Field Station Module, FSM, a Swagelok® Pre
Contents
1. n po yo T a a Oo lN a i fi A f 1I me a M N X F bd a y l Ly N 4 A A WU A A W Ag A W yo i A W A N gJ A V A we iN i 4 er 2 tine ov ie a a 2 4 kani lt a uu i a A Swagelok Pre Engineered Subsystem e Pre engineered subsystems available in weeks not months e Field tested design ensures optimum system performance e Preconditions a gas sample at the extraction point e Is highly configurable to match process conditions e Can mount directly to process nozzles ONGIA Swagelok Pre Engineered Contents Subsystems Why Use a Field Station Module Swagelok now offers a series of Field Station Module Basics predesigned and preassembled Installing a Field subsystems for use in all tyoes of OlalOMmiViOOUule es fn plants and facilities where fluids are Specifying a Field Station Module being processed Use Swagelok pre engineered subsystems to create fully SO cee documented fluid sampling and control Materials of Construction systems and bring consistency to your Configurations ee operations Easy to install and operate Technical Data 4 these subsystems offer the high quality Se and support you expect from Swagelok Cleaning and Packaging DNGAS OMG cere ernment E ee ENCOSUICTOOUOUS Heating Ow2. 1 1 2 in ASME class 6002 D5 1 1 2 in ASME class 1500 Limits pressure to 275 psig 18 9 bar Limits configurations 1 and 2 to 1440 psig 99 2 bar E Outlet Drain Vent Connections Bulkhead 304 SS enclosure only S4 1 4 in Swagelok tube fitting 6M 6 mm Swagelok tube fitting F4 1 4 in female NPT Tube ES Entry seal outlet includes removable 1 4 in tube stub removable 1 4 in tube stub drain and vent T4 1 4 in tube stub removable 9 Enclosure page 16 Sun Shade page 18 XX No enclosure no sun shade 304 Stainless Steel Enclosure SA Uninsulated no window SB Uninsulated safety glass window SC Uninsulated polycarbonate window SE Insulated no window SF Insulated safety glass window SG Insulated polycarbonate window ABS Plastic Enclosure AE Insulated no window AF Insulated safety glass window Fiberglass Enclosure GA Uninsulated no window GB Uninsulated safety glass window GD Uninsulated acrylic window GE Insulated no window GF Insulated safety glass window GH Insulated acrylic window Sun Shade AS ABS plastic GS Fiberglass SS 304 stainless steel 10 Heater page 19 Thermostat page 20 XXX No heater no thermostat Approval02 Thermostat Enclosure Heater 100 W convection heater T3 1A1 ATEX IEC 230 V 50 F 10 C 1A3 ATEX IEC 230 V 86 F 30 C 1A5 ATEX IEC 230 V 122 F 50 C 1C1 CSA UL D1 1
3. 0 39 11 0 0 035 1 0 For systems outside these parameters contact your authorized Swagelok sales and service representative Filter Internal Volume in 3 cm3 0 30 4 9 0 30 4 9 0 56 9 1 3 05 50 0 3 05 50 0 Testing Cleaning and Packaging Every Swagelok FSM subsystem is shell All Swagelok FSM subsystems are cleaned tested with nitrogen at 145 psig 10 bar to a requirement of no detectable leakage with a in accordance with Swagelok Standard Cleaning and Packaging SC 10 MS 06 62 liquid leak detector A Swagelok Pre Engineered Subsystem Field Station Module Dimensions Dimensions in inches millimeters are for reference only and are subject to change Top Heater wiring two 0 88 22 3 holes Optional inlet flange bolt mounting four holes equally spaced on bolt circle Weight Base Plate Dimensions End Connections in mm Weight FSM Subsystem Ib kg ASME Pressure Class Swagelok 14 tube fitting B iim 6mm 0 50 12 7 Female NPT EN am Tube stub Tube stub KOR 0 50 12 7 0 50 ABS plastic sun shade 6 5 2 9 12 7 Fiberglass sun shade 8 0 3 6 3 4 in ME Flange 1 50 38 1 1 1 2 in Entry seal includes inlet and outlet fittings with heat shrinkable seal to accommodate 0 75 to 1 6 in 19 0 to 40 6 mm insulated tubing All connections on FSM subsystems with ABS plastic or fiberglass enclosures are 1 4 in tub
