3-Way Temperature Control Valve - Spartan Controls/media/resources/am… · · 2015-02-17features...
Transcript of 3-Way Temperature Control Valve - Spartan Controls/media/resources/am… · · 2015-02-17features...
Key benefits lEase of integration - valve size matches pipe size, resulting in reduced installation time and installation costs
l Flexibledesign-portscanbeconfigured to suit installation
lLow pressure drop - compared to other valve types
lSmall physical size
lHand wheel allows manual adjustment of valve (optionalonpneumaticvalve)-simplifiedset up and maintenance
Typical applications For engines, turbines, gearboxes and heat exchangers:
lCharge air cooling
lSecondary cooling systems
lFuel and lube oil preheating
lCo-generation
lEngine jacket water
For refineries, chemical plants and oil reproduction:
lWaste heat boilers
lProduct coolers
lProduct heaters
lProduct condensers
Electric GG valve
Pneumatic GG valve
Now even more
compact
G valve compared with a typical equivalent competitor’sspecification.
Model G, Version G and Accessories
www.amot.com
3-Way Temperature Control Valve
page 2 DS-GG-Temp-Control-Valve-0413-rev1
3-Way Temperature Control Valve - Model G, Version G
Contents
Overview ..................................................... 3
Applications .............................................. 3
System Types .............................................. 4
Overview of Valve Body ............................ 6
Specification ............................................6
ModesofOperation ..................................7
ValveSizing..............................................9
Dimensions ................................................ 13 Overview of Electric Actuation ................... 15
Electronic Positioner ................................. 16
Overview of Pneumatic Actuation .............. 16
How to Order ............................................. 17
Accessories ............................................... 18
PIDController8071D,8072D,SSR47581....18
3-WirePT100TemperatureSensor8060.....18
SolidStateRelayModule8073C.................19
ElectroPneumaticConverter8064A............19
ElectroPneumaticConverter8064C............20
PneumaticIndicatorControllerSG80..........20
page 3 DS-GG-Temp-Control-Valve-0413-rev1
3-Way Temperature Control Valve - Model G, Version G
AMOT G valves are 3-way control valves consisting of a heavy duty rotary valve and either a quarter turn electric or pneumatic actuator.Thevalvesprovideahighdegreeof accuracy and repeatability for accurate temperature control and are equally accurate inmixingordivertingserviceoverawideflowrange.
The heavy duty rotor design provides tight temperature control without high maintenance requirements.Thesystemisavailableinthreestandardcontrolconfigurations:electric;pneumatic;andelectro-pneumatic,offeringflexibilityformostrequirements.Designed
for high vibration service, the AMOT G valves arequalifiedtoLloyd’sMarineRequirementsforshipboardservice.Valvescanbedirectlymountedto reciprocating machinery, such as diesel engines,withoutvibrationisolation.Theheavyduty actuators are specially reinforced to provide vibrationresistance.
The standard valves are suitable for a variety offluidssuchaswater,water/glycol,seawater,lubricatingandhydraulicoils.Optionalbodymaterials are available for services involving syntheticorfireresistantoils,deionizedwaterandammoniaorfreoninoil.
Applications
Overview
Charge Air Temperature ControlThe intercooler is used to cool high temperature turbochargerair.
InthisapplicationtheGValveregulatestheflowof cooling water through an intercooler, increasing efficiency,enhancingperformanceandhelpingtomeettoday’senvironmentalrequirements.
Diverting ApplicationsJacket water cooling in diverting applications regulates the outlet coolant water temperature fromadieselorgasengine.Thevalveeithersends water to a cooler or bypass loop, accurately maintainingthetemperature.
The temperature is normally measured at the outletfromtheheatsource.
Mixing ApplicationsLubricating oil temperature control is normally configuredinamixingapplicationcontrollingthereturntemperaturetotheheatload.Thetemperature is normally measured as close as possibletothesumpreturn.
page4DS-GG-Temp-Control-Valve-0413-rev1
3-Way Temperature Control Valve - Model G, Version G
Electric System
The electric actuator is a rugged, compact and lightweight quarter turn actuator having enclosure protectiontoIP65.
