©KROHNE 03/20027.02425.21.00GRElectromagneticFlowmetersVariable area flowmetersVortex flowmetersFlow controllersElectromagnetic flowmetersUltrasonic flowmetersMass flowmetersLevel measuring instrumentsCommunications technologyEngineering systems & solutionsSwitches,counters,displays and recordersHeat meteringPressure and temperatureApplicationKROHNE electromagnetic flowmeters are to be found in many industrial sectors and applications.Just a small selection:G Chemical industry G Water and wastewaterGHydraulic transport,liquid products with up to 50% solids content G Paper and woodpulp production G Pharmaceutical G Food and beveragesG Filling and dispensing processes G Highly abrasive slurriesG High-pressure industrial processes GPartially filled pipelinesand many,many other applications in other industriesFIT and FORGET !All electromagnetic flowmeters are delivered ready for operation.Install the flowmeter in the pipeline,make the electrical connection,that's it.Always one step ahead with KROHNEThis highly accurate measurement technology is available with integrally or remote mounted converter,some with measuring errors of less than 0.2% of the measured value.The primary head is installed in the pipeline,while the signal converter for signal processing is remote mounted in a field housing or 19" plug-in unit.In the integral system,the signal converter is mounted in a housing with high protection category directly on the primary head.With meter sizes of DN2.5 - 3000 / 1/10" - 120",measurements can be carried out from 2l/h to 300 000m3/hand more.Most of the devices are approved for use in hazardous locations.Various materials are available for the measuring tube,liner and electrodes of the flowmeters for most applications. Electromagnetic flowmetersProduction and calibrationAll electromagnetic flowmeters from KROHNE meet the requirements of CE directives and EMC guidelines.Fabrication and production shops are certified to ISO 9001.At KROHNE,all electromagnetic flowmeters are calibrated by direct comparison of volumes,the most accurate calibration method of all.The KROHNE calibration rigs are the world's biggest and most accurate,and are accredited to EN17 025.Measurement uncertainty is less than 0.013% of themeasured value for meter sizes up to DN 3000 / 120" and above.7Electromagnetic flowmeters >0.05 µS /c m >5 µS /c m >20 µS /c m >50 µS /c mD N 2.5,4,6 1/10”,1/6”,1/4”D N 10 3/8”D N 32 11/2”Signal converterDatenblätterF l a n g e c o n n e c t i o n s F l a n g e l e s s ‘s a n d w i c h ’d e s i g n C h e m i c a l s W a t e r a n d s e w a g e P a r t i a l l y f i l l e d p i p e s P h a r m a c e u t i c a l s ,s a n i t a r y B a t c h i n g (1-10s )V e r y a b r a s i v e s l u r r i e s H i g h p r e s s u r e 2- o r 2 x 2-w i r e s y s t e mG e n e r a l p u r p o s e S a n i t a r y c o n n e c t i o n s H A R T ®/R S 485 (s t a n d a r d )P r o f i b u s P A H A R T ®/R S 485 (o p t i o n )H A R T ® (o p t i o n )O t h e r s o n r e q u e s t m Ao u t p u t ,2 w i r e c o n n e c t i o n ≤3 W ≤5 V A / ≤4.5 W ≤10 V A / ≤8 W ≤15 V A / ≤15 W ≤50 V A 2o r 2 x 2-w i r e s y s t e m 24,48,100 – 240 V A C ,48– 63 H z 24 V D C 24 V A C / D C 100 – 230 V A C ,48 –63 H z L i q u i d s ,p a s t e s S l u d g e a n d s l u r r i e s % s o l i d s /v o l u m e ≤3%S l u d g e a n d s l u r r i e s % s o l i d s /v o l u m e ≤5%S l u d g e a n d s l u r r i e s % s o l i d s /v o l u m e ≤30%P u l s a t i n g f l o w ,< 200 p u l s e s /m i n B a t c h i n g p r o c e s s > 1.5 s P a p e r a n d p u l p H y d r a u l i c t r a n s p o r t (o r e d r e s s i n g )o n l y I F C 090 K -C A P C a p a c i t i v e s i g n a l p i c k u p F ou n d a t i o n F i e l d B u s F A D N 251”D N 40 11/2”D N 502”D N 803”D N 1004”D N 1255”D N 1506”D N 2008”D N 25010”D N 30012”≤D N 1800≤72”≤D N 3000≤120”I S O f i t t i n g l e n g t h o n l y I F C 110 P F a n d I F C 210 E -P F P a r t i a l l y f i l l e