4. Fiberglass Sun Shade Shown with Mounting Bracket Available Separately Heating Options Heaters and thermostats for Swagelok FSM subsystems are manufactured by Intertec Instrumentation Enclosure Heaters Heaters are available for applications where environmental temperatures may drop below the dew point of the gas Heaters are mounted inside the enclosure for freeze protection or temperature maintenance An insulated enclosure should be ordered with a heater to maximize effectiveness Enclosure heaters with thermostats are e available with ATEX IEC or CSA UL Enclosure Heater Enclosure Heater with Thermostat with Thermostat approvals ATEX IEC Approval CSA UL Approval Enclosure Heater Selection Enclosure heaters typically are selected based on the temperature differential A7 between the set thermostat temperature and the lowest expected ambient temperature Maximum 47 F C Enclosure Configuration 5089 7543 10066 12569 150 83 Heater Wattage Required Stainless Steel Enclosure ait nowndow 10w wow wow 20w inst wih winaow row row zow zow ABS and Fiberglass Enclosures rinses rowne ow ow Urinsited wih windows ow ow Available in fiberglass only A Swagelok Pre Engineered Subsystem Field Station Module 20 Heating Options Regulator Heaters Regulator heaters are intended for applications where the
5. Swagelok products are backed by The Swagelok Limited proper installation operation and maintenance are the your authorized Swagelok representative responsibilities of the system designer and user Caution Do not mix or interchange Swagelok product components with those of other manufacturers Swagelok SWAK TM Swagelok Company Avenger Genie Membrane Separators TM A Manufacturing LLC VIPAK TM O Brien Corporation DIABOX TM Intertec YQ Q O 2012 2013 Swagelok Company Printed in U S A AGS January 2013 R3 MS 02 359
6. 20 V 50 F 10 C 1C3 CSA UL D1 120 V 86 F 30 C 105 CSAVUL D1 120 V 122 F 50 C 1D1 CSA UL D1 230 V 50 F 10 C 1D3 CSA UL D1 230 V 86 F 80 C 1D5 CSAVUL D1 230 V 122 F 50 C Enclosure Heater 200 W convection heater T3 2A1 ATEX IEC 230 V 50 F 10 C 2A3 ATEX IEC 230 V 86 F 30 C 2C1 CSA UL D1 120 V 50 F 10 C 2C3 CSA UL D1 120 V 86 F 80 C 2D1 CSA UL D1 230 V 50 F 10 C 2D3 CSA UL D1 230 V 86 F 80 C Regulator Heater 50 W conduction heater self limiting T4 110 to 265 V range for most applications 5BX ATEX IEC 265 V None 5EX CSA UL D2 265 V None Heater and thermostat approvals ATEX IEC 230 V Il 2G D EEx d IIC 230 V 1 ATEX IEC 265 V II 2G D EEx d IIC 110 to 265 V CSA UL D1 120 V CI l Div 1 A B C D 120 V CSA UL D1 230 V Cl Div 1 A B C D 230 V CSA UL D2 265 V Cl Div 2 A B C D 110 to 265 V Included ATEX junction box is Il 2G EEx e Il T6 rated Included CSA UL junction box is suitable for gas groups A B and C only EF Additional Options For multiple options add numerical then alohabetical designators 5 Swagelok bimetal thermometer O to 200 F 15 to 90 C 3 in 76 mm dial size K SWAK thread sealant on NPT threads PTFE tape is standard 2a Accessories Mounting Brackets A variety of brackets including back center cantilever direct and wall mounting models is ava
7. Joule Thomson effect from high pressure drops may cause the regulator to freeze or the gas to condense Regulator heaters are mounted to the bottom Regulator of the pressure regulator body to heat the Heater regulator body and surrounding air Regulator heaters are self limiting and are available with ATEX IEC or CSA UL approvals Heater Thermostats Heater thermostats provide temperature control of the environment within the enclosure and are available with ATEX IEC and CSA UL approvals Enclosure heater thermostats are available at 50 86 and 125 F 10 30 and 50 C set temperatures Regulator heaters are self limiting o Set Heater Control Temperature F 3 30 Enclosure Thermostat 1 125 60 50 86 86 80 Ordering Information Build an FSM subsystem ordering number by combining the designators in the sequence shown below E 2 3 4 5 6 u go Dp FSM 1 R B 1A B S4 S4 SA XXX 5 eu Configuration 1 Clean dry high pressure page 10 2 Clean dry medium pressure page 10 3 Low moisture and particulate load page 11 4 High particulate load page 11 5 Moist process sample page 12 ey Maximum Inlet Pressure Outlet pressure control range is O to 50 psig 0 to 3 4 bar for all models F 100 psig 6 8 bar J 300 psig 20 6 bar L 1000 psig 68 9 bar R 2500 psig 172 bar Available on configurations 1 and 2 only Pressure Gauge Location s S