The actuator is powered by an electric motor drivingaworm-typegearbox.Thewormgearboxpreventsreversedriveduetofluidforces.Itisfittedwithmanualoverrideasstandard,enablingvalveoperationwithoutpower.
Athermalcutoutisfittedpreventingoverheating.Limit switches at each end of stroke disconnect motorpowerwhenendstrokeisreached.Thesecanalsobeusedforremoteindication.
Seepage15formoreinformationontheelectricactuator.
GG ValvePIDController8071/2D,IP67enclosure
For the electric valve, the actuator of the G valve assembly uses an electric motor which rotates in either direction in response to the ON-OFF signalsreceived.Themotordrivesagearboxconnected to the rotor shaft and turns the valve rotor clockwise or counter-clockwise, a maximum of90degrees.Attheendoftravel,limitswitchesare incorporated to isolate the electrical supply to the motor when the valve rotor has reached either endoftherotation.Afeedbackpotentiometerisstandard and provides position indication to the controlsystem.
Electric Valve
The electric valve system incorporates the use of an electrically actuated three-way control valve withanelectroniccontroller.The8071DPIDController can be either panel or wall mounted (seepage18formoreinformation).Thesystemiscompletedwithatemperaturesensortype8060(seepage18fordetails).
The electric G Valve system is simple to install with standard four core cable, and provides more accurate measurement and control than typical pneumaticallyoperatedsystems.
Temperature Probe8060
System Types
Electric GG Valve
page5DS-GG-Temp-Control-Valve-0413-rev1
3-Way Temperature Control Valve - Model G, Version G
Electro-Pneumatic System The electro-pneumatic valve system combines both electric and pneumatic technology, consisting of a pneumatically actuated three-way control valve with an electro-pneumatic converter, type 8064A.Seepage19formoredetails.
The probe sends a resistance signal to the electroniccontroller,whichinturnsendsa4to20mAsignaltoanI/Pconverterthatconvertsthistoapneumaticsignal.
The electro-pneumatic system combines the features and functionality of the AMOT electronic controlsystemwiththefail-safeactionbenefitsofapneumaticallyactuatedvalve.
GG ValveElectro-Pneumatic Converter 8064A
Temperature Controller 8071D
Temperature Probe 8060
Pneumatic Valve The pneumatic valve uses a spring return pneumatic actuator and positioner to control the rotation of the valve in response to an input signal from a pneumatic or electro-pneumatic control system.Thepneumaticcontrolsystemsendsapneumaticsignalrangingfrom0.21to1.03bar(3to15psi)totheactuatortocorrectlypositionthevalveatthedesiredtemperaturesetting.Thepneumatic control system usually consists of a P+I pneumatic controller, sensor and the necessary air supplyconditioningequipment(regulators,filtersandwatertraps).
Pneumatic System The pneumatic valve system incorporates a pneumatically actuated three-way control valve with controller and integral temperature sensor, theSG80,whichcanbepanelorwallmounted.FormoreinformationontheSG80,seepage20.The pneumatic G valve system is ideal when there is a lack of electricity or when a fail-safe system is needed.
The pneumatic actuator is a rugged, quarter turn, double piston actuator operating on a scotch yoke principle.
Theactuatorisfittedwithspringreturnasstandardallowingfail-safeconfigurationifnecessary.Itisalsofittedwithavalvepositionerenablingaccurateandrepeatablemovement.Seepage16formoreinformationonthepneumaticactuator.
SG80 Temperature Controller and Sensor
System Types continued
Pneumatic GG Valve
GG Valve
page6DS-GG-Temp-Control-Valve-0413-rev1
3-Way Temperature Control Valve - Model G, Version G
Specification
Flow to: 720m3/hr 3,170USgpm ForvalveswithhigherflowratesseedatasheetGEF_GPD_Temp_Control_Valve
Sizes: Standard flow High flow
80mm - 200mm (3” - 8”) 80mm - 200mm (3” - 8”) For50mm(2”)andfor350mm(14”)andabove see Datasheet GEF_GPD_Temp_Control_Valvefordata
Body/rotor materials: Bronze For seawater, shock resistance, or magnetic permeability
Ductile iron High performance iron, for fresh water, lubricating oils
Steel For high strength and high pressure ratings
Stainless steel Corrosive and special applications
Seal material: Flourocarbon (Viton, FKM)
Flanges: EN1092,ASMEandJISstandards.