d p i p e s ,AQUAFLUXECOFLUX 1000ALTOFLUX 2000ALTOFLUX 4000PROFIFLUX 5000VARIFLUX 6000ALTOFLUX 2W 2 wireBATCHFLUXCAPAFLUXTIDALFLUX partially filledALTOFLUX IFS 2005 FALTOFLUX IFS 4005 FALTOFLUX M 900IFC 010 K,FIFC 020 K,F ,EIFC 040 K 2 wireIFC 090 K,F IFC 090 K-CAP IFC 110 F IFC 110 PFIFC 210 E IFC 210 E-PFSC 150 FBatchflux IFC 012 KElectrical conductivitySizesConnectionsApplications (examples)Flow measurements (examples)Power supply Power consuptionInterfacesIFM 1080 KG Flangeless versionG Rugged measuring tube withstainless steel reinforced 080 KG Flanged connectionsG Steel housingµP-signal converter in plasticsIFM 4080 KG Flanged connectionsG Steel housingTeflon® PFA liner,reinforced withIFM 5080 KG Flangeless versionG Stainless steel housing The only precision flowmeter IFM 6080 KG Various sanitary/flangedconnectionsStainless steel housingG Precision flowmeterG With capacitive signal pickup(electrodes not in contact withG Flangeless versionG Rugged measuring tube withstainless steel reinforced G Flanged connectionsG Steel housingG Liner of Polypropylene,NSF-G Flanged connectionsG Steel housingG Teflon® PFA liner,reinforced withG Flangeless (sandwich) designG Stainless steel housingG The only precision flowmeter with G Flanged connectionsG Steel housingG Measuring tube made of Al2O3G Various sanitary/flanged connec-tions,stainless steel housingG FDA approved Teflon® PFA liner,G Designed for partially filled pipelinesG Excellent measuring accuracy,for low levels,through the integratedG IFC 010 K/IFC 020 K of integral design G IFC 010 F/IFC 020 F in field housing G IFC 020 E 19”plug-in version.G IFC 090 K of integral designG IFC 090 F in field housingG Signal processing by microprocessor,G Signal converter in field housingG Signal processing by microprocessor,outstanding interference rejection,G Signal converter in field housing for wall mounting G Signal processing by microprocessor,outstanding interference rejection,T o w e r h e i g h t 43 m e q u i v a l e n t t o 141 f t / n e t v o l u m e 350000 l i t r e s e q u i v a l e n t t o 95000 U S G a lPrecisionLM28 precision level switches control the flow volume and various computer-aided volume totalizersQmInlet run ≥10 ×DN (DN = meter size)©G The world’s largest and most accurate calibration rigGCalibration of flowmeters up to DN 3000 / 120”GCalibration by direct comparison of volumes,altogether the most accurate method GComparison measurements with so-called master meters are much less accurate and cannot be verifiedGThe volume measurement standards ofKROHNE calibration rigs have been calibrated by NMI,the Netherlands Standards Institute.Measurement uncertainty is less than 0.013% of the measured value.GKROHNE Altometer calibration rigs are accredited in conformity with EN 17 025.GCalibration accuracy is better than 99.97% of the measured value.GThe error of measurement of the calibration rigs is better by a factor of 10 than theaccuracy data of the flowmeter being tested.GAll flowmeters are calibrated underreference conditions,similar to EN 29 104.GAll calibration data are genuine and verifiable; documented in writing in the calibration reports,which are supplied together with each KROHNE flowmeter.An example is shown on the right.E r r o r o f m e a s u r e m e n t [% o f m e a s u r e d v a l u e ]Flow rate [m 3/h]0,50,402000400060008000100000,30,20,10,0-0,1-0,2-0,3-0,4-0,5+ 0.03%Accuracy inspires confidenceAt this flowrate,a typical public swimming-pool can be filled in less than 1 minute.Inaccuracy is less than 0.013% in terms of volume and less than 0.26 mm in terms of filling level (equal to the thickness of a single hair),based on an average pool depth of 2 metres.Flowmeters up to DN 3000/120”creates theKROHNE standardOutlet run ≥2 ×DN (DN =meter size)Volume flow rate Q max = 40 000 m 3/h= 11 m 3/sMeasuring Principle 3.1The induced voltage signal is picked up either by two measuring elec-trodes in conductive contact with