8. M MK BP CS 32P sequence shown below Ea System Type Ea Mounting Style E Support Type BP Base plate BC Back center available for Omit designator for wall mount PE Plastic enclosure available support type 32P only WM mounting style with back center mounting C Center line cantilever 32P 2 in pipe style BC only CL Long cantilever 32S 2 in square tube CS Short cantilever 26S 1 5 8 in strut DM Direct WM Wall does not require support type designator Accessories Replacement Filter Element Kits Kits include filter element and instructions FSM Configuration Kit Ordering Number 1 Clean dry high pressure SS 4F K4 15 2 Clean Eo a medium Eo a 3 Low moisture and FSM3 FILTER K particulate load 4 High particulate load FSM4 FILTER K 5 Moist process sample FSM5 FILTER K Regulatory Compliance Europe e Pressure Equipment Directive PED 97 23 EC e Atmospheres Explosive Directive ATEX 94 9 EC e Restriction of Hazardous Substances Directive ROHS 2002 95 EC Americas e Hazardous location electrical approval CSA UL e CRN registered in Canada individual components of assembly Contact your authorized Swagelok representative for specific assembly compliance approvals and certifications available from the manufacturer Safe Product Selection Warranty Information When selecting a product the total system design must be considered to ensure safe trouble free performance
9. Manufacturer Model Configuration Label Component Material Grade ASTM Specification See Swagelok One Piece Instrumentation Ball Valves 40G Series and 40 Series catalog MS 02 331 Swagelok 40G series U n Isolation ball valve Filter coalescing membrane configuration 5 Avenger model 38M See Avenger 30 Series Filters selection guide www apluscorporation com O Filter membrane separator configuration 3 Supreme See Series 100 Genie Membrane Separators model 123HP selection guide www apluscorporation com nm Filter particulate small capacity configurations 1 and 2 WAQPI See Swagelok Filters catalog MS 01 92 TF series Filter particulate large capacity configuration 4 Avenger See Avenger 30 Series Filters selection guide model 38 www apluscorporation com Swagelok Pressure indicator B model pressure gauge Pressure reaulator Swagelok See Swagelok Pressure Regulators catalog KPR series MS 02 230 RV Relief valve Swagelok See Swagelok Proportional Relief Valves catalog proportional RL3 and RSA series MS 01 141 System Hardware and Optional Components Swagelok 304 SS A240 Flange fittings Swagelok See Swagelok Flange Adapters catalog MS 02 200 300 series SS electroplated steel hot dip Hardware Various galvanized steel or coated steel Mounting brackets Swagelok 304 SS A240 316 SS A276 or A182 See Swagelok Gaugeable Tube Fi
10. e stubs Flange available for inlet connection only Dimensions Dimensions in inches millimeters are for reference only and are subject to change Front Side D 227 0 63 16 0 16 8 427 End Connections E in mm Type Size 63 mm in Swagelok tube 0 95 24 1 ae fitting 6mm mm a a 1 Clean dry high 1 4 in 0 72 18 3 pressure 14 8 376 16 4 417 Female NPT 1 2 in 0 97 24 6 im O mw 24 6 2 Clean dry medium 12 6 320 14 6 371 Entry seal 5 10 130 pressure Tube stub 2 eae 50 8 3 te ain particulate loa 0 51 a O 4 High particulate load Te Tee 3 4 in 0 88 0 88 22 4 4 5 Moist process sample Flange 1 26 32 0 0 70 E 8 11 2 in L ee 0 151 1 51 38 4 4 Entry seal includes inlet and outlet fittings with heat shrinkable seal to accommodate 0 75 to 1 6 in 19 0 to 40 6 mm insulated tubing All connections on FSM subsystems with ABS plastic or fiberglass enclosures are 1 4 in tube stubs Flange available for inlet connection only A Swagelok Pre Engineered Subsystem Field Station Module 16 Enclosure Options Enclosures Three types of enclosures all with lockable latches to secure them in the closed position are available to protect Swagelok FSM subsystems 304 Stainless Steel Stainless steel enclosures manufactured by Swagelok are IP55 rated They are mounted to the FSM base plate and have three positions cl
