve FCM2000-MC2; measured with water, viscosity mpa s Viscosity range Max. dyn. viscosity: Pas (=,000 mpas =,000 cp) At higher viscosities, please contact our ABB representatives [ C] [ F] 0 G0032 Temperature Fig. 7: DIN flange SS.457 to DN 50 (6") CI Pressure [bar] CI CI Pressure [bar] [ C] [ F] Temperature C Fig. 8: ASME flange SS.457 to DN 50 (6") 0 G0033 3
14 Change from one to two columns Mass Flowmeter CoriolisMaster FCM Dimensions 3.2. Design MC2 Remote design, flanged construction "E" to "F", DIN/ASME 80 (3,5) 80 (3,5) ØA F G B L -5 2 G00339 Fig. 20: Dimensions in mm (inch) Flange DIN 2635 / ASME / ISO 7005 (connecting dimensions for ASME flanges acc. to ASME B6.5 (ANSI)) 2 Flow direction Meter size DN Process connection DIN 2635 PN 40 DN 5 (/2 ) 693 (27.28) 598 (23.54) DN 25 ( ) 698 (27.48) DN 20 (3/4 ) 758 (29.84) 658 (25.9) DN 40 ( /2 ) 808 (3.8) E (20) DN 20 (3/4 ) F (25) DN 25 ( ) All dimensions in mm (inch) DIN 2636 PN (27.76) DIN 2637 PN (27.76) 735 (28.94) 735 (28.94) 693 (27.28) 840 (33.07) 693 (27.28) 840 (33.07) L -5 G F B Ø A ASME CL (27.87) 68 (24.33) 728 (28.66) 778 (30.63) 688 (27.09) 838 (32.99) ASME CL (28.27) 628 (24.72) 738 (29.06) 788 (3.02) 698 (27.48) 855 (33.66) ASME CL (28.74) 645 (25.39) 753 (29.65) 802 (3.57) 70 (27.95) 868 (34.7) DIN form A ) 672 (26.46) 583 (22.95) 683 (26.89) 743 (29.25) 643 (25.3) 786 (30.94) 358 (4.09) 358 (4.09) 27 (5.00) 27 (5.00) 66 (2.60) 66 (2.60) 89 (3.50) 89 (3.50) Weight kg (lb) 5 (33.) 5 (33.) 6 (35.3) 6 (35.3) 6 (35.3) 9 (4.9) ) Antiseptic grooved flange DIN 864-2, form A, for pipes acc. to DIN 866 4
15 Remote design, flanged construction "G" to "L", DIN/ASME 80 (3,5) 80 (3,5) A G F 2 B L -5 G00340 Fig. 2: Dimensions in mm (inch) Flange DIN 2635 / ASME B6.5 / ISO 7005 (connecting dimensions for ASME flanges acc. to ASME B6.5 (ANSI)) 2 Flow direction 5
16 Meter size DN Process connection DIN 2633 DIN 2635 DIN 2636 DIN 2637 PN 6 PN 40 PN 64 PN 00 DN 25 ( ) G (40) DN 40 ( /2 ) DN 50 (2 ) DN 40 ( /2 ) H (50) DN 50 (2 ) I (65) J (80) DN 65 (2 /2 ) DN 50 (2 ) DN 65 (2 /2 ) DN 80 (3 ) DN 65 (2 /2 ) DN 80 (3 ) DN 00 (4 ) DN 80 (3 ) K (00) DN 00 (4 ) DN 50 (6 ) L (50) DN 50 (6 ) All dimensions in mm (inch) 450 (57.09) 450 (57.09) 736 (68.35) 2000 (78.74) 879 (34.6) 780 (30.7) 940 (37.0) 045 (4.4) 940 (37.0) 00 (43.3) 220 (48.03) 00 (43.3) 220 (48.03) 330 (52.36) 220 (48.03) 480 (58.27) 640 (64.57) 480 (58.27) 776 (69.92) 2040 (80.3) 94 (35.98) 83 (32.0) 967 (38.07) 078 (42.44) 967 (38.07) 32 (44.57) 248 (49.3) 32 (44.57) 248 (49.3) 362 (53.62) 248 (49.3) 494 (58.82) 668 (65.67) 494 (58.82) 86 (7.50) 2080 (8.89) 94 (35.98) 83 (32.0) 979 (38.54) 078 (42.44) 979 (38.54) 48 (45.20) 259 (49.57) 48 (45.20) 260 (49.6) 378 (54.25) 260 (49.6) 530 (60.24) 680 (66.4) 530 (60.24) L -5 G F B A ASME CL (35.83) 80 (3.89) 970 (38.9) 075 (42.32) 970 (38.9) 28 (47.95) 250 (49.2) 28 (47.95) 240 (48.82) 365 (53.74) 240 (48.82) 500 (59.06) 660 (65.35) 500 (59.06) ASME ASME DIN CL 300 CL 600 form A ) 922 (36.30) 825 (32.48) 980 (38.58) 090 (42.9) 980 (38.58) 228 (48.35) 260 (49.6) 228 (48.35) 260 (49.6) 375 (54.3) 260 (49.6) 520 (59.84) 680 (66.4) 520 (59.84) (7.0) (7.89) (8.50) (82.28) 932 (36.69) 843 (33.9) 00 (39.4) 08 (43.62) 00 (39.4) 248 (49.3) 28 (50.43) 249 (49.7) 282 (50.47) 396 (54.96) 282 (50.47) 568 (6.73) 702 (67.0) 568 (6.73) 864 (34.02) 76 (29.96) 98 (36.4) 025 (40.35) 98 (36.4) 08 (42.56) 97 (47.3) 08 (42.56) 200 (47.24) 30 (5.57) 200 (47.24) 463 (57.60) 68 (63.70) 463 (57.60) 374 (4.72) 403 (5.87) 429 (6.89) 456 (7.95) 500 (9.69) 63 (24.3) 29 (5.08) 48 (5.83) 64 (6.46) 86 (7.32) 25 (8.46) 285 (.22) 64 (2.52) 80 (3.5) 97 (3.82) 08 (4.25) 3 (5.6) 90 (7.48) 90 (3.54) 0 (4.33) Wt. kg (lb) 20 (44.) 22 (48.5) 23 (50.7) 32 (70.5) 34 (75.0) 38 (83.8) 43 (94.8) (5.2) (05.8) 50 (0.2) 56 (23.5) (5.5) (27.9) 69 (52.) (6.69) (85.2) 9 (200.6) 20 (264.6) (9.84) (529.) ) Antiseptic grooved flange DIN 864-2, form A, for pipes acc. to DIN 866 6
