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Your ITT Goulds Pumps ManualITT Goulds Pumps is pleased to provide you with this copy of GPM9. Since the first edition was published in 1973,GPM has earned a reputation as the most complete and useful source of pump information available. Were proudof GPM and confident that you will find it to be a valuable tool for application and selection of pumps.
For the very latest pump information or to use our Pump Selection System, visit www.gouldspumps.com.
How to Use GPMRefer to either the Table of Contents (pages 4-10), the Pump Type / Application Index (pages 11-12), or the ModelNumber (and description) Index (pages 13-14).
Then, simply refer to the appropriate section for details of the selected pump model. Although weve generallyincluded enough information about each pump to do basic selection, you may require additional specifics such aspricing, delivery, or special constructions. No problem. Just call your nearest Goulds sales office or representative.
In addition to the product sections, a Technical Data Section is included as a useful reference for pump fundamen-tals and applications, mechanical and motor data, hydraulic data, properties of liquids, and conversion factors.
SafetyUser safety is a major focus in the design of our products. ITT Goulds pumps will provide safe, trouble-free ser-vice when properly installed, maintained, and operated.
Safe installation, operation, and maintenance are an essential end user responsibility. Detailed Safety Warnings areincluded in the front of each Installation, Operation, and Maintenance manual. Understanding and adhering tothese safety warnings is mandatory to ensure personnel, property, and/or the environment will not be harmed.Adherence to these warnings alone, however, is not sufficient it is expected that the end user will also complywith industry and corporate safety standards.
Please take the time to review and understand the safe installation, operation, and maintenance guidelines outlinedin our Installation, Operation, and Maintenance manuals. Current manuals are available atwww.gouldspumps.com/literature_ioms.html or by contacting your nearest Goulds sales representative.
Corrections?Goulds strives to provide an accurate GPM. If you find an error, technical or typographical, we would be grateful tohear about it. A marked-up photocopy, in addition to the following information would be most helpful:
Type of Error Found: Technical Typographical Found on Page(s) ______ Section: _______________
Description: _________________________________________________________________________________________________________________________________________________________________________________________________________________________________________
Please fax to: ITT Goulds Pumps Marketing Communications at 315-568-7759.
GPM9Goulds Pump Manual 2009 Goulds PumpsA subsidiary of ITT Corporation
1
2
Chemical ProcessGeneral process services, mild tosevere corrosives, solids handling withminimum degradation, low flow ser-vices, elevated temperature liquids,and hazardous fluids.
3
Product / ServiceSections
4Double SuctionHigh capacity pumps designed for watersupply in general industrial, process,marine and municipal services.
Multi-StageReliable performance in demandinghigh pressure services such as boilerfeed, cogeneration, booster, andreverse osmosis.
Abrasive Slurry/Solids HandlingFine to large abrasive slurries, corro-sives, large solids handling, andwastewater.
Pulp & Paper/ProcessPulp & paper stock services, highcapacity process services, handlingfibrous/stringy materials, entrained air,non-abrasive solids and corrosives.
API ProcessHigh temperature and high pressureprocess pumps for petroleum, heavyduty chemical, and gas industry ser-vices.
Goulds Pump Manual contains information on over 60different Goulds and A-C models, arranged by categoryin nine product and service sections. Section 10 is theTechnical Data Section for ease of reference and choiceof the best pumping solution.
7
Vertical TurbineLow to high capacity and low to highhead water and process servicesverti-cal turbine pumps in a variety of flexibleconfigurations for clean and corrosive /erosive applications.
PumpSmart/ProSmartProcess Control Systems.
Plant Performance ServicesReduce total cost of pump ownership.
Technical Data SectionA useful reference for pump fundamentalsand applications, mechanical and motordata, hydraulic data, properties of liquids,and conversion factors.
GPM9
Goulds Capacities to Heads to Temp. to Sub-
Model Description GPM (m3/h) Feet (m) F (C) Sect.
4
GPM9 Table of Contents
1 CHEMICALPROCESS 3196i-FRAMETM ANSI Chemical 7000 730 700 CHEMProcess Pumps (1364) (223) (370) -1ALF 3196 Low Flow ANSI 220 925 700 CHEMi-FRAMETM Process Pumps (50) (280) (370) -1C
3796 Self-Priming 1250 430 500 CHEMi-FRAMETM Process Pumps (280) (130) (260) -1E
3996 ANSI In-Line 1400 700 500 CHEMProcess Pumps (318) (210) (260) -1F
IC ISO 5199 Chemical 1980 525 535 CHEMSERIES Process Pump for Global (450) (160) (280) -1BIndustrial Process
Applications
NM 3196 ANSI FRP Process 1400 500 200 CHEMi-FRAMETM Pumps for Corrosive (318) (152) (90) -2A
Services
3198 ANSI Pumps with 800 450 300 CHEMi-FRAMETM PFA TEFLON Lining for (180) (140) (150) -2B
Severe Corrosive Services
3196 i-FRAME
LF 3196 i-FRAME
NM 3196i-FRAME
3796 i-FRAME
IC
3996
CV 3196i-FRAME
HT 3196 High Temperature 4500 925 700 CHEMi-FRAMETM Applications in the (1020) (282) (370) -1GChemical Process Industry
HT 3196i-FRAME
METALLIC SEALED
NON-METALLIC / LINED, SEALED
TEFLON is a registered trademark of DuPont.
ICP
3198 i-FRAME
ICB
CV 3196 Recessed Impeller 1200 290 500 CHEMi-FRAMETM Pumps for Non-Clog (270) (90) (260) -1DSolids Handling
Goulds Capacities to Heads to Temp. to Sub-
Model Description GPM (m3/h) Feet (m) F (C) Sect.
5
3299 ANSI PFA Lined Sealless 425 490 360 CHEMPumps for Severe (95) (150) (180) -3CChemical Services
V 3298 ANSI Vertical ETFE 320 460 250 CHEMLined Multi Duty Sealless (73) (140) (120) -3BPump for ChemicalServices
ICM/ ISO Metal Sealless 1760 685 535 CHEMICMB Pump for Chemical and (400) (210) (280) -3DGeneral Services
SP 3298 ANSI ETFE Lined Self- 325 145 250 CHEMPriming Sealless (74) (44) (120) -3BPumps Designed for Chemical Services
3171 Vertical Sump 3180 344 450 CHEMProcess Pumps (720) (105) (230) -4A
API 3171 API VS4 Vertical 3180 525 450 CHEMSump Pumps (720) (160) (230) -4C
AF Axial Flow Pumps for 200000 30 600 CHEMCorrosive, Abrasives, (45430) (10) (315) -5ASlurries, and Wastes
3171
NM 3171
V 3298
AF
3299
3296 EZMAG
SP 3298
ICM
SUMP PUMPS
MAGNETIC DRIVE - Zero Leakage Services
AXIAL FLOW
3296 ANSI Magnetic Drive 700 550 535 CHEMEZMAG Process Pumps (160) (168) (280) -3A
3298 ANSI ETFE Lined 1200 350 250 CHEMSealless Pumps (270) (160) (120) -3Bfor Chemical Services
CV 3171 Vertical Sump 1300 230 450 CHEMProcess Pumps for (300) (130) (230) -4BCorrosive Slurries
NM 3171 Vertical Sump 1400 300 200 CHEMProcess Pumps for (318) (92) (80) -4DSevere Corrosives
API 3171
Goulds Capacities to Heads to Temp. to Sub-
Model Description GPM (m3/h) Feet (m) F (C) Sect.
Goulds Capacities to Heads to Temp. to Sub-
Model Description GPM (m3/h) Feet (m) F (C) Sect.
3700 API-610 / ISO 13709 6500 1200 800 API-1AOH2 Overhung Pump (1475) (360) (425)High Temperature andPressure
3175 Paper Stock/ 28000 350 450 PP-1AHigh Capacity (6360) (107) (230)Process Pumps
6
3175
3500XD
3180/3185
3181/3186
2 PULP & PAPER /PROCESS
3 API PROCESS
3180/ Paper Stock/ 26000 410 446 PP-1B3185 Process Pumps (6000) (125) (230)
3500 Medium Consistency 2200 650 210 PP-1DPaper Stock (1850 (200) (100)XD Pump Systems ADMTPD)
3181/ High Temperature/ 13000 410 508 PP-1C3186 High Pressure (3000) (125) (300)Paper Stock/Process
Pumps
3700
3620
3640
3910
3910 API-610 / ISO 13709 7500 750 650 API-1BOH3 Vertical In-line Pump (1700) (230) (340)High Temperature and Pressure
3620 API-610 / ISO 13709 20000 1500 800 API-1DBB2 Between-Bearings, (4540) (460) (425)Single Stage, Radially-SplitHigh Temperature andPressure
3640 API-610 / ISO 13709 7500 2500 800 API-1EBB2 Between-Bearings, (1700) (760) (425)Two Stage, Radially-SplitHigh Temperature andPressure
3600 Heavy Duty, Axially Split 4500 6000 400 API-1CBB3 Between-Bearings, (1000) (1825) (205)Multi-Stage, Pumps.API 610 / ISO 13709
3610 API-610 / ISO 13709 50000 700 300 API-1FBB1 Between-Bearings, (11355) (215) (150)Single Stage, Axially-Split,Double Suction
3610
7Goulds Capacities to Heads to Temp. to Sub-
Model Description GPM (m3/h) Feet (m) F (C) Sect.
Goulds Capacities to Heads to Tempr to Sub-
Model Description GPM (m3/h) Feet (m) F (C) Sect.