Maximum internal Ductileironorbronze 10bar (145psi)
valve pressure: Steelandstainlesssteel 16bar (232psi)
Maximum temperature 100°C (212°F) of fluid:
Vibration: ExceedstherequirementsofLloyd’sRegisterTypeApprovalSystem, TestSpecificationNumber1,2002,VibrationTest2. Forbothelectricandpneumatic:
Frequency range
Displacement Acceleration Lloyd’s
5-25Hz +/-1.6mm +/-1.6mm
25-100Hz +/-5.0g(49m/s2) +/-4.0g(39m/s2)
100 - 300 Hz +/-1.0g(9.81m/s2) 90 minute
No requirement
Overview of Valve BodyKey features and benefits
lLightweight and compact
lConfigurableports-allowingflexibilityoninstallation
l Low pressure drop - enables savings on either valve or pump size
l High accuracy providing better temperature control
Valve Body
page7DS-GG-Temp-Control-Valve-0413-rev1
3-Way Temperature Control Valve - Model G, Version G
The unique construction of the AMOT G valve provides total flexibilitybyallowingyoutoselectthevalveportpositionsmostideallysuitedtomeetyourapplicationrequirements.Therearetwomaintypesofmodeofoperation:90°rotorthatallowseitherports1or3tobeselectedasthecommonport;and180°rotorthatrequiresport2tobethecommonport.Arrowindicates valve movement with increasing temperature, asviewedfromabove(seediagram).Forelectricallyactuatedvalves, on loss of signal the actuator is set up by default to stopinitscurrentposition.
Electric actuator (switched live input)
Electric actuator direct acting(4-20mA input)
Electric actuator reverse acting(20-4mA input)
Cold position Hot position 4mA (cold) 20mA (hot) 20mA (cold) 4mA (hot)
23
ed
oM
12
ed
oM
21 e
do
M3
2 e
do
M31
ed
oM
13
ed
oM
3
2
1
Modes of Operation - Electrically Actuated
page 8 DS-GG-Temp-Control-Valve-0413-rev1
3-Way Temperature Control Valve - Model G, Version G
The unique construction of the AMOT G valve providestotalflexibilitybyallowingyoutoselectthe valve port positions most ideally suited to meetyourapplicationrequirements.Therearetwomaintypesofmodeofoperation:90°rotorthatallows either ports 1 or 3 to be selected as the commonport;and180°rotorthatrequiresport2tobethecommonport.Arrowindicatesvalvemovement with increasing temperature, as viewedfromabove(seediagram).
Pneumatic actuator direct acting Pneumatic actuator reverse acting
3 PSI (cold) 15 PSI (hot) No signal 15 PSI (cold) 3 PSI (hot) No signal
23
ed
oM
12
ed
oM
21 e
do
M3
2 e
do
M31
ed
oM
13
ed
oM
3
2
1
Modes of Operation - Pneumatically Actuated
page 9 DS-GG-Temp-Control-Valve-0413-rev1
3-Way Temperature Control Valve - Model G, Version G
s s s s s sss s
50(2)
80(3) 7 14 20 26 33 39 46 52
100(4) 80(3) 19 35 51 67 83 99 115 131
150(6) 100(4) 29 54 79 104 129 154 179 204
200(8) 150(6) 66 122 178 235 291 347 403 459
200(8) 118 218 318 418 517 617 717 817
250(10)
300(12) 250(10)
350(14) 300(12)
400(16) 350(14)
450(18) 400(16)
Valve Sizing (Metric units)
Recommended maximum pressure drop
14 3 2
1 – Water
2 – ISO VG32
3 – ISO VG46
4 – ISO VG68
Valve selection curves for valves with 90orotor.Forvalveswith180o rotormultiplypressuredropsby2.
AMOT type G valves are designed to produce minimal pressure drop.Thenormalrecommendationinsizingthevalvesistoselectapressuredropbetween0.01to0.3bar(0.15and 4.5psi).