17 Dimensions, remote design, food industry fitting "E" to "F", DIN (3,5) 80 (3,5) R G F A B L -5 2 g G0034 Fig. 22: Dmensions in mm (inch) Food industry fitting acc. to DIN 85 (threaded connector) 2 Flow direction Meter Size DN Process connection L -5 g G F B Ø A R Weight kg (lb) DN 5 / /2" Rd 34 x /8 672 (26.46) 4 (0.6) 52 (5.98) "E" (20) DN 20 / 3/4" Rd 44 x /6 583 (22.95) 6 (0.24) 358 (4.09) 27 (5.00) 66 (2.60) 89 (3.50) 02 (4.02) 3 (28.7) DN 25 / " Rd 52 x /6 683 (26.89) 7 (0.28) 52 (5.98) DN 20 / 3/4" Rd 44 x /6 743 (29.25) 6 (0.24) 62 (6.38) "F" (25) DN 25 / " Rd 52 x /6 643 (25.3) 7 (0.28) 358 (4.09) 27 (5.00) 66 (2.60) 89 (3.50) 2 (4.4) 4 (30.9) DN 40 / /2" Rd 65 x /6 786 (30.94) 7 (0.28) 85 (7.28) All dimensions in mm (inch) If this connection is supplied with an EHEDG-certified device, the device nominal sizes must correspond with the connection nominal sizes! 7
18 Remote design, food industry fitting "G" to "K", DIN (3,5) 80 (3,5) R F G A B L -5 2 L g G00342 Fig. 23: Dimensions in mm (inch) Food industry fitting acc. to DIN 85 (threaded connector) 2 Flow direction Meter Size DN Process connection L -5 g G F B A R Weight kg (lb) DN 25 / (") Rd 52 x /6 864 (34.02) 7 (0.28) 28 (8.58) 6 (35.3) G (40) DN 40 / ( /2") Rd 65 x /6 76 (29.96) 7 (0.28) 374 (4.72) 29 (5.08) 64 (2.52) 90 (3.54) 64 (6.46) 8 (39.7) DN 50 / (2") Rd 78 x /6 98 (36.4) 7 (0.28) 24 (9.49) 9 (4.9) DN 40 / ( /2") Rd 65 x /6 025 (40.35) 7 (0.28) 233 (9.7) 28 (6.7) H (50) DN 50 / (2") Rd 78 x /6 98 (36.4) 7 (0.28) 403 (5.87) 48 (5.83) 80 (3.5) 0 (4.33) 77 (6.97) 30 (66.) DN 65 / (2 /2") Rd 95 x /6 08 (42.56) 8 (0.3) 254 (0.00) 34 (75.0) DN 50 / (2") Rd 78 x /6 97 (47.3) 7 (0.28) 29 (.46) 40 (88.2) I (65) DN 65 / (2 /2") Rd 95 x /6 08 (42.56) 8 (0.3) 429 (6.89) 64 (6.46) 97 (3.82) 30 (5.2) 227 (8.94) 44 (97.0) DN 80 / (3") Rd 0 x /4 200 (47.24) 8 (0.3) 28 (.06) 47 (03.6) DN 65 / (2 /2") Rd 95 x /6 30 (5.57) 8 (0.3) 39 (2.56) 54 (9.0) J (80) DN 80 / (3") Rd 0 x /4 205 (47.44) 8 (0.3) 456 (7.95) 86 (7.32) 08 (4.25) 40 (5.5) 258 (0.6) 56 (23.5) DN 00 / (4") Rd 30 x /4 463 (57.60) 0 (0.39) 38 (5.00) 60 (32.3) K (00) DN 80 / (3") Rd 0 x /4 68 (63.70) 8 (0.3) 40 (5.79) 82 (80.8) DN 00 / (4") Rd 30 x /4 463 (57.60) 0 (0.39) 500 (9.69) 25 (8.46) 3 (5.6) 70 (6.69) 34 (2.36) 86 (89.6) All dimensions in mm (inch) If this connection is supplied with an EHEDG-certified device, the device nominal sizes must correspond with the connection nominal sizes! 8
19 Remote design, tri-clamp "E" to "F", DIN (ISO 2852) 80 (3,5) 80 (3,5) R ØA G F B L -5 G00343 Fig. 24: Flow direction Dimensions in mm (inch) Meter Size DN Process connection L -5 G F B Ø A R Weight kg (lb) DN 5 (/2) 656 (25.83) 40 (5.5) 2 (26.5) E (20) DN 20 (3/4 ) DIN (22.09) 358 (4.09) 27 (5.00) 66 (2.60) 89 (3.50) 92 (3.62) DN 25 ( ) 66 (26.02) 42 (5.59) DN 20 (3/4 ) 72 (28.39) 52 (5.98) F (25) DN 25 ( ) DIN (24.45) 358 (4.09) 27 (5.00) 66 (2.60) 89 (3.50) 02 (4.02) DN 40 ( /2 ) 773 (30.43) 80 (7.09) All dimensions in mm (inch) 3 (28.7) If this connection is supplied with an EHEDG-certified device, the device nominal sizes must correspond with the connection nominal sizes! 9