11. ilable Materials Component Material Split washers washers hex bolts struts mounting plate rounded U bolts 300 series SS squared U bolts Strut nuts Electrogalvanized steel Dimensions FSM with e Back Center Mounting Bracket Dimensions in inches millimeters are for reference only and are subject to change Back Center BC Mounting Bracket Kits i lt 16 8 427 Top Side Cantilever C CS CL Mounting Bracket Kits These kits are available in center line short and long cantilever models 22 6 574 max lt 9 95 253 6 10 max 155 B a Tr CL 33 6 853 CS 22 0 559 jo Ss _d OF Side CL designates long cantilever CS designates short cantilever C designates center line cantilever Accessories Direct DM Mounting Bracket Kits lt 18 9 480 15 7 399 a OUTLET z B Top Front Side Wall WM Mounting Bracket Kits 19 7 500 O O O gt OUTLET ki O O O oO 10 8 16 5 274 419 K e p DRAIN VENT o o gt H a QO O D INLET Top Front Side Ordering Information Build an FSM mounting bracket kit ordering number by combining the designators in the FS
12. lyzer s Module System 4 ae Process A Isolation Valve 5 Pa of 7 Low P Scape Analyzer Location Process Nozzle Transport Line Process Probe For more information about installation operation and maintenance of Swagelok FSM subsystems see the Field Station Module User s Manual MS 13 218 Specifying a Field Station Module The FSM can be customized to meet system requirements To specify an FSM e Know the maximum inlet pressure of the FSM Specify the FSM configuration with the lowest inlet pressure that is compatible with the highest process pressure e Specify pressure gauge dial size placement and fill The measurement ranges of the pressure gauges are determined automatically from the inlet pressure e Swagelok selects the regulator that is suitable for the maximum inlet pressure The outlet pressure control range is O to 50 psig O to 3 4 bar for all models e Choose from five filter or coalescer options no separate filter small or large particle filter membrane separator with gravity drain and large fibrous coalescer with membrane filter e Coalescer options work to remove liquid mist The coalescer drain may terminate in a manual blowdown valve that is separate from this system e Do not use a coalescer if the sample contains many particulates the coalescer will clog Instead specify a filter to remove them and if the liquid mist is volatile keep the field station and tra
13. needed e Includes large capacity particle filter FP e Optional Pl2 gauge measures inlet pressure at the regulator Inlet Outlet Vent ize Configurations 5 Moist Process Sample Includes coalescing filter and liquid drain for moist process samples e Higher internal volume e Large capacity 0 1 um coalescing filter and membrane separator combination filter FC e Maximum recommended flow rate through membrane separator is 0 035 std ft8 min 1 0 std L min e Optional Pl2 gauge measures inlet pressure at the regulator e Optional PI3 gauge allows pressure drop measurement across the filter which helps indicate when filter maintenance is needed Drain Inlet Outlet Vent Technical Data FSM Configuration 1 Clean dry high pressure 2 Clean dry medium pressure 3 Low moisture and particulate load 4 High particulate load 5 Moist process sample Working Pressure psig bar 2500 172 2500 172 1000 68 9 1000 68 9 1000 68 9 Temperature Rating F C With Relief VETI 250 121 250 121 185 85 250 121 185 85 Without Relief Valve 300 148 300 148 185 85 300 148 185 85 Maximum Air Flow std ft3 min std L min 15 psig 1 0 bar Outlet Pressure 0 23 6 5 0 23 6 5 0 18 5 1 0 23 6 5 0 035 1 0 30 psig 2 1 bar Outlet Pressure 0 39 11 0 0 39 11 0 0 18 5 1
14. nsport line hot enough to avoid condensation If necessary condense and remove the liquid in the sample conditioning system close to the analyzer If the sample contains many particulates and nonvolatile liquid mist the FSM may not be suitable ask for an evaluation by Swagelok e Select from three pressure relief options no relief valve preset adjustable relief valve or oreset adjustable relief valve with manual override handle Caution Without a relief valve the outlet pressure gauge and the downstream equipment are not protected if the pressure regulator fails A suitable pressure relief mechanism should be used to protect the system from overpressurization e Choose from a wide range of inlet and outlet connections including Swagelok tube fittings NPT fittings and flanges e Select an enclosure option ABS plastic fiberglass and 304 stainless steel enclosures and sun shades are available Enclosures are available with or without a window and insulated or uninsulated Joule Thomson Cooling Effect Field station modules with inlet pressures of 1000 psig 68 9 bar or higher have a large pressure drop and the sample may experience excessive cooling Although the temperature drop caused by Joule Thomson cooling is the same at any flow rate the heat it absorbs is proportional to the rate of flow The FSM offers a wide range of heater options sufficient for most sampling applications Materials of Construction