the medium or indirectly bycapacitive coupling.A signal converter amplifies the signal and convertsit into a standard analog signal (e.g.4 to 20 mA) and a frequencysignal (e.g.1 pulse for every US gallon or cubic metre of mediumflowing through the measuring tube).To ensure that the voltage is not short-circuited by the pipe wall,themeasuring tube is made of an electrically insulating material or fittedwith an insulating liner.Measurement is largely independent of the flow profile and other prop-erties of the medium,such as pressure,temperature,viscosity,density,consistency,electrical conductivity,and electrode contamination.Measuring systemsThe electromagnetic flowmeter consists of a primary head,that isinstalled in the pipeline,and a signal converter.The compact design has the signal converter mounted directly on theprimary head.For systems with pulsed d.c.field the primary head field coils whichgenerate the magnetic field are energized by a pulsed direct currentfrom the signal converter.The measuring signal is a squarewave voltage of the same frequency.These systems feature extremely small measuring errors. Electromagnetic flowmeters measure the volume flow of electricallyconductive liquids and slurries.Measuring principleAn electric conductor,in this case the electrically conductive medium,passes through a magnetic field.The voltage U induced in this mediumis directly proportional to the mean flow velocity v.Magnetic inductionB (magnetic field strength) and the distance between electrodes D(nominal pipe diameter) are constant.K instrument constantB magnetic field strengthv mean flow velocityD electrode spacingThe volumetric flow rate qv can be calculated according toTherefore:q v=U x D xπ(4)K x B4The reducing angle (α) should not exceed 8°(equivalent to α/2 = 4°),otherwise measuring accuracy may be affected.If the reducing angle is greater,a straight inlet section must be fitted between reducing socket and primary head.Expanding sectionPressure Loss CalculationFor the expanding section,the optimum angle of expansion is α= 8°.ζat α= 8°d1/d2 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0ζ10.0180.0230.02550.0280.030.03080.03150.03230.0332Recommendations for installationSelection of meter sizeThe size of primary head should if possible be selected to provide a velocity of 2 to 3m/s or 6 to 9ft/sec.for the full-scale range. Minimum full-scale range is 0.5m/s or 1.5ft/sec.,maximum is 10 or 11m/s or 30 or 33ft/sec.,depending on flowmeter type.For fluids with a solids content,the velocity should be between 3 and 5m/s or 9 and 15ft/s to prevent deposits and minimize abrasion.Exact determination of flow velocityFor range setting purposes,the exact flow velocity can be determined using the flow table for each nominal pipe width.Example: v in m/sNominal pipe diameter DN150Desired measuring range200m3/hFrom the table we obtain for the flow velocity of 1m/sa flow rate of 63.617m3/h at DN150; for 200m3/hthe flow velocity v is:Example: v in ft/sNominal pipe diameter6”Desired measuring range1000 US GPMFrom the table we obtain for the flow velocity of 1ft/sa flow rate of 88.128 US GPM at 6”meter size;for 1000 US GPM the flow velocity v is:Flow tablesv = 1m/sMeter size Flow rate Meter size Flow rate DN mm m3/h DN mm m3/h2.50.017671250176.71 40.0452********.47 60.10179350346.36 100.28274400452.39 150.63617500706.86 20 1.131********.9 25 1.76717001385.4 32 2.89538001809.6 40 4.52399002209.2 507.068610002827.4 6511.94612004071.5 8018.09614005541.8 10028.27416007238.2 12544.17918009160.9 15063.617200011310 200113.10v = 1ft/sMeter size Flow rate Meter size Flow rate inch US GMP inch US GMP1/100.024********.801/80.03825012352.511/40.1530014479.813/80.3442516626.69 1/20.6120020979.21 3/4 1.3770241410.1 1 2.4480281919.211/4 3.8250322506.8 11/2 5.5080363172.6 29.7921403916.8 21/215.300485640.2 322.032567677.0 439.1686410027 561.2007212691 688.1288015667 8156.67Protection classes to IEC 529/EN 60529。