20 Remote design, tri-clamp "G" to "K", DIN (ISO 2852) 80 (3,5) 80 (3,5) R F A G B L -5 G00344 Fig. 25: Flow direction Dimensions in mm (inch) Meter Size DN Process connection fitting L -5 ± 3 G F B A R Weight kg (lb) DN 25 ( ) 842 (33.5) 242 (9.53) 7 (37.5) G (40) DN 40 ( /2 ) 748 (29.45) 374 (4.72) 29 (5.08) 64 (2.52) 90 (3.54) 95 (7.68) 7 (37.5) DN 50 (2 ) 93 (35.94) 278 (0.94) 8 (39.7) DN 40 ( /2 ) 02 (39.84) 275 (0.83) 27 (59.5) H (50) DN 50 (2 ) 93 (35.94) 403 (5.87) 48 (5.83) 80 (3.5) 0 (4.33) 225 (8.86) 26 (57.3) DN 65 (2 /2 ) 073 (42.24) 305 (2.0) 27 (59.5) DN 50 (2 ) 92 (46.93) 335 (3.9) 36 (79.4) I (65) DN 65 (2 /2 ) 073 (42.24) 429 (6.89) 64 (6.46) 97 (3.82) 30 (5.2) 275 (0.83) 37 (8.6) DN 80 (3 ) 80 (46.46) 328 (2.9) 38 (83.8) DN 65 (2 /2 ) 302 (5.26) 378 (4.88) 45 (99.2) J (80) DN 80 (3 ) 80 (46.46) 456 (7.95) 86 (7.32) 08 (4.25) 40 (5.5) 296 (.65) 44 (97.0) DN 00 (4 ) 448 (57.0) 430 (6.93) 46 (0.4) K (00) DN 80 (3 ) 598 (62.9) 500 (9.69) 25 (8.46) 3 (5.6) 70 (6.69) 440 (7.32) 7 (56.5) DN 00 (4 ) 448 (57.0) 365 (4.37) 69 (52.) All dimensions in mm (inch) If this connection is supplied with an EHEDG-certified device, the device nominal sizes must correspond with the connection nominal sizes! 20
21 3.2.2 Design MC23 / MC26 / MC27 compact design or remote Ex design Flanged construction "E" to "F", DIN/ASME 200 (7,87) 80 (3,5) F Ø 34 (5,27) G ØA 2 B L -5 G00333 Fig. 26: Dimensions in mm (inch) Flange DIN 2635 / ASME B6.5 / ISO 7005 (connecting dimensions for ASME flanges acc. to ASME B6.5 (ANSI)) 2 Flow direction Meter Size DN A F B G Process L -5 connection DN MC23 MC26/ MC27 DIN 2635 PN 40 DIN 2636 PN 64 DIN 2637 PN 00 ASME CL 50 ASME CL 300 ASME CL 600 DIN form A ) Weight kg (lb) 20 ( E ) 25 ( F ) 89 (3.50) 89 (3.50) 27 (5) 27 (5) 66 (2.60) 66 (2.60) 470 (8.50) 470 (8.50) 494 (9.45) 494 (9.45) 5 (/2 ) 20 (3/4 ) 25 ( ) 20 (3/4 ) 25 ( ) 40 ( /2 ) 693 (27.28) 598 (23.54) 698 (27.48) 758 (29.84) 658 (25.9) 808 (3.8) 705 (27.76) 705 (27.76) 708 (27.87) 68 (24.33) 735 (28.94) 735 (28.94) 728 (28.66) 778 (30.63) 693 (27.28) 840 (33.07) 693 (27.28) 840 (33.07) 688 (27.09) 838 (32.99) 78 (28.27) 628 (24.72) 738 (29.06) 788 (3.02) 698 (27.48) 855 (33.66) 730 (28.74) 645 (25.39) 753 (29.65) 802 (3.57) 70 (27.95) 868 (34.7) 672 (26.46) 583 (22.95) 683 (26.89) 743 (29.25) 643 (25.3) 786 (30.94) All dimensions in mm (inch) ) Antiseptic grooved flange DIN 864-2, form A, for pipes acc. to DIN 866 2
22 Flanged construction "G" to "L", DIN/ASME 200 (7,87) 80 (3,5) F A G Ø 34 (5,27) 2 B L -5 G00334 Fig. 27: Dimensions in mm (inch) Flange DIN 2635 / ASME B6.5 / ISO 7005 (connecting dimensions for ASME flanges acc. to ASME B6.5 (ANSI)) 2 Flow direction 22
23 Meter Size DN 40 ( G ) 50 ( H ) 65 ( I ) 80 ( J ) 00 ( K ) 50 ( L ) A F B G Process L -5 conn. MC23 MC26/ DIN 2633 DIN 2635 DIN 2636DIN 2637 ASME ASME ASME DN MC27 PN 6 PN 40 PN 64 PN 00 CL 50 CL 300 CL (3.54) 0 (4.33) 30 (5.2) 40 (5.5) 70 (6.69) 250 (9.84) 29 (5.08) 48 (5.83) 64 (6.46) 86 (7.32) 25 (8.46) All dimensions in mm (inch) (2.52) (9.3) (3.5) (20.28) (3.82) (2.30) (4.25) (22.36) 3 62 (5.6) (24.09) (.22) (7.48) (28.54) 5 (20.2) 540 (2.26) 566 (22.28) 593 (23.35) 637 (25.08) 750 (29.53) 25 ( ) 40 ( /2 ) 50 (2 ) 40 ( /2 ) 50 (2 ) 65 (2 /2 ) 50 (2 ) 65 (2 /2 ) 80 (3 ) 65 (2 /2 ) 80 (3 ) 00 (4 ) 80 (3 ) 00 (4 ) 50 (6 ) 50 (6 ) ) Antiseptic grooved flange DIN 864-2, form A, for pipes acc. to DIN (57.09) 450 (57.09) 736 (68.35) 2000 (78.74) 879 (34.6) 780 (30.7) 940 (37.0) 045 (4.4) 940 (37.0) 00 (43.3) 220 (48.03) 00 (43.3) 220 (48.03) 330 (52.36) 220 (48.03) 480 (58.27) 640 (64.57) 480 (58.27) 776 (69.92) 2040 (80.3) 94 (35.98) 83 (32.0) 967 (38.07) 078 (42.44) 967 (38.07) 32 (44.57) 248 (49.3) 32 (44.57) 248 (49.3) 362 (53.62) 248 (49.3) 494 (58.82) 668 (65.67) 494 (58.82) 86 (7.50) 2080 (8.89) 94 (35.98) 83 (32.0) 979 (38.54) 078 (42.44) 979 (38.54) 48 (45.20) 259 (49.57) 48 (45.20) 260 (49.6) 378 (54.25) 260 (49.6) 530 (60.24) 680 (66.4) 530 (60.24) 90 (35.83) 80 (3.89) 970 (38.9) 075 (42.32) 970 (38.9) 28 (47.95) 250 (49.2) 28 (47.95) 240 (48.82) 365 (53.74) 240 (48.82) 500 (59.06) 660 (65.35) 500 (59.06) (36.30) (36.69) (32.48) (33.9) (38.58) (39.4) (42.9) (43.62) (38.58) (39.4) (48.35) (49.3) (49.6) (50.43) (48.35) (49.7) (49.6) (50.47) (54.3) (54.96) (49.6) (50.47) (59.84) (6.73) (66.4) (67.0) (59.84) (6.73) (7.0) (7.89) (8.50) (82.28) DIN form A ) 864 (34.02) 76 (29.96) 98 (36.4) 025 (40.35) 98 (36.4) 08 (42.56) 97 (47.3) 08 (42.56) 200 (47.24) 30 (5.57) 200 (47.24) 463 (57.60) 68 (63.70) 463 (57.60) Weight kg (lb) 2 (46.3) 23 (50.7) 24 (52.9) 33 (72.8) 35 (77.2) 39 (86.0) 44 (97.0) 49 (08.0) 5 (2.4) 57 (25.7) 59 (30.) 