15. on a ae Ordering Information ACCOSSOES 1 a ee Regulatory Compliance OO000000 OQOOOO The Swagelok Field Station Module FSM Why Use a Field Station Module A Swagelok field station module FSM reduces process gas pressure before transporting it to an analyzer Transporting a gas sample at low oressure offers three major benefits e Faster analyzer response time e Less condensation e Safer environment Faster Analyzer Response Time In a high pressure line with downstream flow Typical Swagelok Field Station control gas molecules are more densely Module FSM populated which creates slower flow velocity and longer purge times Lowering the pressure of a gas sample means fewer molecules in the sample transport line and sample conditioning components therefore it is easier to flush the system and the analyzer can respond faster to process changes Without FSM Slow Response Process Tap High pressure in sample transport line Analyzer Location results in slow response Many Gas Molecules Slow Response With FSM Fast Response Process Tap Low pressure in sample transport line results in fast response Analyzer Location 1 Few Gas Molecules Fast Response A Swagelok Pre Engineered Subsystem Field Station Module The amount of gas held in the transport line is proportional to its absolute pressure At half the absolute pressure there are half as many gas molecule
16. osed open and removed e Neoprene foam rubber provides a weather resistant seal e Stainless steel handles and a force assist gas spring allow the enclosure to be readily raised into the open position In the open position the enclosure provides unique 360 access for easy adjustments and service For full access the enclosure can be completely removed by disengaging the gas assist spring and lifting on the handles e Enclosures insulated with 1 in 25 4 mm thick closed cell foam rubber are available for heated applications e A safety glass or polycarbonate 10 2 by 12 2 in 259 by 310 mm window option provides a large viewing area ABS Acrylonitrile Butadiene Styrene Plastic ABS VIPAK enclosures are manufactured by O Brien Corporation and are IP66 rated e Neoprene gasketed door 1 in 25 4 mm urethane insulation stainless steel prop rod and two 1 5 8 in horizontal mounting struts on the back are included e Window option includes 12 0 by 12 0 in 305 by 305 mm tempered glass window centered on the front Fiberglass Fiberglass DIABOX enclosures are manufactured by Intertec Instrumentation and are IP65 NEMAAX rated e EPDM gasketed door stainless steel prop rod and two 1 5 8 in horizontal mounting struts on the back are included e Insulation option includes 1 in 25 4 mm low density polyurethane e Window option includes 11 4 by 11 4 in 290 by 290 mm safety _ glass or acrylic wind
17. oting e Pl1 location measures outlet pressure of the regulator e Optional PI2 location measures inlet pressure of the regulator e Optional PI3 location measures FSM inlet pressure assumed to be process pressure e PI2 PI1 locations measure the pressure drop across the regulator to ensure proper regulator function e PI3 PI2 locations measure the pressure drop across the filter to help indicate when filter maintenance is needed RV Relief Valve The Swagelok FSM is available with an optional proportional relief valve to guard the rest of the analytical system from a drastic increase in pressure downstream of the regulator Installing a Field Station Module The schematic below illustrates an FSM installed in a process line Field Station Sample _ Process Module Conditioning Analyzer System 7 Process Low Pressure Isolation Sample Analyzer Location Process Nozzle Valve Transport Line For faster analysis mount the FSM on top of the process nozzle as shown above If direct mounting on the nozzle is impractical or inconvenient install the FSM close to the process nozzle as shown below Keep the connecting tube that links the probe to the FSM as short as possible Because the connecting tube contains gas at full process pressure it is important to minimize its volume to maintain the fastest response time to the analyzer Connecting Tube Sample Process at High Pressure Field Station Conditioning Ana