Tousethegraphitisadvisedtousethefollowingmethod: 1. Startwithapressuredropof0.05baron theverticalaxis,readacrosstothecurve. 2. Followthislinedowntotheflowratesbelow untilyoufindthevalueclosesttoyourflowrate. 3. Followthelineacrosstothelefttodetermine suitablevalvesize. For stable control the valve should be selected so as to provide apressuredropwithfullflowofbetween0.01and0.3bar (0.15and4.5psi).
Standard High flow flow
Siz
e D
N (
inch
es)
Valve Flowrate Selection (Flowrate m3/hr)
CurrentlyonlyavailableinGEF/GPDversions. SeeDatasheetGEF_GPD_Temp_Control_Valvefordata
0
0.05
0.10
0.15
0.20
0.25
0.30
0.35
0.40
Pre
ssu
re d
rop
bar
CurrentlyonlyavailableinGEF/GPDversions.SeeDatasheetGEF_GPD_Temp_Control_Valvefordata
page 10 DS-GG-Temp-Control-Valve-0413-rev1
3-Way Temperature Control Valve - Model G, Version G
s s s s s s s ss
2(50)
3(80) 31 62 88 114 145 172 203229
4(100) 3(80) 84 154 225 295 365 436 506 577
6(150) 4(100) 128 238 348 458 568 678 788 898
8(200) 6(150) 291 537 784 1035 1281 1528 1774 2021
8(200) 520 960 1400 1840 2276 2717 3157 3597
10(250)
12(300) 10(250)
14(350) 12(300)
16(400) 14(350)
18(450) 16(400)
Valve Sizing (English units)Valve Flowrate Selection (Flowrate USg/m)
Standard High flow flow
Siz
e in
ches
(D
N)
Pre
ssu
re d
rop
psi
Recommended maximum pressure drop
14 3 2
1 – Water
2 – ISO VG32
3 – ISO VG46
4 – ISO VG68
5.08
4.35
3.62
2.90
2.18
1.45
0.73
0
AMOT type G valves are designed to produce minimal pressure drop.Thenormalrecommendationinsizingthevalvesistoselect apressuredropbetween0.15and4.5psi(0.01to0.3bar).
Tousethegraphitisadvisedtousethefollowingmethod: 1. Startwithapressuredropof 0.5psi on the vertical axis, readacrosstothecurve. 2. Followthislinedowntotheflowratesbelowuntilyoufindthevalueclosesttoyourflowrate. 3. Followthelineacrosstothelefttodeterminesuitable valvesize. For stable control the valve should be selected so as to provide a pressuredropwithfullflowofbetween0.15and4.5psi(0.01 and0.3bar).
CurrentlyonlyavailableinGEF/GPDversions. SeeDatasheetGEF_GPD_Temp_Control_Valvefordata
CurrentlyonlyavailableinGEF/GPDversions.SeeDatasheetGEF_GPD_Temp_Control_Valvefordata
Valve selection curves for valves with 90orotor.Forvalveswith180o rotormultiplypressuredropsby2.
page 11 DS-GG-Temp-Control-Valve-0413-rev1
3-Way Temperature Control Valve - Model G, Version G
Fortheselectionofvalvesformoreviscousfluidsthanwater,thefollowingmustbecalculated:
Viscosity:Findtheviscosityofthefluidinwhichthevalveistooperate.Theviscosityisnormallyexpressedincentistokes.WhereISOoilisused,the grade number is also the viscosity eg ISO VG46is46centistokesat40°C(104°F).
Viscositycorrection:Byusingthecorrectiongraphbelow,theflowcoefficientcorrectionfactorcanbeestablished.Thecorrectionfigureobtainedfromthe graph should then be multiplied by the original flowcoefficientwhichcanthenbeusedinthestandardvalvesizingformulae.
Engine oils
Oil cSt
SAE5W 6.8
SAE 10W 32
SAE 20 46
SAE 20W 68
SAE 30 100
SAE40 150
SAE50 220
Gear oils
Oil cSt
SAE75W 22
SAE 80W 46
SAE85W 100
SAE 90 150
SAE140 460
SAE Oil Viscosities
Some approximate viscosities (cSt) of SAE oils at 40°C(104°F)areshownbelow,basedonleadingoilmanufacturers’publisheddata.