70 (54.3) 85 (87.4) 92 (202.8) 20 (264.6) 240 (529.) 23
24 Food industry fitting "E" to "F", DIN (7,87) 80 (3,5) Ø 34 (5,27) G ØA F 2 B L -5 G00336 Fig. 28: Dimensions in mm (inch) Food industry fitting acc. to DIN 85 (threaded connector) 2 Flow direction Meter Size A F B G Process connection L -5 DN MC23 MC26 / MC27 DN DIN 85 5 (/2 ) 672 (26.46) 20 ( E ) 89 (3.50) 27 (5.00) 66 (2.60) 470 (8.50) 494 (9.45) 20 (3/4 ) 583 (22.95) 25 ( ) 683 (26.89) 20 (3/4 ) 743 (29.25) 25 ( F ) 89 (3.50) 27 (5.00) 66 (2.60) 470 (8.50) 494 (9.45) 25 ( ) 643 (25.3) 40 ( /2 ) 786 (30.94) Weight appr. kg (lb) 4 (30.9) 5 (33.) All dimensions in mm (inch) If this connection is supplied with an EHEDG-certified device, the device nominal sizes must correspond with the connection nominal sizes! 24
25 Food industry fitting "G" to "K", DIN (7,87) 80 (3,5) Ø 34 (5,27) G R F 2 g B L -5 L G00335 Fig. 29: Dimensions in mm (inch) Food industry fitting acc. to DIN 85 (threaded connector) 2 Flow Direction Meter Size DN 40 ( G ) 50 ( H ) 65 ( I ) 80 ( J ) 00 ( K ) A F B G Process L -5 g M R connection MC23 MC26/ DN MC27 90 (3.54) 0 (4.33) 30 (5.2) 40 (5.5) 70 (6.69) 29 (5.08) 48 (5.83) 64 (6.46) 86 (7.32) 25 (8.46) All dimensions in mm (inch) 64 (2.52) 80 (3.5) 97 (3.82) 08 (4.25) 3 (5.6) 486 (9.3) 55 (20.28) 54 (2.30) 568 (22.36) 62 (24.09) Weight appr kg (lb) 25 ( ) 864 (34.02) 7 (0.28) Rd 52 x /6 28 (8.58) 2 (46.3) 5 (20.2) 40 ( /2 ) 6 (29.96) 7 (0.28) Rd 65 x /6 64 (6.46) 23 (50.7) 50 (2 ) 98 (36.4) 7 (0.28) Rd 78 x /6 24 (9.49) 24 (52.9) 40 ( /2 ) 025 (40.35) 7 (0.28) Rd 65 x /6 233 (9.7) 33 (72.8) 540 (2.26) 50 (2 ) 98 (36.4) 7 (0.28) Rd 78 x /6 77 (6.97) 35 (77.2) 65 (2 /2 ) 08 (42.56) 8 (0.3) Rd 95 x /6 254 (0.00) 39 (86.0) 50 (2 ) 97 (47.3) 7 (0.28) Rd 78 x /6 29 (.46) 44 (97.0) 566 (22.28) 65 (2 /2 ) 08 (42.56) 8 (0.3) Rd 95 x /6 227 (8.94) 48 (05.8) 80 (3 ) 200 (47.24) 8 (0.3) Rd 0 x /4 28 (.06) 5 (2.4) 65 (2 /2 ) 30 (5.57) 8 (0.3) Rd 95 x /6 39 (2.56) 57 (25.7) 593 (23.35) 80 (3 ) 200 (47.24) 8 (0.3) Rd 0 x /4 258 (0.6) 59 (30.) 00 (4 ) 463 (57.60) 0 (0.39) Rd 30 x /4 38 (5.00) 70 (54.3) (3 ) 68 (63.70) 8 (0.3) Rd 0 x /4 40 (5.79) 85 (87.4) (25.08) 00 (4 ) 463 (57.60) 0 (0.39) Rd 30 x /4 34 (2.36) 92 (202.8) If this connection is supplied with an EHEDG-certified device, the device nominal sizes must correspond with the connection nominal sizes! 25
26 Tri-clamp "E" to "F", DIN (ISO 2852) 200 (7,87) 80 (3,5) R ØA G Ø 34 (5,27) F B L -5 G00338 Fig. 30: Flow direction Dimensions in mm (inch) A F B G Process L -5 R Meter Size connection DN MC23 MC26/ DN MC27 5 (/2 ) 656 (25.83) 40 (5.5) 20 ( E ) 89 (3.50) 27 (5.00) 66 (2.60) 470 (8.50) 494 (9.45) 20 (3/4 ) 56 (22.09) 92 (3.62) 25 ( ) 66 (26.02) 42 (5.59) 20 (3/4 ) 72 (28.39) 52 (5.98) 25 ( F ) 89 (3.50) 27 (5.00) 66 (2.60) 470 (8.50) 494 (9.45) 25 ( ) 62 (24.45) 02 (4.02) 40 ( /2 ) 773 (30.43) 80 (7.09) All dimensions in mm (inch) Weight appr kg (lb) 4 (30.9) 5 (33.) If this connection is supplied with an EHEDG-certified device, the device nominal sizes must correspond with the connection nominal sizes! 26