3408A Small Capacity 6000 570 250 DS-1A3410 Horizontal Split Case, (1363) (175) (120)Single Stage, Double
Suction Pumps
3409 Medium Capacity 12000 850 250 DS-1BHorizontal Split Case, (2725) (260) (120)Single Stage, DoubleSuction Pumps
3420 Large Capacity 65000 400 275 DS-1CHorizontal Split Case, (14760) (120) (135)Single Stage, DoubleSuction Pumps
3498 Extra Large Capacity 225000 800 275 DS-1DHorizontal Split Case, (51100) (240) (135)Single Stage, DoubleSuction Pumps
3935 Low Flow / High Head 280 2500 400 MS-1DDiffuser Type Multi-Stage (60) (760) (200)Pumps
3316 Two-Stage, 3000 1000 350 MS-1CHorizontally (680) (300) (180)Split CasePumps
3311 Radially Split, Segmented 1100 5250 355 MS-1BMulti-Stage Pumps (250) (1600) (180)
3355 Radially Split, Segmented 1500 1640 280 MS-1AMulti-Stage Pumps (340) (500) (140)
4DOUBLESUCTION3410
3408A
3498
5MULTI-STAGE
3600
3355
3935
3311
3316
3600 Heavy Duty, Axially-Split 4500 6000 400 REFERBetween-Bearings (1000) (1825) (205) TOMulti-Stage Pumps API-1C
8Goulds Capacities to Heads to Temp. to Sub-
Model Description GPM (m3/h) Feet (m) F (C) Sect.
JC Medium Duty 7000 240 250 AS-1BSlurry Pumps for (1600) (70) (120)Corrosive/AbrasiveSlurriesSolids to 21/4 in. (57 mm)
Heavy Duty Elastomer/ 20000 165 250 AS-1ARubber Lined Slurry Pumps (4550) (50) (120)for Corrosive/AbrasiveSolids to max. particleclearance to 23/8 in.(60 mm)
HS Recessed Impeller 7000 140 200 AS-1DNon-Clog Pumps (1590) (40) (90)For Large Solids,Corrosives, AbrasivesSolids to 10 in. (254 mm)
Trash Solids Handling 6000 140 225 AS-1ESelf-Priming Pumps (1360) (40) (110)Hog Solids to 3 in. (76 mm)
5500 Severe Duty, Hard Iron 17000 425 250 AS-1CSlurry Pumps for Abrasive (3860) (140) (120)SlurriesSolids to 5 in. (127 mm)
6 ABRASIVESLURRY/SOLIDSHANDLING
5500
HS
JC
SRL -C
Trash Hog
SRLSRL-CSRL-SSRL-XT
9Goulds Capacities to Heads to Temp. to Sub-
Model Description GPM (m3/h) Feet (m) F (C) Sect.
HSU Submersible Pumps 4000 220 190 AS-1IHSUL for Large, Fibrous (910) (70) (90)JCU
Solids, AbrasiveSlurriesSolids to 6 in.(152 mm)
NSY Horizontal-Vertical 23000 90 AS-1GMixed Flow Pumps (5220) (30) Solids to 9 in.(229 mm)
NSW Horizontal-Vertical 9000 280 AS-1FNon-Clog Pumps (2040) (80) Solids to 6.38 in.(162 mm)
WSY Single Suction Dry Pit 110000 200 200 AS-1KSSE Pumps (25000) (60) (90)SSF Solids to 13.25 in.
(336 mm)
VHS Vertical Cantilever 8000 260 200 AS-1HVJC Pumps for Large (1820) (80) (90)Solids and Abrasive
SlurriesSolids to 10 in.(254 mm)
NSY
VJC
HSU
SSF
VRS Vertical Rubber-Lined 1500 120 AS-1JPumps for Abrasives (340) (40) and SlurriesSolids to1/4 in.(6 mm)
VRS
NSW
10
Goulds Capacities to Heads to Temp. to Sub-
Model Description GPM (m3/h) Feet (m) F (C) Sect.7 VERTICALTURBINE & DRY PIT
VIS Vertical Industrial 40000 1400 VT-1ASubmersible Pumps (9000) (430)
WCAX Vertical Wet Pit 500000 600 150 VT-1BYDD Column Pumps (114000) (190) (65)WCAWCBWMCCWMCE
WMCC VIS
VIT Vertical Industrial 70000 3500 500 VT-1ATurbine Pumps Designed (15900) (1070) (260)to Meet Wide Range of Hydraulic Requirements and Custom UserSpecifications
VIC Vertical Industrial 70000 3500 500 VT-1AVIC- Can-Type Pumps (15900) (1070) (260)APIVIC
VIT
MONITORINGAND CONTROL8 Pump- Pump System All 2000 208 - MC-1ASmart Control (1500) 680
Pump Power to Voltage Sub-
Model Description Models HP (kw) in VAC Sect.
Pro- Machine Health All - - MC-1BSmart Monitoring
PLANTPERFORMANCESERVICES9
PPS ProActivitySM PPS-1AREsolveSMEfficiencyMonitoringDesignRepairLearningInventory
PumpSmart
ProSmart
10 TECHNICALDATATECH Centrifugal Pump Fundamentals TECH-APump Application Guide TECH-B
Water Data TECH-CProperties of Liquids TECH-DPaper Stock TECH-EMechanical Data TECH-FMotor Data TECH-GConversion Factors and Engineering Data TECH-HPump Operation and Maintenance TECH-IMiscellaneous Pump Information TECH-J
11
IndexPump Type/ApplicationPump Type/Application Goulds Models
Abrasive Slurry Light to Medium Duty AF, CV 3171, HS, HSU, HSUL, JC
Heavy Duty 5500, AF, JCU, SRL, SRL-C, SRL-S,SRL-XT,VJC, VRS
ANSI (Dimension) 3196, LF 3196, NM 3196, 3198, 3296, 3298, 3299,3996, V 3298
API 3600, 3610, 3620, 3640, 3700, 3910, VIT, VIC API 3171
Axial Flow AF
Close-Coupled 3298, 3299, V 3298, SP 3298, ICMB, ICB
Double Suction 3408A, 3409, 3410, 3420, 3498, 3610, 3620
Fan Pumps (See Double Suction)
Fire Pumps 3408A, 3409, 3410, VIT
High Capacity (Process) 3175, 3180/85, 3181, 3186, AF
High Pressure (Heads 1000 feet [305 m] 3311, 3316, 3355, 3620, 3640, 3600, 3700, 3935, and greater) VIC, VIT
High Temperature (500 F [260 C] 3181/86, 3196, HT 3196, LF 3196, CV 3196, 3296, 3620, and greater) 3640, 3700/3710, 3796, 3910, 3996, ICP, ICMP, VIT, VIC
In-line V 3298, 3910, 3996
ISO (Dimension) IC, ICM, ICMB
Lined 3198, 3298, SP 3298, V 3298, 3299
Low Flow LF 3196, 3935, IC
Magnetic Drive 3296, 3298, SP 3298, V 3298, 3299, ICM
Mining 3408A, 3409, 3410, 3196, 3298, 3180, 5500, AF, IC, JC,JCU, HS, HSU, HSUL, SRL, SRL-C, SRL-S, SRL-XT, Trash Hog, VIC, VIS, VIT-FF, VHS, VJC, VRS
Multi-Stage 3311, 3316, 3355, 3600, 3640, 3935
Non-Clog (Also See Recessed Impeller), NSW, NSY, SSE, SSF, WSY
Non-Metallic NM 3196, NM 3171, 3198, 3298, SP 3298, V 3298, 3299PPS ProActivitySM PPS-1AREsolveSM
EfficiencyMonitoringDesignRepairLearningInventory
12
Pump Type/Application Goulds Models
Paper Stock 3175, 3180/85, 3181/86, 3500XD
Process Control Systems PumpSmart , ProSmart
Recessed Impeller (Vortex) CV 3171, CV 3196, HS, HSU, HSUL, VHS
Sealless (See Magnetic Drive) 3171, CV 3171, NM 3171
Self-Priming SP 3298, 3796, Trash Hog
Sewage and Sludge CV 3171, HS, HSU, HSUL, NSW, NSY, SSE, SSF, Trash Hog, VHS, WSY
Slurry (See Abrasive Slurry)
Solids Handling (Large Non-Abrasive) CV 3171, 3175, 3180/85, 3181/86, CV 3196, 3500XD, HS, HSU, HSUL, VHS
Submersible VIS (See Sump)
Sump (Submersible) HSU, HSUL, JCU
Vertical Cantilever VHS, VJC, VRS
Vertical Dry Pit 3171
Vertical (Non-Metallic) NM 3171
Vertical (Submerged Bearing) 3171, CV 3171, NM 3171
Vertical Sump 3171, CV 3171, NM 3171, VJC, VHS
Vertical Turbine VIC, VIC-API, VIT, VIS, VMF, WCAX, WCA, WCB, WMCC, WMCE, YDD
Vertically-Mounted Double Suction 3408A, 3409, 3410(v), 3498
Water Pumps (General Service) 3171, 3196, 3408A, 3409, 3410, 3420, 3498, IC, ICB
Water Pumps (High Capacity) 3408A, 3409, 3410, 3420, 3498, AF
Pump Type / Application
3171 CHEM-4A
Vertical Sump Process Pump3175 PP-1A
Paper Stock / High Capacity Process Pumps3180 PP-1B
Paper Stock / Process Pumps3181 PP-1C
High Temperature/ High Pressure Paper Stock / Process Pumps3185 PP-1B
Paper Stock / Process Pumps3186 PP-1C
High Temperature / High Pressure Paper Stock / Process Pumps3196 CHEM-1A
ANSI Chemical Process Pumps3198 CHEM-2B
ANSI Pumps with PFA Teflon Lining for Severe Corrosive Services3296 EZMAG CHEM-3A
ANSI Metal Magnetic Drive Process Pumps for Zero Leakage Services3298 CHEM-3B
ANSI ETFE Multi-Duty Sealless Pumps for Chemical Services3299 CHEM-3C
ANSI Heavy Duty PFA Lined Sealless Pumps for Chemical Services3311 MS-1B
Radially Split, Segmented Multi-Stage Pumps3316 MS-1C
Two-Stage, Horizontally Split Case Pumps3355 MS-1A
Multi-Stage Pumps3408A DS-1A
Single Stage Double Suction Pumps3409 DS-1B
High Capacity, Single Stage Double Suction Pumps3410 DS-1A
Single Stage Double Suction Pumps3420 DS-1C
High Capacity Single Stage Double Suction Pumps3498 DS-1D
High Capacity Single Stage Double Suction Pumps3500XD PP-1D
Medium Consistency Paper Stock Pump Systems3600 API-1C
API-610 BB3 Between Bearings, Multi-Stage3610 API-1F
API-610 BB1 Between Bearings, Single Stage,Axially-Split, Double Suction3620 API-1D
API-610 BB2 Between Bearings, Single StageRadially-Split3640 API-1E
API-610 BB2 Between Bearings, Two-Stage Radially-Split3700 API-1A
API-610 OH2 Overhung, High TemperatureHigh Pressure
3796 CHEM-1E
Self-Priming Process Pumps for a Range of Industry Services3910 API-1B
API-610 OH3 Vertical In-Line, High Temperature, High Pressure3935 MS-1D
Low Flow / High Head Diffuser Type Multi-Stage Pumps3996 CHEM-1F
ANSI In-Line Process Pumps5500 AS-1C
Severe Duty Abrasive Slurry PumpsAF CHEM-5A
Axial Flow Pumps for Corrosive, Abrasives, Slurries, and WastesCV 3171 CHEM-4B
Vertical Sump Process Pumps for Non-Clog Solids HandlingCV 3196 CHEM-1D
Recessed Impeller Pumps for Non-Clog Solids HandlingHS AS-1D