Viscosity Correction Curve (Fv)
Viscosity (Centistokes)
Valve Sizing
Example:
Fromthegraphbelow: 100cSt=correctionfactorof0.68
0.68xflowcoefficient=correctedflowcoefficient(KvorCv)
Some approximate viscosities (cSt) of SAEoilsat40°C(110°F)areshownbelow, based on leading oil manufacturers publisheddata.
Viscosity Correction
Co
rrect
ion
Fact
or
page 12 DS-GG-Temp-Control-Valve-0413-rev1
3-Way Temperature Control Valve - Model G, Version G
The G valve is designed to produce minimalpressuredrop.Thenormalrecommendation when determining the size of an AMOT G valve is a pressuredropbetween0.01and0.3bar(1.5and4.5psi).Note: Kv and Cv values are applicable to 90° rotor versionsonly.
Valve Flowrate
Size DN (in)
Standard flow
80 (3)
100 (4)
150 (6)
200 (8)
250 (10)
300 (12)
350 (14)
400 (16)
450 (18)
High flow
50 (2)
80 (3)
100 (4)
150 (6)
200 (8)
250 (10)
300 (12)
350 (14)
400 (16)
Kv 82 207 323 729 1296
Cv 96 242 378 851 1513
SeethetablebelowforexamplesofKvandCv:
Valve SizingValve Sizing Calculations
Pressure Drop
TheAMOTGValveisnotatightshutoffvalve.When used in a reasonably balanced pressure system there will be some small amounts of leakagebetweenports.Theactualamountofleakage will vary with the pressure difference
Valve Bypass Flowrates betweentheseports.ConsultAMOTforfurtherinformation if the application is sensitive to leakage rates or if high pressure differences are likelytooccur.
CurrentlyonlyavailableinGEF/GPDversions. SeeDatasheetGEF_GPD_Temp_Control_Valvefordata
There are two other ways that this formula can be used to
findtheflowinUSgallons/minuteorpressuredropofa
valveinPSI:
ThebasicformulatodeterminetheKvofavalveis:
DpSGKv = Q
Q = Flow (m3/h)
Dp = Pressure drop (bar)
SG=Specificgravityoffluid
Kv=Valveflowcoefficient
ThebasicformulatodeterminetheCvofavalveis:
Dp
SGCv = QQ=Flow(USgallons/min)
Dp = Pressure drop (psi)
SG=Specificgravityoffluid
Cv=Valveflowcoefficient
There are two other ways that this formula can be used to
findtheflowinm3/horpressuredropofavalveinbar:
SGDpQ = Kv
KvQDp = SG
SGDpQ = Cv Cv
QDp = SG 22
Kvistheflowcoefficientinmetricunits.Itisdefinedastheflowrateincubicmetersperhour(m3/h)ofwateratatemperatureof16ºcelsiuswithapressuredropacrossthevalveof1bar.Cvistheimperialcoefficient.ItisdefinedastheflowrateinUSGallonsperminute[gpm]ofwateratatemperatureof60ºfahrenheitwithapressuredropacrossthevalveof1psi.(Kv=0.865Cv/Cv=1.156Kv)
page 13 DS-GG-Temp-Control-Valve-0413-rev1
3-Way Temperature Control Valve - Model G, Version G
Dimensions
See page 14 for dimensions
Electrically Actuated with Manual Override
Pneumatically Actuated with Manual Override
Pneumatically Actuated
page14DS-GG-Temp-Control-Valve-0413-rev1
3-Way Temperature Control Valve - Model G, Version G
Dimensions continued
NB A B C D E S T U V W X Y Z R* S* T* U* V* W X Y Z
03GGS 207 200 107 03GGS
03GGH 227 200 127 03GGH
04GGS 242 229 128 04GGS
04GGH 281 224 169 04GGH
06GGS 312 285 169 06GGS
06GGH 346 285 191 100 06GGH
08GGS 371 343 191 08GGS
08GGH 418 340 253 08GGH
NB A B C D E S T U V W X Y Z R* S* T* U* V* W X Y Z
03GGS 8.150 7.874 4.213 03GGS
03GGH 8.937 7.874 5.000 03GGH
04GGS 9.528 9.016 5.039 04GGS
04GGH 11.063 8.819 6.654 04GGH
06GGS 12.283 11.220 6.654 06GGS
06GGH 13.622 11.220 7.520 3.937 06GGH
08GGS 14.606 13.504 7.520 08GGS
08GGH 16.457 13.386 9.961 08GGH
95 53
7.677 5.512 2.677 2.126 10.236 2.992 5.591 5.787