27 Tri-clamp "G" to "K", DIN (ISO 2852) 200 (7,87) 80 (3,5) G R F ØA Ø 34 (5,27) B L -5 G00337 Fig. 3: Flow direction Dimensions in mm (inch) A F B G Process L -5 R Meter Size connection DN MC23 MC26/ DN MC27 40 ( G ) 90 (3.54) 29 (5.08) 64 (2.52) 486 (9.3) 5 (20.2) 50 ( H ) 0 (4.33) 48 (5.83) 80 (3.5) 55 (20.28) 540 (2.26) 65 ( I ) 30 (5.2) 64 (6.46) 97 (3.82) 54 (2.30) 566 (22.28) 80 ( J ) 40 (5.5) 86 (7.32) 08 (4.25) 568 (22.36) 593 (23.35) 00 ( K ) 70 (6.69) 25 (8.46) 3 (5.6) 62 (24.09) 637 (25.08) All dimensions in mm (inch) Weight appr kg (lb) 25 ( ) 842 (33.5) 242 (9.53) 7 (37.5) 40 ( /2 ) 748 (29.45) 95 (7.68) 7 (37.5) 50 (2 ) 93 (35.94) 278 (0.94) 8 (39.7) 40 ( /2 ) 02 (39.84) 275 (0.83) 27 (59.5) 50 (2 ) 93 (35.94) 225 (8.86) 26 (57.3) 65 (2 /2 ) 073 (42.24) 305 (2.0) 27 (59.5) 50 (2 ) 92 (46.93) 335 (3.9) 36 (79.4) 65 (2 /2 ) 073 (42.24) 275 (0.83) 37 (8.6) 80 (3 ) 80 (46.46) 328 (2.9) 38 (83.8) 65 (2 /2 ) 302 (5.26) 378 (4.88) 45 (99.2) 80 (3 ) 80 (46.46) 296 (.65) 44 (97.0) 00 (4 ) 448 (57.0) 430 (6.93) 46 (0.4) 80 (3 ) 598 (62.9) 440 (7.32) 7 (56.5) 00 (4 ) 448 (57.0) 365 (4.37) 69 (52.) If this connection is supplied with an EHEDG-certified device, the device nominal sizes must correspond with the connection nominal sizes! 27
28 3.3 Ordering information Separate sensor and compact version, DN 5... DN 50 (/2... 6") Main order number Version number CoriolisMaster mass flowmeter FCM2000 MC2 X X X X X X X X X X X X X X X X X Design Remote design Compact (integral) design 3 Ex, remote design, ATEX, FM Class I, Div. 4) 6 Ex, compact (integral) design, ATEX, FM Class I, Div. 7 Explosion Protection / Connection / Ambient Temperature None / M20 x.5 / Standard A None / NPT /2 in. / Standard T None/cable gland M20 x.5/extended C ( F) 5) U None / M20 x.5 / Extended C ( F) 5) X ATEX Zone / M20 x.5 / Standard 3) B ATEX Zone 2 / M20 x.5 / Standard 6) M ATEX / M20 x.5 / Extended C ( F) 3) E ATEX Zone 2 / M20 x.5 / Extended C ( F) 5) N FM Class I, Div., Zone / NPT /2 in. / Standard 3) C FM Class I, Div. 2, Zone 2 / NPT /2 in. / Standard O FM Class I, Div., Zone / NPT /2 in. / Extended C ( F) 3) Y FM Class I, Div. 2, Zone 2 / NPT /2 in. / Extended C ( F) 5) V CSA Class I, Div., Zone / NPT /2 in. / Standard 7) D CSA Class I, Div. 2, Zone 2 / NPT /2 in. / Standard 6) P CSA Class I, Div., Zone / NPT /2 in. / Extended C ( F) 3) Q CSA Class I, Div. 2, Zone 2 / NPT /2 in. / Extended C ( F) 5) W Certificates Standard Material certificate 3. acc. to EN Material certificate acc. to EN Pressure test per AD Pressure test per AD Certificate NACE material 5 Certificate NACE + Pressure test 6 Tube Material AISI 36Ti SST (.457) AISI 36L SST (.4435) EHEDG design 8) 3 Hastelloy C-4 (2.460) 2) 4 Measuring Range / Meter Size / DN Nominal kg/min ( lbs/min) / ''E'' / DN 20 (3/4 in.) E kg/min ( lbs/min) / ''F'' / DN 25 ( in.) F kg/min ( lbs/min) / ''G'' / DN 40 (-/2 in.) G kg/min ( lbs/min) / ''H'' / DN 50 (2 in.) H kg/min ( lbs/min) / ''I'' / DN 65 (2-/2 in.) I kg/min ( lbs/min) / ''J'' / DN 80 (3 in.) J kg/min ( lbs/min) / ''K'' / DN 00 (4 in.) K kg/min ( lbs/min) / ''L'' / DN 50 (6 in.) L Continued on next page 28
29 Main order number Version number CoriolisMaster mass flowmeter FCM2000 MC2 X X X X X X X X X X X X X X X X X Process Connection Size DN 5 (/2 in.) 9) 5 DN 20 (3/4 in.) 9) 2 0 DN 25 ( in.) 9) 2 5 DN 40 ( /2 in.) 9) 4 0 DN 50 (2 in.) 9) 5 0 DN 65 (2 /2 in.) 9) 6 5 DN 80 (3 in.) 9) 8 0 DN 00 (4 in.) 9) H DN 50 (6 in.) 9) F Process Connection Flange DIN PN 6 D Flange DIN PN 40 F Flange DIN PN 64 G Flange DIN PN 00 0) H Flange ASME CL 50 P Flange ASME CL 300 Q Flange ASME CL 600 ) R Aseptic Flange acc. to DIN Form A for tubes acc. to DIN 866 N Tri-Clamp acc. to DIN ) U Pipe connection acc. to DIN 85 0) V 29