Recessed Impeller Non-Clog Pumps for Large Solids, Corrosives, AbrasivesHSU AS-1I
Submersible Pumps with Agitator for Abrasive SolidsHSUL AS-1I
Submersible Pumps with Agitator for Abrasive SolidsHT 3196 CHEM-1G
High Temperature Applications in the Chemical Process IndustryIC / ICB / ICP CHEM-1B
ISO 5199 Cehmical Process Pumps for Global Industrial Process ApplicationsICM / ICMB CHEM-3D
ISO 5199 / ISO 15783 Sealless Chemical Process Pumps Designed for Global Process ApplicationsJC AS-1B
Medium Duty Slurry Pumps for Corrosive / Abrasive SlurriesJCU AS-1I
Submersible Pumps for Abrasive SolidsLF 3196 CHEM-1C
Low Flow ANSI Process PumpsNM 3171 CHEM-4D
Non-metallic Vertical Sump Process Pumps Designed for Severe Corrosive ServicesNM 3196 CHEM-2A
ANSI FRP Process Pumps for Corrosive ServicesNSW AS-1F
Horizontal-Vertical Non-Clog Pumps
13
Model Number / Section Number IndexGoulds
Model Section
Goulds
Model Section
14
Model Number / Section Number IndexGoulds
Model Section
Goulds
Model Section
VIC
Vertical Industrial Can Type PumpsVT-1A
VIS
Vertical Industrial Submersible PumpsVT-1A
VIT
Vertical Industrial Turbine Pumps Designed to Meet Wide Range of Hydraulic Requirements and CustomSpecifications of the User
VT-1A
VJC
Vertical Cantilever Pumps for Large Solids, Abrasive Slurries
AS-1H
VRS
Vertical CantileverAS-1J
WCA
Vertical Column PumpsVT-1B
WCAX
Vertical Column PumpsVT-1B
WCB
Vertical Column PumpsVT-1B
WMCC
Vertical Column PumpsVT-1B
WMCE
Vertical Column PumpsVT-1B
WSY
Dry Pit PumpsAS-1K
YDD
Vertical Column PumpsVT-1B
NSY
Horizontal-Vertical Mixed Flow PumpsAS-1G
PumpSmart
Process Control SystemsMC-1A
ProSmart
Process Control SystemsMC-1B
SP 3298
ETFE Self-Priming Sealless Pumps Designed for Chemical Services
CHEM-3B
SRL
Single Stage Rubber Lined Pumps for Corrosive/Abrasive Slurries
AS-1A
SRL-C
Single Stage Thick Rubber Lined Pumps for Corrosive/Abrasive Slurries
AS-1A
SRL-S
Single Stage Rubber Lined Pumps for Corrosive/Abrasive Slurries with _______ or Entrained Air.SRL-XT
Single Stage Rubber Lined Pumps for Corrosive/Abrasive Slurries
AS-1A
SSE
Dry Pit PumpsAS-1K
SSF
Dry Pit PumpsAS-1K
Trash Hog
Solids Handling Self-Priming PumpsAS-1E
V 3298
ANSI Vertical ETFE Multi-Duty Sealless Pumps for Chemical Services
CHEM-3B
VHS
Vertical Cantilever Pumps for Large Solids, Abrasive Slurries
AS-1H
ChemicalProcessChemical
Process
11
15
Goulds Model 3196 i-FRAMEChemical Process PumpsDesigned for Total Range of Industry Services Capacities to 7000 GPM (1364 m3/h) Heads to 730 feet (223 m) Temperatures to 700F (371 C) Pressures to 375 PSIG (2586 kPa)
Outstanding Features forOutstanding PerformanceExtended Pump Life
Fully Open Impeller Engineered Seal Chambers i-FRAME Power Ends Engineered Pump Mounting Systems Ease of Maintenance
Back Pull-Out Design External Impeller Adjustment Maximum Interchangeability Optional C-Face Motor AdapterOptimum Hydraulic Performance
Fully Open Impeller Full 50/60 Hz Coverage 29 Sizes Pump Selection SoftwareSafety
Heavy Duty Casings Hydrostatic Testing of Pressure Retaining Components ANSI B15.1 Coupling Guard Ductile Iron Frame Adapter Optional Shaft Guard
Proven PerformanceEvery day in over 1,000,000 installations, Goulds processpumps prove why they are the industry standard for per-formance. Users in chemical, petrochemical, pulp &paper, primary metals, food & beverage and generalindustries know they can make no better choice than thebest.
Model3196 STi5 ANSI Pumps
0
TOTA
L H
EAD
FE
ET (M
ETER
S)
0
725(221)
1700 (386)
0
TOTA
L H
EAD
FE
ET (M
ETER
S)
0
325(99)
425 (97)
600 (136)0
TOTA
L H
EAD
FE
ET (M
ETER
S)
0
310(96)
6000 (1363)
Model3196 MTi15 ANSI Pumps
Model3196 XLT-i9 ANSI Pumps
CHEM-1A
CHEM-1A 16
Model 3196 Process PumpsFeaturing i-FRAME Patented Intelligent Monitoring
i-FRAMEPOWER END
Designed for reliabilityand extended pump life,backed with a 5-yearwarranty.
POSITIVE
SEALING
Fully confined gasketat casing joint pro-tects alignment fitfrom liquid, makesdisassembly easier.
CASING
Bonus casing thickness: Class 150 pumps feature Class 300 wall thickness as standard; increased
reliability and maximized casing life. Top centerline discharge for air handling, self-venting.
Back pull-out design for ease of maintenance. Integral casing feet prevent pipe load misalignment
maximized seal and bearing life. Serrated flanges standard for positive sealing against
leakage. Meets ANSI B16.5 requirements.
SEALING FLEXIBILITY
Wide range of sealing arrangementsavailable to meet service conditions.
i-ALERT CONDITION MONITOR(Patented)
Constantly measures vibration and tempera-ture at the thrust bearing. Colored LEDsindicate general pump health. Provides earlywarning of improper operation before cata-strophic failure occurs.
CONTINUOUS PERFORMANCE
Original flow, pressure and efficiency aremaintained by simple external adjustmentresulting in long-term energy and repairparts savings.
CHEM-1A
HEAVY DUTY SHAFT
AND BEARINGS
Rigid shaft designed for mini-mum deflection at seal facesless than 0.002 in. (.05 mm).Bearings sized for 10-yearaverage life under tough operating conditions. Availablewith or without shaft sleeve.
INPRO VBXX-D
HYBRID
LABYRINTH SEALS
Prevents premature bearing failure caused by lubricant contamination or loss of oil. Stainless steel rotors for optimalperformance in corrosive environments.
FULLY OPEN IMPELLER
Acknowledged best design for CPIservicessolids handling, stringy
material, corrosives, abrasives. Two times the wear area of closed -
type impellers for longer life. Back pump-out vanes reduce radial thrust
loads and seal chamber pressure.
MAGNETIC
DRAIN PLUG
Standard magneticdrain plug helps protectbearings and prolonglife.
OPTIMIZED OIL
SUMP DESIGN
Increased oil capacity pro-vides better heat transferfor reduced oil tempera-ture. Bearings run coolerand last longer.Contaminants directedaway from bearings tomagnetic drain plug.
PREMIUM
SEVERE-DUTY
THRUST BEARINGS
Increase bearing fatigue lifeby 2-5X that of conventionalbearing steels.
CHEM-1A17
Before Selecting A Process Pump...
Consider the Total Cost Of Ownership
Consider the Four Design Features For Extended Pump Performance
IMPELLER
Must be designed for long-term, maintainable performance and minimum hydraulic loads for maximum reliability.
SEAL CHAMBER
Must be designed for favorable seal environmentproper heat dissipation and lubrication of seal faces. The design must also beable to handle tough services: liquids containing solids, air or vapors.
POWER END
Must be designed for optimum bearing life, effective oil cooling, minimum shaft deflection. Onboard condition monitoring provides early warning of potential failures, before they occur.
BASEPLATE
Must be rigid, and able to withstand forces and moments of plant piping systems.
A
B
C
D
B
AD
C
Consider the fact that over a 20-year ANSI pump life, 92% of thetotal costs are maintenance, operation and installation. Only 8% isthe initial pump purchase cost.Select a process pump that maximizes reliability (low maintenancecost), has long-term maintainable hydraulic performance (low operating cost) and is installed on a rigid baseplate.
Energy and maintenance costs during the life of a process pump canbe more than 10 times its purchase price.
FULLY OPEN IMPELLER
Best design for the ChemicalProcess Industries services.Ideally suited for corrosives andabrasives, handles solids andstringy fibers with ease. Allowsfor simple restoration of clearanceswhen wear takes place. Backpump-out vanes reduce pressureon the shaft seal, reduce axialthrust on the bearings.
ENGINEERED
SEAL CHAMBERS
BigBoreTM and patentedTaperBoreTM PLUS seal cham-bers allow seals to run coolerwith better face lubrication. Keepsolids, air and vapors away fromthe seal faces for extended seallife.
i-FRAMETM POWER ENDSPatented design maximizes relia-bility and MTBF (Mean Time Between Failure). Severe-dutybearings increase bearing life 2-5times, while onboard conditionmonitor gives visible indication ofgeneral pump health. Backed bya five-year standard warranty.
PUMP MOUNTING SYSTEM
Critical for reliability. . .rigid base-plate prevents distortion, main-taining pump/motor alignment;corrosion resistant in severeenvironments. Designed for lowvibration and to withstand pipeloads. Meets total range of plantrequirements, easier installationand maintenance.