3.740 4.843 3.937 2.047 2.047 8.898 7.953 3.740 2.087
53115
Pneumatically ActuatedElectrically Actuated
113
80 280 140
Valve Type
140 68 54 260 76 142 147
95 123 100 52 52 226 202
200
150
100
225450
185370
150300
3587945200155 276
Valve BodyValve Type
195
Valve TypeValve Body Electrically Actuated Pneumatically Actuated
4.449
3 11.024 5.512
Valve Type
4 11.811 5.906
6 14.567 7.283
6.102 7.874 1.772 3.110 10.866 14.094 4.528 2.0878 17.717 8.858
*Relevantonlytopneumaticactuatorwithmanualoverrideversion
Boltholedimensionsareaspertherelevantspecificationchoseninthemodelcoding.Fulldimensionaldetailscanbeprovidedonrequest.
Dimensions in mm
Dimensions in inches
page15DS-GG-Temp-Control-Valve-0413-rev1
3-Way Temperature Control Valve - Model G, Version G
Key features and benefits
lSelf-locking with minimum backlash in the transmission - prevents valve movement duetoflow
lAuxiliary limit switches for user connection
lManualoverridefittedasstandard-valvecan be operated in event of power failure
l Two torque switches - provide protection in event of actuator overloading
Overview of Electric Actuation
Specification
Power 115V ±10%or230V±10% 50/60Hzsinglephase
Limit switches Twoopen/closeSPDT 250VAC,10A
Motor thermal protection Fitted as standard
Angular rotation 110° max Quarter turn
High reliability contactless Optional1kohmor5kohmpotentiometers Hall effect sensor
Cable entry 2xM25x1.5 IP68glandsprovided
Mechanical stop Two adjustable screws
Manual override Fitted as standard
Materials Steel, aluminum alloy, aluminum bronze, polycarbonate
External coating Dry powder polyester
Weatherproof enclosure IP67,NEMA4and6
Ambient temperature -20°Cto+85°C (-4°Fto+185°F)
Ambient humidity 90%RHmax(non-condensing)
Anti-condensation heater 7-10W
Vibration resistance 5-100Hz 5g
100 - 300 Hz 1g
Performance Duty cycle 20°C Stroke time (secs) Max currrent (A)
Standard High flow 50 Hz 60 Hz 220V 110V
50 CurrentlyonlyavailableinGEF/GPDversions.SeeDatasheetGEF_GPD_Temp_Control_Valvefordata
80-200 80-200 65% 25 21 0.88 1.7
250-450 250-400 CurrentlyonlyavailableinGEF/GPDversions.SeeDatasheetGEF_GPD_Temp_Control_Valvefordata
Electric Actuator
page16DS-GG-Temp-Control-Valve-0413-rev1
3-Way Temperature Control Valve - Model G, Version G
TheAMOTactuator/valvepositionerisconfiguredtoacceptanindustrystandard4-20mApositiondemand input signal, and uses this to operate internalsolidstateswitchingtodrivethemotor. The microprocessor based unit uses the signal from the contactless position sensor to accurately position the actuator, taking into account motor responsetimeandactuatorovershoot. The positioner is split into two parts, housed in the terminalbox.Thereisapowermodule,inwhichall high voltage circuits are fully encapsulated to withstandhighvibration,andacontrolboard.Thisdesignallowsforeasymaintenance.
Userconfigurationallows:
lTheinputcanbeselectedfrom4-20mA, 0-20mA,0-5V,0-10Vand2-10Vbyswitches. l 4-20mAoutput,whichshowsactualvalve position,canbeconfiguredtoretransmitthe demandinputsignal.
lAswitchallowsforeasyconfigurationof which end of stroke corresponds with a 4mAdemand.
lThe action on sensor fail can be selected frommovingtoeitherthe4mAorthe20mA positions,butisfactorysettonotmoving.
lThe deadband can be increased to aid performancewithnoisyinputsignals.
lWhen necessary, such as after maintenance, the actuator can be recalibrated at the touch ofabutton.