18. ow centered on the front Enclosure Options Dimensions Dimensions in inches millimeters are for reference only and are subject to change 304 Stainless Steel 904 16 2 411 Front Side Closed Side Open ABS Plastic 21 0 533 g i 10 0 254 Y a pi 0 81 20 5 Side Closed Side Open Fiberglass 33 8 859 Side Closed Side Open 18 Enclosure Options Sun Shades As an alternative to enclosures sun shades are available in 304 stainless steel ABS plastic and fiberglass e Stainless steel sun shades are manufactured by Swagelok e ABS plastic sun shades are manufactured by O Brien Corporation e Fiberglass sun shades are manufactured by Intertec Instrumentation Material Dimensions in mm Mounting Mounted 304 SS 22 4 H 20 W 20 D 569 H 508 W 508 D Mounts to the FSM brace in place of an enclosure Unmounted ABS plastic 19 5 H 17 W 19 5 D Mount to a 2 in structural 495 H 432 W 495 D pipe not supplied Unmounted two pipe clamps and Fiberglass 7 0 H 22 4 W 22 4D Mounting hardware provided 178 H 569 W 569 D ABS Plastic Sun Shade Shown with Mounting Bracket Available Separately
19. rease In high pressure systems without field station modules the expansion can be so great that the result is explosive in nature Installing an FSM at the process sampling point means a smaller section of the sample system is exposed to high pressure resulting in a safer overall environment PR Field Station Module Basics PR Pressure Regulator The main purpose of a Swagelok FSM is to reduce the pressure of an extracted gas sample prior to transportation to an analyzer Various Swagelok KPR series regulators are offered to match the wide range of sample conditions The system volume upstream of the regulator is kept to a minimum to maintain the fastest response time possible Inlet Outlet Vent FP Filter Particulate It is recommended to filter all samples prior to a pressure regulator Swagelok offers a wide range of particulate filters FP membrane filters FM and coalescing filters FC to accommodate various particulate loads and sample moisture levels Where it is desirable to reduce high pressure volume even further the FSM can be ordered without a filter In this case an integral filter is included in the inlet side of the regulator BV Ball Valve To allow for fast and local shutoff of an FSM all configurations include a Swagelok 40G series ball valve at the inlet of the system PI Pressure Indicator Swagelok includes gauges in three different pressure indicator locations for convenient troublesho
20. s in the line so all other things being equal it takes half the time for a fresh sample to reach the analyzer Typically an FSM is used when process pressure is 3 bar gauge 43 5 psig or higher Less Condensation The relative humidity of a gas is directly proportional to the partial pressure of water vapor in the mixture A relative humidity or saturation of 100 represents the maximum partial pressure of water vapor possible at a working temperature Therefore if water vapor in any gas mixture reaches 100 of Its saturation limit water vapor will begin to condense in a sample transport line To avoid condensation in gas sampling the FSM reduces the partial pressure of every gas in the sample mixture One way to lower partial pressure of every gas is to reduce overall system pressure the partial pressure of each gas drops in proportion to the overall pressure change For example if the absolute pressure of a sample is cut in half the partial pressure of each gas in the mixture is cut in half as well which results in half the water saturation in the sample Using an FSM significantly reduces the chance of condensation forming in the sample transport line AP a Water Molecules Safer Environment If a system is compromised the pressurized gas will expand to atmospheric pressure rapidly and can cause system damage or personal injury The volumetric expansion ratio is directly proportional to the absolute pressure dec