MaintenanceCost
$32,000
Operating &Energy Cost
$44,000
Purchase Cost$8,000
Installation Cost$16,000
In order to select a chemical process pump wisely, consideration must be given to design features thatprovide long-term reliable performance. The pump must be designed for optimum shaft seal and bearinglife to prevent the failure of these two primary causes of pump downtime.
CHEM-1A 18
OPTIMIZED OIL SUMP DESIGN
Internal sump geometry is optimized for longer bearing life.Sump size increased by 10%-20% results in better heattransfer and cooler bearings.Contoured design directs contaminants away from bearings, to the magnetic drainplug for safe removal.
Goulds i-FRAME Power EndsExtended Pump Life Through Intelligent Design
1
3
2
i-ALERT CONDITION MONITOR
The heart of the i-FRAME, the condition monitor unit continuously measures vibration and temperatureat the thrust bearing and automatically indicates when pre-set levels of vibration and temperature havebeen exceeded, so that changes to the process or machine can be made before failure occurs.
A visual indication of pump health makeswalk-around inspections more efficient andaccurate. The result is a more robust processto monitor and maintain all your ANSI pumpsso that your plant profitability is maximized.
A reliablility program centered around walk-arounds capturesequipment condition on average once a month; the faliureprocess, however, can begin and end quite frequently within thistime period.
INPRO VBXXD HYBRID BEARING ISOLATORS
Most bearings fail before reaching their potential life. They fail for a variety ofreasons, including contamination of the lubricant. INPRO VBXX-D has longbeen considered the industry standard in bearing lubricant protection. The
i-FRAME now improves upon thatdesign by offering stainless steelrotors, for maximum protection againstcontaminants and the corrosive effectsof seal leakage or environmental conditions. These seals are non-contacting and do not wear.
Des
ign
Life
, X 1
000h
10
60
50
40
30
20
0
Relative Life of Bearing Housing Protection Devices
SingleLip Seal
MagneticSeal
BearingLower
BearingUpper
Labyrinth
Infinite
Goulds i-FRAME Power Ends are the result of 160 years of design expericence, customer interaction,and continuous improvement. Customers get extened Mean Time Between Failure (MTBF) and lowerlife cycle costs (LCC)...quaranteed!
CHEM-1A19
4 SHAFT AND BEARINGS ENGINEERED FORMAXIMUM RELIABILITY
Fatigue life more than double that of conventional bearing steels.
FLINGER/CHANNEL OIL LUBRICATION SYSTEM
Provides 30% increased L10 life; 15F (8C) reduced oil temperature.
Our GuaranteeWe are so confident that the i-FRAME is the most reliable Power End in theindustry, that we are proud to offer a standard 5-year warranty on everyi-FRAME ANSI Process Pump.
5
DUPLEX
THRUST
BEARINGS
With machined brasscages are ideally sized
for high load applications.
OVERSIZED
SHAFT
With duplex thrustbearingsprovide increased L10 by 40%.
Every 3196 i-FRAME Power End is engineered and manu-factured for optimal pump performance and increased MTBF.
LTi POWER END FOR HIGH LOAD APPLICATIONS
The rugged shaft and bearing combination main-tains shaft deflection of less than 0.002 inches atall operating points. The result is longer seal and bearing life.
Premium severe-duty thrust bearings
increase bearing
fatigue life by 2-5X.
High purity steels have fewer inclusions thanstandard steel - better grain structure andwear resistance.
Heat treatment of bearing elements increases hardness for increased fatigue life.
Forty-degree contact angle on the MTi thrustbearing for higher thrust load capability.
35% higher dynamic load rating vs. major competitor.
Increases L'10 bearing life 2X.
ANSI B73.1 Shaft Specification Meets Exceeds
Diameter Tolerance
Surface Finish
Runout
Deflection
Ideal for tough conditions when a power end is pushedbeyond ANSI limits: operating at low flows and higherheads, pumping high specific gravity liquids, fluctuatingprocess conditions, overhung belt drive.Oversized shaft and bearing assembly significantly
expands the limits for long, trouble-free bearingand seal life. On high load applications, the LTi power endimproves bearing life 150%-200%; oil operating temperature reduced by 45F (25 C).
CHEM-1A 20
Fully Open ImpellerAcknowledged Best Design for CPI ServicesThe open impeller is the acknowledged best design for process services. Itis ideally suited for corrsives/erosives, liquids containing solids and stringymaterials. The most reliable pumps feature open impellers as standard.
Remarkably, Goulds had performance in mindwhen the Model 3196 standard dimensionprocess pump was developed in 1959. Of timelysignificance was the decision to feature a fullyopen impeller rather than an enclosed type.There are three excellent reasons why:
See The Difference
1
2
3
Greater wear area for longer life
Renewable performance for reducedrepair costs
Minimum hydraulic loads for maximummechanical reliabilityOpen Impeller Enclosed-type Impeller
1The most critical wear areas of a pump are thecasing and stuffing box/seal chamber clearances.At a given wear rate, the larger wear area meanslonger life.
Two Times More Wear AreaLonger Life, Reduced Repair Costs
OPEN IMPELLER
Wear is uniformthroughout largerarea; no concentratedlife, reduced repairpart cost.
ENCLOSED TYPE
IMPELLER
Less wear area withconcentrated wearat nose ofimpeller...higherrepair part cost.
CriticalWearAreas
Critical WearAreas
Wear Area Calculation (10 inch dia. impeller)
Area Wear Surface = r2 = (5)2 = 79in2
Total Wear Area (Front & Back) = 2 x 79 = 158 in2
Area Nose Ring = 2rW = 2 x x (.9) (.9) = 5 in2
Area Back Cover = r2 = (5)2 = 79 in2
Total Wear Area = 5 + 79 = 84 in2
CHEM-1A21
3
2It is common knowledge that as a pump wears, the performance decreases. Goulds open impeller can be adjusted, simply and quickly, to compensate for wearand renew performance. The enclosed type impellercannot be adjusted. Performance renewal requires new or repaired casing and impeller.
Maintained High PerformanceLong Pump Life
Minimum Hydraulic LoadsExtended Seal and Bearing Life
OPEN IMPELLER
Original performance can be re-set(at the bench or on-site) with externalimpetter adjustment using a common
open-end wrench and feeler gauge. It is done in a matter of minutes.
ENCLOSED TYPE IMPELLER
Front nose ring of impeller cannot beadjusted to provide as new perfor-mance. Parts must be replaced or
repaired.
Goulds open impeller is engineered to assure minimum radial and axial thrust loads; controlledclearances between front and back of impeller minimize radial loads; back pump-out vanes controland reduce axial thrust. Bearing life is guaranteed.
38% INCREASED NPSH14
48
12
00 40 80 100 160
NPS
H(F
T)
CAPACITY (GPM)
0 40 80 100 160CAPACITY (GPM)
0 40 80 100 160CAPACITY (GPM)
2% INCREASED POWER
40
30
20POW
ER(B
HP)
3% REDUCTION TDH9% REDUCTION FLOW
470
450
430HEA
D(F
T)
Typical reduction in performance due to wear (.010 inch per year) on any ANSI pump.
Engineered for Long Life
Back vane height/angle and shroud design areengineered to minimize hydraulic loads through-out the life of the pump. Bearing life is guaran-teed.
As the open impeller is adjusted and perfor-mance renewed, back pump-out vanes controlaxial thrust.
Bearing and seal life are maintained - unaffectedby adjustment.
TYPE 1
Standard Bore
Designed for packing.Also accommodatesmechanical seals.
TYPE 2
BigBoreTM
Enlarged chamber forincreased seal life throughimproved lubrication andcooling.
TYPE 3
Patented
TaperBoreTM PLUS
Lower seal face tempera-tures, self- venting anddraining. Solids andvapors circulated awayfrom seal faces.
TYPE 4
Jacketed Patented
TaperBoreTM PLUS
Maintains proper temperature control (heating or cooling) of seal environment.
TYPE 5
Jacketed BigBoreTM
Maintains proper temperature control (heating or cooling) of seal environment.
22
Engineered Seal Chambers
Engineered Seal Chamber Selection GuideA Ideally Suited
B Acceptable
C Not Recommended
Extended Seal Life and Lower Maintenance Costs
The number one cause of pump downtime is fail-ure of the shaft seal. These failures are normallythe result of an unfavorable seal environmentsuch as improper heat dissipation (cooling), poorlubrication of the seal faces,or seals operating in liquids containing solids, airor vapors.
Goulds engineered seal chambers are designedto provide the best seal environment for anysealing arrangement.
Enlarged bore seal chambers (BigBoreTM andpatented TaperBoreTM PLUS) with increased radi-al clearance between the mechanical seal andseal chamber provide better circulation of liquidto and from seal faces. Improved lubrication andheat removal extend seal life and pump uptime.
The bottom line is lower maintenance costs.
SEAL ENVIRONMENT IS CRITICAL FOR EXTENDED SEAL LIFE
Service
Water-Based Liquids with FlushEntrained Air or VaporSolids 0-10%, no FlushSolids Greater than 10% with FlushPaper Stock 0-5%, no FlushPaper Stock 0-5%, with FlushSlurries 0-5%, no FlushHigh Boiling Point Liquids, no FlushTemperature ControlSelf-Venting and DrainingSeal Face Heat RemovalMolten or Polymerized Liquid, no FlushMolten or Polymerized Liquid with Flush
ACCBCBCCCCCCC
ABCACACCCBACC
AAACA-AACAACC
AAAC--AAAAAAA
ABCA--CCACAAA
CHEM-1A
23
The unique flow path created by the patented VaneParticle Ejector directs solids away from the mechanicalseal, not towards the seal as with other tapered boredesigns. And, the amount of solids entering the bore isminimized. Air and vapors are also efficiently removed. On services with or without solids, air or vapors, Gouldspatented TaperBoreTM PLUS is the effective solution forextended seal and pump life and lower maintenance costs.