Electronic Positioner
Overview of Pneumatic Actuation
Key features and benefits
lA rugged quarter turn, double piston, rack and pinion pneumatic actuator with spring returnandvalvepositionerasstandard.
lCanbeconfiguredfail-safe
Specification
Housing Castaluminumbase,steelcoverandtwopartPolyurethanepaintfinish.
Supply pressure 6to8bar (90to115psi)
Signal pressure 0.21to1.03bar (3to15psi)
Pressure connections G 1/4 (1/4NPT)
Manual override Optional
Pneumatic Actuator
There are three LEDs on the terminal box on the side of the actuator, providing clear visual indication ofactuatorstatus.Twoalarmoutputsallowforremotefaultmonitoring.
Electronic Positioner
page17DS-GG-Temp-Control-Valve-0413-rev1
3-Way Temperature Control Valve - Model G, Version G
06GG S D B S 32 EA B CA -AA Code DescriptionNominal Bore Size Comments
02GG 2 Inch (DN50) High Flow Only03GG 3 Inch (DN80)04GG 4 Inch (DN100)06GG 6 Inch (DN150)08GG 8 Inch (DN200)10GG 10 Inch (DN250)12GG 12 Inch (DN300)14GG 14 Inch (DN350)16GG 16 Inch (DN400)18GG 18 Inch (DN450) Standard Flow Only
Valve Flow Type (Refer to flow coefficient table for Cv/Kv data)S Standard Flow ValveH High Flow Valve
BDRS
Flange Class Flange Standard CommentsA PN6 EN 1092B PN10 EN 1092C PN16 EN 1092F 125 lb (Flat Face) ASME Ductile Iron Valves OnlyJ 150 lb ASMEL 10K JISM 5K JISN 150 lb MIL-PRF-20042E Bronze Valves Only
Rotor TypeS Standard Rotor
Cold Process Hot Process12 Port 1 Port 223 Port 2 Port 331 Port 3 Port 121 Port 2 Port 132 Port 3 Port 213 Port 1 Port 3
Power Supply Air Connection Manual overrideEA 100 -120 Vac 50/60Hz -EB 200 - 240 Vac 50/60Hz -P1 - G1/4 (1/4" BSPP)P2 - 1/4" NPTP3 - G1/4 (1/4" BSPP)P4 - 1/4" NPT
Input SignalAB 4-20mAC 20-4mA1 3-15psi2 15-3psi
AA None
BA0 - 1000Ω via Potentiometer
CADAEAFA
Pne 00
-AA-***
Customer Special Options
Feedback Signal
None
Actuator Feedback Signal
Customer Special Code AssignedStandard Product
Not applicable for Actuator Control Input Signal codes B or C
Not Fitted
Fitted
Ele
cPn
eu
Valve Actuation Type Electric Actuator Power Supply Pneumatic Actuator Air Connections & Manual override
Fitted as Standard
Act
uato
r S
ele
ctio
n
Example Code
Stainless SteelCarbon Steel
4-20mA Position Retransmit
On Increasing Temperature
Comments
Ele
cPn
e
Actuator Control Input Signal
Ele
ctri
c
Relays, Switched Live Supply
20-4mA Position Retransmit20-4mA Position Retransmit and 0 - 1000Ω (via Potentiometer)
4-20mA Position Retransmit and 0 - 1000Ω (via Potentiometer)
Valv
e B
od
y S
ele
ctio
n
Rotor Type
Valve Flange Connection Standard and Class
Valve Body and Rotor Material
Valve Size & Model
Valve Mode of Operation
BronzeDuctile Iron
Clockwise
Anticlockwise
Valve Flow Type
Body and Rotor Material
Rotor Position Rotation Starting From Cold Position
How to Order
UsethetablebelowtoselecttheuniquespecificationofyourGvalve.