21. sures inlet pressure at the regulator e Optional small capacity particle filter FP e Fastest response for sample systems 2 Clean Dry Medium Pressure Designed for clean dry samples in medium to high pressure systems Volume upstream of the regulator is kept to a minimum however gauges are assembled in a vertical orientation allowing for an upstream filter gauge e Low internal volume e Optional Pl2 gauge measures inlet pressure at the regulator e Optional PI3 gauge allows pressure drop measurement across the filter which helps indicate when filter maintenance is needed e Optional small capacity particle filter FP Inlet Inlet Shown with Stainless Steel Enclosure Base Outlet Vent Outlet Vent Configurations 3 Low Moisture and Particulate Load Designed for process lines with low levels of moisture and particulate load e Low internal volume maintained in this design e Membrane separator FM with integral gravity drain allows moisture to drop back to process RV e Maximum recommended flow rate through a membrane separator is 0 18 std ft min 5 1 std L min e Optional Pl2 gauge measures inlet pressure at the regulator Inlet Outlet Vent 4 High Particulate Load Handles highest particulate load of any configuration e Optional PI3 gauge allows pressure drop measurement across the filter which helps indicate when filter maintenance Is
22. ttings and Adapter Fittings catalog MS 01 140 See Swagelok Pressure Gauges Industrial and Process PGI Series catalog MS 02 170 Stainless steel tube fittings Swagelok 316 316L SS A213 A269 Stainless steel tubing Swagelok See Swagelok Stainless Steel Seamless Tubing catalog MS 01 1 SCS er 304 SS A240 enclosure Nee ene O Brien See O Brien Corporation VIPAK catalog VIPAK A1 www obcorp com Fiberdess endosu Intertec See Intertec Instrumentation DIABOX 87 catalog 9 DIABOX 87 www intertec info shade O Brien See O Brien Corporation VIPAK catalog eT craace lt unchece Intertec See Intertec Instrumentation SD 50 Shade catalog 9 SD 50 www intertec info A EE E Intertec See Intertec Instrumentation explosion proof CP MULTITHERM convection heaters www intertec info Seal E Intertec See Intertec Instrumentation explosion proof 9 SL BLOCKTHERM conduction heaters www intertec info Thermoset Intertec See Intertec Instrumentation DIABOX 87 catalog TS and TAE www intertec info Thermometer Swagelok See Swagelok Temperature Measurement Devices 9 catalog MS 02 353 10 Configurations 1 Clean Dry High Pressure Specially designed to minimize sample system volume upstream of the pressure drop This is especially important in high oressure systems where upstream molecules travel at extremely slow velocities e Lowest internal volume upstream of the regulator PR e Optional PI2 gauge mea
23. wagelok B Model A Regulator outlet only B Regulator inlet and outlet C Filter inlet and regulator outlet D Filter inlet regulator inlet and regulator outlet Available on configurations 2 4 and 5 only 4 Pressure Gauge Dial Size Fill Swagelok B Model 1 63 mm 2 1 2 in unfilled 2 63 mm 2 1 2 in silicone fill 3 100 mm 4 in unfilled 4 100 mm 4 in silicone fill Filter inlet gauge has a 63 mm 2 1 2 in dial FJ Filter A 15 um TF series particle filter configurations 1 and 2 only X No separate filter 25 um gauze inlet filter on regulator Y Required for configurations 3 4 and 5 EJ Relief Valve A Pre set adjustable relief valve B Pre set adjustable relief valve manual override handle X No relief valve For 100 and 300 psig 6 8 and 20 6 bar systems RL3 relief valve is factory set to 45 psig 3 1 bar for 1000 and 2500 psig 68 9 and 172 bar systems R3A relief valve is factory set to 50 psig 3 4 bar Inlet Connection Bulkhead S4 1 4 in Swagelok tube fitting 6M 6 mm Swagelok tube fitting F4 1 4 in female NPT F8 1 2 in female NPT Tube ES Entry seal includes removable 1 4 in tube stub T4 1 4 in tube stub removable Flange Not available on ABS plastic and fiberglass enclosures B1 3 4 in ASME class 1500 B3 3 4 in ASME class 600 B5 3 4 in ASME class 1500 D1 1 1 2 in ASME class 1500 D3
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