Solids/liquid mixture flows toward mechanical seal/seal chamber.Turbulent zone. Some solids continue to flow towardshaft. Other solids are forced back out by centrifugal force (generated by back pump-out vanes).Clear liquid continues to move toward mechanical seal faces. Solids, air, vapors flow away from seal.Low pressure zone created by Vane Particle Ejector. Solids, air, vapor liquid mixture exit seal chamber bore.Flow in patented TaperBoreTM PLUS seal chamber assures efficient heat removal (cooling) and lubrication. Seal face heat is dissipated. Seal faces are continuously flushed with clean liquid.
Goulds Patented* TaperBoreTM
How It Works
1
5
4
3
2
1
2
3
4
5
*U.S. Patent No. 5,336,048
Dynamic SealFor Elimination of Sealing Problems,Reduced Maintenance Costs
BENEFITS OF DYNAMIC SEAL:
Eliminate use of seal water Eliminate pumpage contamination
and product dilution Reduce utility cost Eliminate problems associated with
piping from a remote source Eliminate need to treat seal water Considerably less expensive than a
slurry mechanical seal
Besides being available as a complete unit, anyGoulds 3196 can be easily field-converted toDynamic Seal. Retrofit kits are available.
Stuffing Box Cover Repeller Repeller Plate
On tough pumping services,especially corrosives and slurries,mechanical seals require outside flushand constant, costly attention. Eventhen, seal failures are common, resultingin downtime. Goulds offers a solution:The Dynamic Seal which, simply by fit-ting a repeller between the stuffing boxcover and impeller, eliminates the needfor a mechanical seal.
CHEM-1A
24
Seal Flush Plans
CPI PLAN 7353
Pressurized circulation lubricates double seal faces.
All ANSI B73.1 seal flush and cooling plans areavailable to control emission levels and meet sealinstallation requirements. Goulds can also provideother special arrangements of user preference.
CPI PLAN 7311
By-pass flush lubricates single seal faces.
Sealless SolutionsNot all process pump applications can be sealed with optimum reliability. Goulds ANSI dimensional magnetic drive sealless processpumps are perfect solutions to mechanical seal or environmental sealing problems. The 3296 EZMAG metal magnetic drive process pumphas a revolutionary bearing cartridge design for maximum reliability and ease of maintenance. For tough corrosive services Goulds alsooffers ETFE and PFA-lined magnetic drives available in horizontal, vertical or self-priming configurations to meet all your process needs.
Options
Model 3296
EZMAG
Model
3298
Model
V3298
Model
SP3298
Model 3299
CHEM-1A
25
High and Low Temperature Capability
JACKETED
SEAL CHAMBER
Maintains proper temperature control of sealing environment. Idealfor maintaining temperaturefor services such as moltensulphur and polymerizingliquids. Available inBigBoreTM and patentedTaperBoreTM designs.
Other Features for Safety Reliability
3196CC (Close Coupled)
Certain sizes of the 3196 areavailable in a close coupledconfiguration which savesspace,requires less mainte-nance and needs no alignment.
CENTERLINE-MOUNTED
CASING
For high temperature services (500to 700 F/260 to 370C).
BEARING FRAME
FINNED COOLER
Directly cools oil for lower bearing operatingtemperature. Requires minimum coolingwater. Corrosion resistant construction.Recommended for temperatures over350F (177C) when using conventional oil.When synthetic oil is used, pump can run up to 450F without cooling. Above 450Fadd for high temperature option.
HEAT JACKET
Economical clamp-on jacket provides practical method of heating orcooling the casing. Excellent heat transfer characteristics. Easy toinstall or remove for pump servicing.
HIGH TEMPERATURE
OPTION
[For operation to 700F (371C)]* Jacketed Stuffing Box/Seal
Chamber* Finned Cooler* 316 Stainless Steel Shaft* Graphite Impeller O-ring* Graphite Casing Gasket
Options are readily available for high and low temperature applications or where pumpage temperature must be controlled.
C-FACE ADAPTER
i-FRAME Power Endsaccommodate optional C-Facemotor adapter - simplifiespump/motor alignment.
ANSI COUPLING GUARD
Meets all requirements of ANSIB15.1 specifications.
SHAFT GUARD
When a guard around all rotat-ing shaft parts is required.
CHEM-1A
26
Construction Details All dimensions in inches and (mm).
Process Industry Practices (PIP) ComplianceThe standard design features of Goulds 3196 (ANSI B73.1M)and 3996 (ANSI B73.2M) pumps meet ASME/ANSI standards.In addition, both models can be manufactured to comply withPIP Specifications for application of horizontal and verticalin-line ANSI process pumps.
Model 3996meets B73.2Mand RESP73V
Model 3196meets B73.1Mand RESP73H
* 17 inch sizes have 214 inch (57) shaft diameters in stuffing box/seal chamber with sleeve. Shaft sleeve O.D. is 234 inches (70) for packing and 212 inches (64) for mechanical seals.Seal chamber bore is 434 inches (121). Stuffing box bore is 358 inches (92).
** 17 inch sizes power limit per 100 RPM is 20HP (15kW).
Diameter at Impeller .75 (19) 1 (25) 1.25 (32) 1.5 (38)Diameter in Stuffing Box/Seal Chamber
(Less Sleeve) 1.375 (35) 1.75 (45) 2.125 (54) 2.5 (64)Shaft (With Sleeve) 1.125 (29) 1.5 (38) 1.875 (48) 2 (51)*
Diameter Between Bearings 1.5 (38) 2.125 (54) 2.5 (64) 3.125 (79)Diameter at Coupling .875 (22) 1.125 (29) 1.875 (48) 2.375 (60)Overhang 6.125 (156) 8.375 (213) 8.375 (213) 9.969 (253)Maximum Shaft Deflection 0.002 (0.05)Shaft Deflection Index (L3/D4)
(With Sleeve) 143 116 48 62(Less Sleeve) 64 63 29 25
Sleeve O.D. thru Stuffing Box/Seal Chamber 1.375 (35) 1.75 (45) 2.125 (54) 2.5 (64)*Radial 6207 6309 6311 6313
Bearings Thrust 3306 3309 7310 3316Bearing Span 4.125 (105) 6.75 (171) 6.875 (164) 9.25 (235)
BigBore
Seal ChamberBore 2.875 (73) 3.5 (89) 3.875 (98) 4.75 (120)*
Stuffing Box Bore 2 (51) 2.5 (64) 2.875 (73) 3.375 (86)*Power Limits HP (kW) per 100 RPM 1.1 (.82) 3.4 (2.6) 5.6 (4.2) 14 (10.5)**
Maximum Liquid Temperature
TemperatureOil/Grease Lubrication without Cooling
350 F (177 C)
Maximum Liquid TemperatureOil Lubrication with High Temp. Option
700F (370 C)
Casing Corrosion Allowance .125 (3)
CHEM-1A
27
Parts List and Materials of ConstructionMaterial
Item Ductile HastelloyNumber Part Name Iron 316SS CD4MCu Alloy 20 Monel Nickel B & C Titanium
100 Casing Ductile Iron 316SS CD4MCu Alloy 20 Monel Nickel Hastelloy Titanium
101 Impeller Ductile Iron 316SS CD4MCu Alloy 20 Monel Nickel Hastelloy Titanium
105 Lantern Ring Glass-Filled TEFLON*
106 Stuffing Box Packing TEFLON* Impregnated Fibers
108 Frame Adapter Ductile Iron
112A Thrust Bearing Double Row Angular Contact**
122 ShaftLess Sleeve (Optional) 316SS Alloy 20 Monel Nickel Hastelloy Titanium
122 ShaftWith Sleeve SAE4140 316SS
126 Shaft Sleeve 316SS Alloy 20 Monel Nickel Hastelloy Titanium
136 Bearing Locknut and Lockwasher Steel
168A Radial Bearing Single Row Deep Groove
184 Stuffing Box Cover (Packed Box) Ductile Iron 316SS CD4MCu Alloy 20 Monel Nickel Hastelloy Titanium
184 Seal Chamber (Mechanical Seal) Ductile Iron 316SS CD4MCu Alloy 20 Monel Nickel Hastelloy Titanium
228 Bearing Frame Cast Iron (Ductile Iron for STi Group)
250 Gland 316SS Alloy 20 Monel Nickel Hastelloy Titanium
262 Repeller/Sleeve (Dynamic Seal Option) CD4MCu Alloy 20 Monel Nickel Hastelloy Titanium
264 Gasket, Cover-to-Backplate (Dynamic Seal) TEFLON*
370H Stud/Nut, Cover-to-Adapter 304SS
319 Oil Sight Glass Glass /Steel
332A INPRO VB-XX-D Labyrinth Oil Seal (Outboard) Stainless Steel/Bronze
333A INPRO VB-XX-D Labyrinth Oil Seal (Inboard) Stainless Steel/Bronze
351 Casing Gasket Aramid Fiber with EPDM Rubber
358 Casing Drain Plug (Optional) Steel 316SS Alloy 20 Monel Nickel Hastelloy Titanium
360F Gasket, Frame-to-Adapter Buna
360C Gasket, Bearing End Cover Cellulose Fiber with Binder
370 Cap Screw, Adapter-to-Casing Steel
412A O-ring, Impeller Glass-Filled TEFLON*
418 Jacking Bolt 304SS
444 Backplate (Dynamic Seal Option) Ductile Iron 316SS CD4MCu Alloy 20 Monel Nickel Hastelloy Titanium
469B Dowel Pin, Frame-to-Adapter Steel
496 O-ring, Bearing Housing Buna Rubber
761B i-ALERT Condition Monitor Stainless Steel/Epoxy
*E.I. DuPont reg. trademark**LTi Power End features standard Duplex Angular Contact: Optional STi, MTi, XLT-iOther Alloys Available: 316L, 317, 317L, 254SMO, Zirconium, etc.
136
332A
122
112A
496
228 761B 168A 333A 250 370
319 126 418 351
100
101
412A
184
358
Sectional ViewModel 3196 STi
CHEM-1A
28
112A
136
122
112A
332A
122
136
100
100
412A
184
228 761B 168A 333A 108 370
319 360F 469B 250 418 126
168A 333A 126 360F 108 184 370
250 418
332A
496
101
351
761B228
360C
496
101
412A
351
358
Model 3196 MTi/LTi
358
Model 3196 XLT-i
CHEM-1A
29
Dimensions Model 3196 i-FRAMEAll dimensions in inches and (mm). Not to be used for construction.