page 18 DS-GG-Temp-Control-Valve-0413-rev1
3-Way Temperature Control Valve - Model G, Version G
PID Valve Controllers 8071/8072D and Solid State Relays 47581L001
Key features and benefits
lFully programmable PID-based control -allowseasysystemconfiguration
lUniversalinputs;RTD’s,thermocouple,orstandard4-20mAsignalgivesmaximumsys-temdesignflexibility
lCan be operated in manual mode - easy maintenance and set up
Accessories
Solid State Relay
47581L001
PID Controller 8072D
PID Controller 8071D
For further information and how to order these products see Datasheet_8071_2_D_47851.pdf
3-Wire PT100 Temperature Sensor - 8060Key features and benefits
l3wireRTDs-accuratetemperature measurement
l Excellent long term stability
lGood linearity
lCan use standard 3-core cableTemperature Sensor
8060
For further information and how to order this product see Datasheet_8060_temp_sensor.pdf
page 19 DS-GG-Temp-Control-Valve-0413-rev1
3-Way Temperature Control Valve - Model G, Version G
Solid State Relay Module - 8073C
Accessories
Relay Module
8073C
The8073CrelaymoduleincorporatestwosolidstaterelayswithterminationsinanIP67enclosure.The8073Cisdesignedtobeusedwiththe8071Dcontroller logic outputs to drive voltages for the electricallyactuatedGvalve.Featuresinclude:zero-crossing switching, relay and logic level inputs and IP67enclosure.
Interface with 8071D controller Interface with AC input signals
Typical Applications
Logic outputs
110/240 Vac
AC inputs
110/240 Vac
Key features and benefits
lIP67enclosure
l AlternativetousingtwoSSRstype47581L001
lGood linearity
lCan use standard 3-core cable
For further information and how to order this product see Datasheet_8073C_SSR.pdf
Electro-Pneumatic Converter - 8064A
Electro-Pneumatic Converter - 8064A
Key features and benefits
l Highvibrationresistance-Lloyds4G
lSuitable for longer pipe runs
lFully adjustable for optimised system operation
lATEXhazardousareacertification For further information and how to order this product see Datasheet_8064A_C_elect_pneu_converter.pdf
G ValveElectro-Pneumatic Converter 8064A
Temperature Controller 8071D
Temperature Probe 8060
Typical Application
page 20 DS-GG-Temp-Control-Valve-0413-rev1
3-Way Temperature Control Valve - Model G, Version G
Pneumatic Indicator Controller - SG80
Accessories
Pneumatic Indicator Controller SG80
Key features and benefits
lComplete stand alone controller, no other control components required - reduced system cost
lEasily removable components - low maintenance
lGood dynamic response - gives optimum engine performance
lCompatible with every type of pneumatic valve-flexible
For further information and how to order this product see Datasheet_SG80_Pneu_Ind_ Controller.pdf
Typical Application
SG80 Temperature Controller and Sensor
G Valve
Electro-Pneumatic Converter - 8064C
Electro-Pneumatic Converter - 8064C
For further information and how to order this product see Datasheet_8064A_C_elect_pneu_converter.pdf
Typical Application
Electro-pneumatic system
G valveElectro-pneumatic converter 8064C
Temperature controller 8071D
Temperature probe 8060
Key features and benefits
lAccepts high supply pressure - avoids use of additional regulator
lFactory set for ease of installation
lLowcostalternativeto8064A
lATEXhazardousareacertification
Europe and Africa
AMOTWestern WayBury St EdmundsSuffolk, IP33 3SZEngland
Tel +44(0)1284762222Fax +44(0)[email protected]
AMOT Controls GmbHRondenbarg2522525HamburgGermany
Tel +49(0)4085371298Fax +49(0)[email protected]
Americas
AMOTUSA 8824FallbrookDrHouston TX77064USA
Tel: +1(281)9401800Fax +1(713)5599419Email [email protected]
Asia Pacific
AMOT ShanghaiRm4102-4104UnitedPlaza 1468NanjingRoadWestShanghai200040China
Tel +86(0)2162797700Fax +86(0)[email protected]
AMOT Singapore10EunosRoad8#12-06Singapore Post CentreSingapore408600
Tel +6564086265Fax [email protected]
www.amot.com