30 Main order number Version number CoriolisMaster mass flowmeter FCM2000 MC2 X X X X X X X X X X X X X X X X X Housing (sensor) Standard Housing as secondary containment 40 bar (565 psi) 0) 2 Heating / Cooling Without Calibration Flow forward +/ % of flow rate / density (+/- 5 g/l) A Flow forward +/ % of flow rate / density (+/- 5 g/l) B Flow forward +/- 0.5 % of flow rate / density (+/- 5 g/l) C Flow forward +/- 0. % of flow rate / density (+/- 5 g/l) 2) M Flow forward +/ % of flow rate / density (+/- g/l) 0) D Flow forward +/ % of flow rate / density (+/- g/l) 0) E Flow forward +/- 0.5 % of flow rate / density (+/- g/l) 0) F Flow forward +/- 0. % of flow rate / density (+/- g/l) 2) N Flow forward / reverse +/ % of flow rate / density (+/- 5 /l) G Flow forward / reverse +/ % of flow rate / density (+/- 5 /l) H Flow forward / reverse +/- 0.5 % of flow rate / density (+/- 5 /l) I Flow forward / reverse +/- 0. % of flow rate / density (+/- 5 g/l) 2) O Flow forward / reverse +/ % of flow rate / density (+/- /l) 0) J Flow forward / reverse +/ % of flow rate / density (+/- /l) 0) K Flow forward / reverse +/- 0.5 % of flow rate / density (+/- /l) 0) L Flow forward / reverse +/- 0. % of flow rate / density (+/- g/l) 2) P Name Plate / Documentation German G English E Design level (Specified by ABB) X Operating Mode / Software Version Not selected (for remote design only) X Standard software (mass and density measurement) A Standard software plus Concentration calculation (DensiMass) C Outputs Current output I (active), Current output II (passive) + Pulse output (active) [Ex not possible] ) A Current output I (active), Current output II (passive) + Pulse output (passive) B Current output I (passive), Current output II (passive) + Pulse output (passive) 3) D Not selected / Fieldbus / Remote X Communication Not selected (for remote design only) X Without 0 HART protocol PROFIBUS PA 3 FOUNDATION Fieldbus 5 PROFIBUS PA with M2 plug 7 Power Supply Not selected (for remote design only) X High voltage V AC G Low voltage 24 V AC / DC K Accessories FCM2000-MC2 Signal Cable (Price per Meter) D73D46U0 ) Not for size ``L`` (DN 50 [6 in.]). Size ``K`` (DN 00 [4 in.]) on request 2) Not for size ``L`` (DN 50 [6 in.]) or "E" (DN 20 [3/4 in.]) 3) Only for MC27 4) With transmitter ME2- for Non-hazardous area. FM, CSA in preparation 5) Only for MC23 6) Only for MC2 / MC23 7) Only for MC27 / MC26 8) Only with process connection DIN 85 or Tri-Clamp and size ``E``... ``J`` 9) For available combinations, see data sheet 0) Not for size ``L`` (DN 50 [6 in.]) ) Not for MC27 2) Only DIN PN 40 / ASME CL 50 and size ``E``... ``K`` 30
31 Change from one to two columns Mass Flowmeter CoriolisMaster FCM Model FCM2000-MS2 4. Specifications Supply power Line voltage as per name plate U N ± % Warm-up phase 30 minutes Installation according to this specification No visible gas phase No external mechanical or hydraulic disturbances, particularly cavitation G0035 Output calibration Pulse output Fig. 32: FCM2000-MS2 flowmeter sensor Nominal sizes "S" (DN.5); "T" (DN 3); "U" (DN 6) Measuring ranges for flowrate Nominal size Max. measuring range [Q max ] in [kg/h] "S" DN.5 (/6") "T" DN 3 (/0") "U" DN 6 (/4") Protection class: IP 65 Measured value deviation for flowrate ± 0.4 % of flow rate ± 0.02 % of Q max ± 0.25 % of flow rate ± 0.02 % of Q max ± 0.5 % of flow rate ± 0.0 % of Q max (deviation from rate + zero error) Reproducibility of flowrate 0. % of flow rate for nom. deviation ± 0.5 % 0.5 % of flow rate for nom. deviation ± 0.25 % and 0.4 % Measuring range for density kg/dm 3 Measured value deviation for density Standard calibration ± 0 g/l Temperature range C ( F) Expanded density calibration available upon request Measured value deviation for temperature C ( F) < C (33.8 F) Effect of the analog output on the measurement accuracy