SUCTION
DISCHARGEASP B
X
D
Bare Pump
GroupPump ANSI Discharge Suction
X A B D SP WeightSize Designation Size Size
Lbs. (kg)
1x11/2-6 AA 1 11/2 84 (38)11/2x3-6 AB 11/2 3 92 (42)
STi 2x3-6 2 3 6.5 (165) 13.5 (343) 4 (102) 5.25 (133) 3.75 95 (43)1x11/2-8 AA 1 11/2 100 (45)11/2x3-8 AB 11/2 3 108 (49)3x4-7 A70 3 4 11 (280) 220 (100)2x3-8 A60 2 3 9.5 (242) 220 (91)3x4-8 A70 3 4
11 (280) 220 (100)3x4-8G A70 3 4
19.5 (495) 4 (102) 8.25 (210)1x2-10 A05 1 2
8.5 (216)200 (91)
11/2x3-10 A50 11/2 3 220 (100)
MTi/2x3-10 A60 2 3 9.5 (242) 230 (104)
LTi3x4-10 A70 3 4 11 (280) 3.75 (95) 265 (120)
3x4-10H A40 3 4 12.5 (318) 275 (125)4x6-10G A80 4 6
13.5 (343)4x6-10H A80 4 6
305 (138)
11/2x3-13 A20 11/2 3 10.5 (267) 19.5 (495) 4 (102) 10 (254) 245 (111)2x3-13 A30 2 3 11.5 (292) 275 (125)3x4-13 A40 3 4 12.5 (318) 330 (150)4x6-13 A80 4 6 13.5 (343) 405 (184)6x8-13 A90 6 8 16 (406) 560 (254)8x10-13 A100 8 10 670 (304)6x8-15 A110 6 8
18 (457)610 (277)
8x10-15 A120 8 10 740 (336)XLT-i 8x10-15G A120 8 10 19 (483) 27.875 (708) 6 (152) 14.5 (368) 5.25 (133) 710 (322)
8x10-16H A120 8 10 850 (385)4x6-17 4 6 16 (406) 650 (295)6x8-17 6 8 18 (457) 730 (331)8x10-17 8 10 19 (483) 830 (376)
DIMENSIONS
CHEM-1A
30
Hydraulic Coverage Model 3196 i-FRAME
0
CAPACITY 3500 RPM (60 Hz)0 20
14000
m FT.0
0 20CAPACITY 2850 RPM (50 Hz)
TOTA
L H
EAD
3
500
RPM
(60
Hz)
m
0 0
TOTA
L H
EAD
2
850
RPM
(50
Hz)
s = Scale Change
0GPM
m /h3 200s s
m /h3
GPM 1100
50s s
100
200
300
400
500
600
700
800
220
180
140
100
60
20
FT.
100
200
300
400
500
40
80
120
160
100 200 300 500 700 900 1100
40 60 70 80 100 150 250
100 200 300 400 500 600 700 800
40 60 80 100 150 200 250
3500/2850RPM/
1 2/
1 x3-13 1 2/
1x2-10
1 x3-10
1x1 -812 /
1 x3-61 2/1 2/1x1 - 6
1 2/1 x3-8
2x3-6
3x4-7
2x3-8 2x3-10
3x4-8G
3x4-10
2x3-13 (LTX)
3x4-13 (LTX)
4x6-10G
l
0
CAPACITY 1750 RPM (60 Hz)0 20
660074000
m FT. 0
0 20 40 60CAPACITY 1450 RPM (50 Hz)
TOTA
L H
EAD
1
750
RPM
(60
Hz)
m
0 0
TOTA
L H
EAD
1
450
RPM
(50
Hz)
FT.
s = Scale Change
0
20
40
60
80
100
120
140
160
180
200
230
270
310
350 240
200
160140
120
100
80
60
40
20
75
10
20
30
40
45
55
10
20
30
40
60
50
65
75
95
ss
100 300 400 500 700 900 1000 140018002200 30003400 50005800GPM
GPM
m /h3 40 60 80 700100 140 180s s s220 300 500 1000 1400
m /h3
100 200 300 400 500 600 700 80010001400 1800 22002600 3400 4200 5000
100 140s
160 200 300 500 600 800 1000 1200s s
1750/1450 RPM
/
1 x3-13 1 2/2x3-13
3x4-10
3x4-8
1x2-10
1 2/1x1 - 6 1 x3-61 2/
1 x3-10 1 2/
2x3-10 2x3-8
3x4-7
2x3-6
1x1 -81 2/ 1 2/1 x3-8 3x4-10H
4x6-10H
3x4-13
4x6-13
6x8-13
8x10-13
8x10-16H
8x10-15G
8x10-17
4x6-17
6x8-15
6x8-17
4x6-10G
CHEM-1A
CHEM-1A31
Baseplate Mounting SystemsGoulds offers a complete range of pump mounting systems to meet plant requirements; make
installation and maintenance easier.
STANDARD OPTIONAL
* Engineered option- requires special baseplate
Baseplate
Selection Guide
CAMBER TOP
CAST IRON
Preferred standard ofprocess industries.Rigid and corrosionresistant, it is the best value inthe industry today.
CHEMBASE PLUSTM
Polymer concrete construction providesexceptional rigidity & corrosion resistance.ANSI 1991 dimension-al.
FABRICATED STEEL
An economical choicethat meets ANSI/ASMEB73.1 dimensionalrequirements.
ENHANCED FEATURE
FABRICATED STEEL
Upgraded ANSI base-plate designed to maxi-mize pump operationlife and ease installa-tion. Meets API-mindedchemical pump userstoughest requirements.
ADVANTAGE
Heavy duty PIP compliant fabricated steel baseplate.
POLYSHIELD ANSI
COMBO
Heavy duty polymer concrete combinationbaseplate and foundation.
PLANT REQUIREMENTS
Corrosion Resistance (mild/moderate)
Corrosion Resistance (severe)
Machined Pump and Motor Parts
Circular Grout Holes (4 in. min.)
Vent Holes (1 in. min.)
Vent Holes (1/2 in. min.)
Non-Overhang
Full Drain Rim
Built-in Drain Pan (under pump)
Drain Pan Under Pump
Baseplate Leveling Screws
Motor Alignment Adjusters
Lifting Feature
Continuous Welding Used
Flexibly Mounted
Spring-Loaded*
Available in 304 and 316 SS
ANSI B73.1-1991 Conformance
API-610 Conformance
PIP RESP 002 Conformance
3196 i-FRAMEProcess Pumps
CV 3196 i-FRAMENon-ClogProcess Pumps
HT 3196 i-FRAMEHigh TemperatureProcess Pumps
LF 3196 i-FRAMELow Flow ANSIProcess Pumps
3198 i-FRAMEPFA TEFLON-LinedProcess Pumps
3796 i-FRAMESelf-PrimingProcess Pumps
NM 3196 i-FRAMENon-MetallicProcess Pumps
Bonus Interchangeabilityi-FRAME Power Ends Fit 7 Different Process PumpsMinimize inventory, reduce downtime.
CHEM-1A 32
Modular Interchageability
60 Hz Curves Model 3196
1 X 1.5 - 6 1 X 1.5 - 6
1 X 1.5 - 61 X 1.5 - 6
1.5 X 3 - 6 1.5 X 3 - 6
CHEM-1A33
The following curves are for reference only.Please refer to the Pump Selection System (PSS) at www.gouldspumps.com for the most current revision.
60 Hz Curves Model 3196
2 X 3 - 6 2 X 3 - 6
2 X 3 - 62 X 3 - 6
1 X 1.5 - 8 1 X 1.5 - 8
CHEM-1A 34
60 Hz Curves Model 3196
1 X 1.5 - 8 1 X 1.5 - 8
1.5 X 3 - 81.5 X 3 - 8
1.5 X 3 - 8 1.5 X 3 - 8
CHEM-1A35
60 Hz Curves Model 3196
2 X 3 - 8 2 X 3 - 8
2 X 3 - 82 X 3 - 8
3 X 4 - 7 3 X 4 - 7
CHEM-1A 36
60 Hz Curves Model 3196
3 X 4 - 8 3 X 4 - 8
3 X 4 - 8G3 X 4 - 8G
1 X 2 - 10 1 X 2 - 10
CHEM-1A37
60 Hz Curves Model 3196
1 X 2 - 10 1 X 2 - 10
1 X 2 - 101 X 2 - 10
1.5 X 3 - 10 1.5 X 3 - 10
CHEM-1A 38
60 Hz Curves Model 3196
1.5 X 3 - 10 1.5 X 3 - 10
1.5 X 3 - 101.5 X 3 - 10
2 X 3 - 10 2 X 3 - 10
CHEM-1A39
60 Hz Curves Model 3196
2 X 3 - 10 3 X 4 - 10
3 X 4 - 10H3 X 4 - 10
3 X 4 - 10H 4 X 6 - 10G
CHEM-1A 40
60 Hz Curves Model 3196
4 X 6 - 10G 4 X 6 - 10G
4 X 6 - 10H4 X 6 - 10H
4 X 6 - 10H 4 X 6 - 10H
CHEM-1A41
60 Hz Curves Model 3196
1.5 X 3 - 13 1.5 X 3 - 13
1.5 X 3 - 131.5 X 3 - 13
1.5 X 3 - 13 1.5 X 3 - 13
CHEM-1A 42
60 Hz Curves Model 3196
2 X 3 - 13 2 X 3 - 13
3 X 4 - 132 X 3 - 13
3 X 4 - 13 3 X 4 - 13
CHEM-1A43
60 Hz Curves Model 3196
4 X 6 - 13 4 X 6 - 13
6 X 8 - 136 X 8 - 13
8 X 10 - 13 8 X 10 - 13
CHEM-1A 44
60 Hz Curves Model 3196
6 X 8 - 15 6 X 8 - 15
8 X 10 - 158 X 10 - 15
8 X 10 - 15G 8 X 10 - 15G
CHEM-1A45
60 Hz Curves Model 3196
8 X 10 - 15G 8 X 10 - 16H
8 X 10 - 16H8 X 10 - 16H
4 X 6 - 17 4 X 6 - 17
CHEM-1A 46
60 Hz Curves Model 3196
6 X 8 - 17 6 X 8 - 17
8 X 10 - 178 X 10 - 17
8 X 10 - 17
CHEM-1A47
48CHEM-1A
NOTES
50 Hz Curves Model 3196
1 X 1.5 - 6 1 X 1.5 - 6
1 X 1.5 - 61 X 1.5 - 6
1.5 X 3 - 6 1.5 X 3 - 6
CHEM-1A49
The following curves are for reference only.Please refer to the Pump Selection System (PSS) at www.gouldspumps.com for the most current revision.
50 Hz Curves Model 3196
2 X 3 - 6 2 X 3 - 6
2 X 3 - 62 X 3 - 6
1 X 1.5 - 8 1 X 1.5 - 8
CHEM-1A 50
50 Hz Curves Model 3196
1 X 1.5 - 8 1 X 1.5 - 8
1.5 X 3 - 81.5 X 3 - 8
1.5 X 3 - 8 1.5 X 3 - 8
CHEM-1A51
50 Hz Curves Model 3196
2 X 3 - 8 2 X 3 - 8
2 X 3 - 82 X 3 - 8
3 X 4 - 7 3 X 4 - 7
CHEM-1A 52
50 Hz Curves Model 3196
3 X 4 - 8 3 X 4 - 8
3 X 4 - 8G3 X 4 - 8G
1 X 2 - 10 1 X 2 - 10
CHEM-1A53
50 Hz Curves Model 3196
1 X 2 - 10 1 X 2 - 10
1.5 X 3 - 101.5 X 3 - 10
1.5 X 3 - 10 1.5 X 3 - 10
CHEM-1A 54
50 Hz Curves Model 3196
2 X 3 - 10 2 X 3 - 10
1.5 X 3 - 101.5 X 3 - 10
2 X 3 - 10 2 X 3 - 10
CHEM-1A55
50 Hz Curves Model 3196
2 X 3 - 10 3 X 4 - 10
3 X 4 - 10H3 X 4 - 10
3 X 4 - 10H 4 X 6 - 10G
CHEM-1A 56
50 Hz Curves Model 3196
4 X 6 - 10G 4 X 6 - 10G
4 X 6 - 10H4 X 6 - 10H
4 X 6 - 10H 4 X 6 - 10H
CHEM-1A57
50 Hz Curves Model 3196
1.5 X 3 - 13 1.5 X 3 - 13
1.5 X 3 - 131.5 X 3 - 13
1.5 X 3 - 13 1.5 X 3 - 13
CHEM-1A 58
50 Hz Curves Model 3196
2 X 3 - 13 2 X 3 - 13
3 X 4 - 132 X 3 - 13
3 X 4 - 13 3 X 4 - 13
CHEM-1A59
50 Hz Curves Model 3196
4 X 6 - 13 4 X 6 - 13
6 X 8 - 136 X 8 - 13
8 X 10 - 13 8 X 10 - 13
CHEM-1A 60
50 Hz Curves Model 3196
6 X 8 - 15 6 X 8 - 15
8 X 10 - 158 X 10 - 15
8 X 10 - 15G 8 X 10 - 15G
CHEM-1A61
50 Hz Curves Model 3196
8 X 10 - 16H 8 X 10 - 16H
4 X 6 - 174 X 6 - 17
6 X 8 - 17 6 X 8 - 17
CHEM-1A 62
50 Hz Curves Model 3196
8 X 10 - 17 8 X 10 - 17
CHEM-1A63
64CHEM-1A
NOTES
CHEM-1B65
Goulds IC Series Worldwide Solutions for ProcessPumping and ControlsReducing Pump Life Cycle Costs
Goulds Pumps IC family of ISO chemical processpumps is designed in accordance with ISO 5199 andISO 2858, making it ideal for worldwide chemical orindustrial process applications. The IC pump rangeincludes:
34 hydraulic sizes Flows up to 450 m3/h (1980 GPM) Heads up to 160m (514 Feet) Temperatures from -40C to 280C (-40F to 530F) Pressures up to 25 Bar (360 PSI)
The IC series represents over 150 years of processpump experience to define a solution which trulyreduces your pumping Life Cycle Cost. Utilizing amodular design, the IC pump offers broad hydrauliccoverage while minimizing the number of pump com-ponents for reduced maintenance and inventory cost.The IC series consists of multiple pump configurations,which have been engineered by ITT hydraulic special-ists from Goulds Pumps, to meet both the pumpingand environmental needs of customers in the ProcessIndustry. Included in the range is:
IC - 16 Bar, mechanically sealed versionfor most process fluid pumping.
ICP - 25 Bar, centerline mounted unit forhigh pressure applications.
ICB - compact, close-coupled design foreconomical, space-saving service.
ICM - magnetic drive, sealless arrangementfor the handling of hazardous or sensitive liquids.
ITT Goulds proven pump hydraulic designs utilize pre-cision cast, enclosed impeller for maximum efficiency,low NPSH and reduced hydraulic loads. In addition, allmechanically sealed pumps have been engineeredwith our patented Cyclone Seal Chamber, a featureproven to provide the optimum sealing environment forextended seal life, critical in reducing Life Cycle Cost. The IC series is available in a comprehensive range ofmaterials which include ductile iron, 316 StainlessSteel, Duplex Stainless Steel, Alloy 20, Hastelloy B andC, and Titanium.
ISO Chemical Process Pumps for
Worldwide Applications
CHEM-1B 66
NOTES
CHEM-1B6767 CHEM-1B
Goulds ICP SeriesHigh Pressure and High Temperature
The ICP is a heavy duty chemical process pump designedfor extreme temperatures (-40C to 280C) and pressuresto 25 Bar. Centerline mounted casing controls thermalgrowth and maintains pump alignment for extended seallife. Complies with ISO 5199.
Specifications Capacities to 450 m3/h (1980 USgpm) Heads to 150 m (492 feet) Temperature Range -40C to 280C (-40F to 535F) Pressures to 25 Bar (363 PSIG) Materials - Carbon Steel (1.0619), Stainless Steel
(1.4408), Duplex Stainless Steel (1.4517), Hastelloy C (2.4811)
Goulds ICB SeriesClose-coupled, Economical Installation
The ICB close-coupled chemical process pump provides aneconomical, space-saving design, which simplifies installa-tion and reduces costs. Precise alignment eliminates themultiple craft installation costs. No baseplate. No flexible coupling. Floor space utilisation ismaximized. Complies with ISO 2858. Available on all frame24, 32 and 42 pump sizes.
Specifications Capacities to 340 m3/h (1490 USgpm) Heads to 160 m (525 feet) Temperature Range -40C to 140C (-40F to 280F) Pressures to 16 Bar (235 PSIG) Materials - Ductile Iron (0.7043), Stainless Steel
(1.4408), Duplex Stainless Steel (1.4517)
Goulds ICP Series
Goulds ICB Series
CHEM-1B 68
The IC family of products has a complete world-wide presence.With manufacturing, engineering, sales and inventory in multiple regions, this product can support your needseverywhere in the world. You can rest assured that we will support your industrial pump requirements, even if youspecify and order the pump in one country and need to install it on the other side of the world.
ITT Industrial Process Global Presence
CHEM-1B69
Goulds ReliabilityLong-term Reliable Performance Means Lower Life-Cycle Costs.
When selecting a chemical process pump, look for the design features that help lowermaintenance costs as well as operating and installation costs. Design features that maxi-mize reliability and ensure long-term maintainable hydraulic performance help lower thetotal cost of pump ownership. In a typical process pump, over a 20 year pump life, 95% ofthe total costs are maintenance, operation and installation costs.
Operating Cost
30%
Purchase Cost
5%Installation Cost
24%
Maintenance Cost
41%
The Keys to Reliable Performance The Cyclone Seal Chamber and a Heavy Duty Bearing Frame.
Only 5% is the initial pump cost.
FACT:
The number one cause of pumpdowntime is failure of the shaftseal. Typically, seal failures are theresult of an unfavorable seal envi-ronment such as poor heat dissipa-tion, poor lubrication or operation inthe presence of solids or vapors.
Patented cyclone seal chamber design maximizes seal life.
A tapered bore design enhanced with a helical groove removes suspended solids away from mechanical seal components resulting in extended seal life.
Increased radial clearance and volume provides improved cooling for extended seal life. Seal venting design eliminates a build-up of vapors in the seal area. Patented design has been rigorously tested for reliable results.
Rigid bearing frame extends pump life.
Large capacity oil sump results in cooler, cleaner oil. The Model IC ISO chemical pump has the largest oil sump in its class!
Heavy duty bearing sized for L10 bearing life in excess of 17,500 hours. Rigid, stainless steel shaft resists corrosion while maintaining shaft deflections
below 0.05mm. Double lip oil seals maintain clean oil sump. O-ring seal between frame and lantern ensures clean oil environment.
Internal sump geometry is optimized forlonger bearing life. Sump size increasedby 10% -20% results in better heat trans-fer and cooler bearings. Contoureddesign directs contaminants away frombearings, to the magnetic drain plug forsafe removal.
Optimized Oil Sump Design
Patented
FACT:
The second largest cause of pumpdowntime is bearing failures. Over90% of all pump bearing failuresare the result of inadequate orcontaminated lubrication.
CHEM-1B 70
Shaft Sealing SolutionsEngineered to Extend Seal Life and Lower Maintenance CostsBased on over 150 years of providing pumping solutionsto the Chemical Process Industry, ITT Industries can pro-vide a shaft sealing system that best meets your applica-tion requirements. Key to our shaft sealing program isplacing the best shaft sealing solution in the best operat-ing environment for long life and reduced maintenanceand operating costs.
Patented Cyclone Seal Chamber DesignAt the heart of our program is the patented cyclone seal chamber that not only provides the optimum seal environment in the presence of solids and vapors, but also improves main-tainability and reduces installation cost by eliminating seal flush piping.
Heres how it works:Cast helical ribs act as a barrier to particles traveling within the inward boundary layerflow found on the tapered walls of the seal chamber.
Once caught in the grooves of the helical ribs, the cyclone-like rotational velocity cre-ated by the impeller carry particles out of the seal chamber away from the seal.
Solids removal is key to prevent seal and seal chamber wear as
well as clogging of the mechanical seal for guaranteed reliability.
Maximum seal flexibility
Because selecting the best seal for the application is key to extended pump reliability, sealchambers for the Model IC pump have been designed in accordance with ISO 3069 to sup-port the use of a wide range of seals.