Similar to pulse output ± 0. % of measured value Materials and additional specifications Sensor materials Parts in contact with fluid.4435/36l Housing.4404 Fluid temperature Standard: C ( F): DN 3 (/0"), DN 6 (/4") C ( F): DN.5 (/6") C ( F): DN.5 (/6") (optional) For information about the design for operation in potentially explosive areas, refer to the corresponding chapter. Ambient temperature C ( F) For information about the design for operation in potentially explosive areas, refer to the corresponding chapter. Process connections G/4" ISO 228- /4" NPT ASME B.20 Flange DIN/ASME for DN 6 (/4") Threaded pipe connection conforming to DIN 85 for DN 6 (/4") Tri-Clamp conforming to DIN (ISO 2852) for DN 6 (/4") The max. permissible operating pressure is determined by the respective process connection, the fluid temperature, the screws, and the gasket material. Pressure rating Flange PN 40, PN 00, Cl 50, Cl 600 Thread G /4", /4" NPT, PN PN 40 (for each option) Reference conditions Calibration fluid Water 25 C (77 F) (+ 5 K/- 5 K) Pressure bar ( psi) Installation For more detailed instructions regarding installation, refer to the operating instructions. Ambient temperature 25 C (77 F) (+ 0 K/- 5 K) 3
32 Mass Flowmeter CoriolisMaster FCM2000 Pressure loss curves 00 Viscosity [cst] Viscosity [cst] P [bar],0 P [bar],0 0, 0,0 0, 0 70 [kg/h] G0037 0, [kg/h] G0038 Fig. 33: Pressure losses MS2, DN.5 (/6") Fig. 35: Pressure losses MS2, DN 6 (/4") Viscosity [cst] P [bar],0 0, [kg/h] G0038 Fig. 34: Pressure losses MS2, DN 3 (/0") 32
33 Change from one to two columns Mass Flowmeter CoriolisMaster FCM Dimensions 4.2. Design MS2 Remote design DN 3... DN 6 (/0... /4 ) L3 L L2 88 (3,46) B D D D H (3,03) D L D 5 L L 7,5 (0,68) G00345 Size T = DN 3 (/0 ) Size U = DN 6 (/4 ) Fig. 36: Dimensions in mm (inch) 33
34 Nom. size DN Connections Type Pressure PN Size Threaded connector ISO 228/-G /4 3 (/0 ) Threaded connection ANSI/ASME B.20.-/4" NPT Flange DIN (/4 ) Flange DIN 2637 Flange DIN 2635 Flange DIN 2637 Flange ANSI / ASME B 6.5 Flange ANSI / ASME B 6.5 Flange ANSI / ASME B 6.5 Flange ANSI / ASME B 6.5 Screwed connection DIN 85 Screwed connection DIN 85 Tri-clamp, DIN (ISO 2852) Clamp, ISO 2853 Threaded connector ISO 228/-G /4 Threaded connection ANSI/ ASME B.20.-/4" NPT Threaded connection ISO 228/-G /4 Threaded connection ANSI/ ASME B.20.-/4" NPT Measurements in mm (inch) 00 /4 00 / (64) (64) DN 0 DN 0 DN 5 DN 5 Class 50 /2 L L2 L3 H B D D2 D3 D4 D (5.75) (.02) (2.44) (2.36) (5.75) (.02) (2.44) (2.36) (22.05) (.02) (2.44) (22.83) (.02) (2.44) (25.2) (.02) (2.44) (25.75) (.02) (2.44) (24.57) (5.35) (2.44) Class 600 / (25.43) (5.35) (2.44) Class 50 3/ (26.38) (5.35) (2.44) Class 600 3/ (27.28) (5.35) (2.44) 40 DN (20.94) (5.35) (2.44) 40 DN (22.44) (5.35) (2.44) mm (22.44) (5.35) (2.44) mm (22.56) (5.35) (2.44) 00 / (22.3) (5.35) (2.44) 00 / (22.3) (5.35) (2.44) EN.4435 PN /4 EN PN 40 (22.3) (5.35) (2.44) EN.4435 PN /4 EN PN 40 (22.3) (5.35) (2.44) 40 (.57) 40 (.57) 40 (.57) 40 (.57) 40 (.57) 40 (.57) 40 (.57) 40 (.57) 40 (.57) 40 (.57) 40 (.57) 40 (.57) 40 (.57) 40 (.57) 40 (.57) 40 (.57) (0.47) 2 (0.47) 2 (0.47) 2 (0.47) 2 (0.47) 2 (0.47) 2 (0.47) 2 (0.47) 2 (0.47) 2 (0.47) 2 (0.47) 2 (0.47) 2 (0.47) 2 (0.47) 2 (0.47) 2 (0.47) (0.84) (4.09) (0.84) (4.09) 7.0 (0.67) 7.0 (0.67) 7.0 (0.67) 7.0 (0.67) 7.0 (0.67) 7.0 (0.67) 7.0 (0.67) 7.0 (0.67) 7.0 (0.67) 7.0 (0.67) 7.0 (0.67) 7.0 (0.67) 7.0 (0.67) 7.0 (0.67) 7.0 (0.67) 7.0 (0.67) 04 (4.09) 04 (4.09) 04 (4.09) 04 (4.09) 04 (4.09) 04 (4.09) 04 (4.09) 04 (4.09) 04 (4.09) 04 (4.09) 04 (4.09) 04 (4.09) 04 (4.09) 04 (4.09) 04 (4.09) 04 (4.09) 90.0 (3.54) 88.9 (3.50) 60.0 (2.36) 60.5 (2.38) 4.0 (0.55) 5.7 (0.62) Weight appr. kg (lb) 4 (8.8) 8 (7.6) 34
35 Remote design, DN.5 (/6 ) 20 (,8) 46 (0,47) 86 (3,38) 52 (5,98) Ø29 (5,07) 78 (3,07) 64,5 (2,53) Ø57 (2,24) 4 (0,6) 20 (4,72) 0 (0,39) 5 (0,59) 2 (0,47) NV2 5 (0,59) 2 (0,47) NV2 /4 NPT G /4 Ø8,8 (0,74) Ø8,8 (0,74) Ø24 (0,94) Ø24 (0,94) Ø9 (0,35) /4 NPT ANSI/ASME B G /4 ISO 228/ 20 (0,78) 00 (3,93) 25 (0,98) G00346 Fig. 37: Dimensions in mm (inch) 35
36 4.3 Ordering information Separate sensor, DN.5... DN 6 (/0... /4") Main order number Version number CoriolisMaster mass flowmeter FCM2000 MS2 X X X X X X X X X X X X X Design Remote design Ex, remote design, ATEX 6 Application Standard A ATEX Zone / M20 x.5 / Standard B Certificates Standard EN Pressure Test 3 Tube Material AISI 36L SST (.4435) 3 Hastelloy C-22 (2.4602) 4 Measuring Range kg/h ( lbs/h), DN.5 (/6 in.) S kg/h ( lbs/h), DN 3 (/0 in.) T kg/h ( lbs/h), DN 6 (/4 in.) U Temperature Version Max. 25 C (257 F) (only DN.5 [/6 in.]) Max. 80 C (356 F) (DN 3 and DN 6 [/0 and /4 in.]) 2 Process Connection G /4 in. ISO 228- A /4 in. NPT ANSI / ASME B.20. B Flange EN092- DN 0 / PN 40 C Flange EN092- DN 5 / PN 40 P Flange EN092- DN 0 / PN 00 Q Flange EN092- DN 5 / PN 00 R Flange /2 in. / Class 50 (only DN 6 [/4 in.]) I Flange 3/4 in. / Class 50 U Flange /2 in. / Class 600 V Flange 3/4 in. / Class 600 W DN 0 acc. to DIN 85 / PN 40 (only DN 6 [/4 in.]) M DN 5 acc. to DIN 85 / PN 40 (only DN 6 [/4 in.]) N Tri-Clamp 25 mm ISO 2852 / PN 6 J Pressure Rating Standard PN 230 (36L) 2 PN 350 (HC22) 3 PN 365 (HC22) 4 PN PN 40 6 Heating / Cooling Without 0 With DN 5 flange heating connection With /2 in. ASME flange heating connection 2 Continued on next page 36
37 Main order number Version number CoriolisMaster mass flowmeter FCM2000 MS2 X X X X X X X X X X X X X Calibration 0.40 % / 0 g/l forward flow A 0.25 % / 0 g/l forward flow B 0.5 % / 0 g/l forward flow C 0.40 % / 0 g/l forward / reverse flow G 0.25 % / 0 g/l forward / reverse flow H 0.5 % / 0 g/l forward / reverse flow I Name plate German G English E Design level (Specified by ABB) X Signal Cable 5 m (6 ft.) ) 0 m (33 ft.) ) 2 25 m (82 ft.) ) 3 50 m (60 ft.) ) 4 ) With plug at Sensor 37
38 Change from one to two columns Mass Flowmeter CoriolisMaster FCM Transmitter 5. Specifications Display The graphic display has 2 lines and features an LED backlight. Both lines are freely configurable to display the mass flowrate, volume flowrate, density, or temperature. Flow count, 7-digit with overflow counter and physical unit for mass or volume. Ex approval FM, ME2O Nonincendive Class I, II, III Division 2, Groups A, B, C, D, F, G/T6 Ta = 60 C, NEMA 4X NS G00320 Fig. 38: FCM2000-ME2 transmitter, field-mount housing Measuring range Freely configurable between 0.0 Q max and Q max N S N S Protection class IP 65/IP 67, NEMA 4X NS G0032 Electrical connections Cable gland M20 x.5 or /2" NPT Max. signal cable length for separate design 50 m (longer lengths available upon request) Fig. 39 Points for inserting the magnet stick Supply power Supply voltage V AC (tolerance -5 % and +0 %), Hz V AC, Hz V DC Ripple: 5 % Power consumption S 25 VA Response time As jump function % (corr. to 5 τ) s Ambient temperature C ( F), optional C ( F) At operation below -20 C (-4 F), the display can no longer be read and the electronic unit should be operated with as few vibrations as possible. Complete operational reliability is achieved at temperatures above -20 C (-4 F). Design Field-mount housing and compact transmitter unit as alloy casting, varnished Mid-section: RAL 702, dark gray Cover: RAL 9002, light gray Paint coat: µm thickness Forward/reverse flow metering Signals are shown on the display by direction arrows and by the optocoupler for ext. signaling. 38
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