The shaft sealing arrangements possible include the use of any DIN 24960L 1K compliantseal arranged in single, single with quench, double (back-to-back) or tandem configurations.Sealing with cartridge type seals is also possible for customers seeking to obtain furtherreductions in downtime and maintenance costs.
Proprietary mechanical seal
Also available is a propriety mechanical seal engineered for optimum performance wheninstalled in the cyclone seal chambers. Our mechanical seals feature balanced seal facesinstalled in a stationary spring design that has been integrated with the pump shaft sleeve. Thisarrangement extends seal reliability and reduces customer costs.
Benefits of our mechanical seal design
Eliminates shaft sleeve fretting for extended seal life. Balanced design reduces face loading. Springs are located external to the pumpage which helps reduce seal
clogging and corrosion. Unitized shaft sleeve and seal simplify installation and reduces spare parts.
1
2
1
2
GS11 Single Mechanical Seal
CHEM-1B71
Standard Baseplate Design Rigid fabricated steel design. Machined pump and motor mounting surfaces make final alignments
quick and accurate. Dimensions conform to ISO 3661 for easy installation. Suitable for grouted and ungrouted applications. Optional drip pan with 1" drain connection. Available in stilt mounted arrangement.
Feature Baseplate Design Structurally reinforced for maximum torsional and axial stiffness. Machined pump and motor mounting surfaces. Complies with ISO 3661. Includes value-added features:
- Stainless steel drip pan with 1" drain.- Motor adjustment screws.- Vertical leveling screws.- Earthing lug.
Baseplate Design
Suction InducerAll sizes of the Model IC ISO chemical pump can be supplied with an optional suctioninducer which can extend the operating range of the pump by improving the inlet flow intothe impeller resulting in reductions of NPSHr. Inducers provide a more economical pump-ing solution as smaller, faster pumps can often be used. In addition, inducers can help elim-inate cavitation caused by intermittent process conditions and entrained gas or vapor.
Inducer benefits: Reduces NPSHr by 35-50% ideal for marginal NPSH applications. Allows for use of smaller, faster pumps reducing costs. Eliminates pumping problems on services with entrained gas. No compromise to pump operating range. All sizes available in stainless steel and higher constructions. Proven design with over 30 years of application experience.
Standard Options Designed for Flexibility to Meet Customer Needs
CHEM-1B 72
IC Series Hydraulic Coverage 50Hz Performance
SPEED 1450 RPM Q (US GPM)
10005002001501008060504030201510
H (
ft)
10
8
15
20
30
40
5060
80
100
150
200
300100
80
6050
40
30
20
15
10
8
6
5
4
3
2
TOTA
L H
EAD
H (
m)
2 3 4 5 8 10 15 20 30 40 50 80 100 150 200 300 400 500 800
65-40-160
65-40-200
65-40-250
50-32-250
50-32-200
50-32-160
65-40-31580-50-250
80-50-200
80-50-160
80-50-315
100-65-250
100-65-200
100-65-160125-80-160
125-100-200
150-125-250200-150-250
200-150-315
200-150-400
150-125-315
150-125-400
125-100-250
125-100-315
125-100-400
125-80-200
125-80-250
125-80-315
125-80-400
100-65-315
40-25-200
40-25-250
50-32-315
40-25-160
SPEED 2900 RPM Q (US GPM)
100050020015010080605040201510
H (
ft)
40
50
60
100
150
200
300
400
500
80
600200
150
100
60
50
40
30
30
15
10
80
TOTA
L H
EAD
H (
m)
3 4 5 8 10 15 20 30 40 50 80 100 150 200 300 400
65-40-315
80-50-315100-65-315
100-65-250
100-65-200
100-65-160
125-80-315125-100-315
125-100-250
125-100-200
125-80-250
125-80-200
125-80-160
80-50-250
80-50-200
80-50-160
65-40-250
65-40-200
65-40-160
50-32-200
50-32-250
40-25-250
40-25-200
40-25-160
50-32-315
50-32-160
Please refer to the Pump Selection System (PSS) at www.gouldspumps.com for the most current curves.
CHEM-1B73
Flanges Bare Pump
Pump Size Frame DNs DNd a f h1 h2 X weights
40-25-160 24 40 25 80 385 132 160 100 4240-25-200 24 40 25 80 385 160 180 100 5040-25-250 32 40 25 175 500 180 225 100 7950-32-160 24 50 32 80 385 132 160 100 4350-32-200 24 50 32 80 385 160 180 100 5250-32-250 32 50 32 100 500 180 225 100 8550-32-315 32 50 32 210 500 200 250 100 11165-40-160 24 65 40 80 385 132 160 100 4465-40-200 24 65 40 100 385 160 180 100 5765-40-250 32 65 40 100 500 180 225 100 8565-40-315 32 65(1) 40(1) 125 500 200 250 100 12180-50-160 24 80 50 100 385 160 180 100 4880-50-200 24 80 50 100 385 200 100 100 5780-50-250 32 80 50 125 500 180 225 100 8780-50-315 32 80(1) 50(1) 125 500 225 280 100 126100-65-160 32 100 65 100 500 160 200 100 74100-65-200 32 100 65 100 500 180 200 140 79100-65-250 32 100 65 125 500 200 250 140 98100-65-315 42 100(1) 65(1) 125 530 225 280 140 150125-80-160 32 125 80 125 500 180 225 140 81125-80-200 32 125 80 125 500 180 250 140 87125-80-250 32 125 80 125 500 225 280 140 109125-80-315 42 125(1) 80(1) 125 530 250 315 140 162125-80-400 42 125 80 140 530 280 355 140 201125-100-200 32 125 80 125 500 200 280 140 93125-100-250 42 125 100 140 530 225 280 140 130125-100-315 42 125(1) 100(1) 140 530 250 315 140 174125-100-400 42 125 100 140 530 280 355 140 215150-125-250 42 150 125 140 530 250 355 140 143150-125-315 42 150 125 140 530 280 355 140 195150-125-400 42 150 125 140 530 315 400 140 246200-150-250 42 200 150 160 530 280 375 180 152200-150-315 48 200 150 160 670 315 400 180 262200-150-400 48 200 150 160 670 315 450 180 303
DIMENSIONS
Casted Material Standards
Approximate Equivalent Standards
IC Series Standard DIN ASTM
Cast Iron EN-GJL-250 0.6025 A48, Class 35BDuctile Iron EN-GJS-400-18-LT 0.7043 A536, grade 60-40-18Stainless Steel 1.4408 1.4408 A743, CF-8MDuplex SS 1.4517 1.4517 A744 CD4-MCuAlloy 20 1.4536 1.4536 A743 CN-7MHastelloy C V2.4811 2.4811 A494 N-12MVHastelloy B V2.4810 2.4810 A494CX 2MVTitanium 3.7031 3.7031 B367 Grade 2
MATERIAL SPECIFICATIONSDimensions in mmDimensions subject to changewithout notice
Note: Flange drilling in accordancewith ISO 7001/EN 27001 PN16except where noted
(1)-Flanges drilled PN25
Detailed pump dimensions inaccordance with ISO 2858/EN22858Detailed baseplate dimensions inaccordance with ISO 3661/EN23661
Dimensions IC Series
CHEM-1B 7474
400
102V
940.31
922
412.2
230
912.11
932.51
320.52
923.51
421.51
183
901.11 161 344 320.51 330 637
524 507 421.41 412.41 210 903.51
MATERIAL
Item DI/316SS 316SS Duplex Alloy 20 Hastelloy TitaniumNumber Part Name (VL) (VV) (WW) (AA) (BB/CC) (TT)
102V Casing DI/316SS 316SS Duplex SS Alloy 20 Hastelloy Titanium
161 Seal Chamber/Stuffing Box Cover DI/316SS 316SS Duplex SS Alloy 20 Hastelloy Titanium
183 Support Foot Carbon Steel
210 Shaft Stainless Steel (1.4021)
230 Impeller 316SS Duplex SS Alloy 20 Hastelloy Titanium
320.51 Radial Bearing Single Row, Ball Bearing
320.52 Thrust Bearing Double Row Angular Contact Ball Bearing
330 Bearing Bracket Cast Iron
344 Lantern Ductile Iron
400 Case Gasket Non-Asbestos Aramid Fiber
412.21 O-ring, Shaft Sleeve & Impeller Nut Teflon
412.41 O-ring Bearing Bracket Buna
421.41 Oil Seal, Inboard Lip Seal (Buna & Steel)
421.51 Oil Seal, Outboard Lip Seal (Buna & Steel)
507 Flinger Noryl 66
524 Shaft Sleeve 316L (1.4404) Duplex SS Alloy 20 Hastelloy Titanium
637 Oil Vent Steel
901.11 Casing Bolts, Hex Cap Screw Stainless Steel (A2)
903.51 Drain Plug Steel Magnetic Tipped
912.11 Case Drain Plug 316SS Alloy 20 Hastelloy Titanium
922 Impeller Nut Duplex SS Alloy 20 Hastelloy Titanium
923.51 Bearing Lock Nut Steel/Nylon
932.51 Snap Ring/Circlip Carbon Steel
940.31 Impeller Key Carbon Steel
Other Parts Not Shown
236 Inducer (optional) Duplex SS (1,4462) Alloy 20 Hastelloy Titanium
452 Packing Gland 316ss
458 Lantern Ring Glass Filled PTFE
461 Packing PTFE Impregnated
502.11 Wear Ring (optional) 316ss (1.4410) DuplexSS Alloy 20 Hastelloy Titanium
642 Oil Level Sight Glass Glass/Plastic
Parts List and Materials of Construction
50 Hz Curves Model IC / ICB / ICP
40 - 25 - 160 40 - 25 - 160
50 - 32 - 16050 - 32 - 160
65 - 40 - 160 65 - 40 - 160
CHEM-1B75For larger ISO pumps, see 3185 Section.
The following curves are for reference only.Please refer to the Pump Selection System (PSS) at www.gouldspumps.com for the most current revision.
50 Hz Curves Model IC / ICB / ICP
80 - 50 - 160 80 - 50 - 160
100 - 65 - 160100 - 65 - 160
125 - 80 - 160 125 - 80 - 160
CHEM-1B 76
50 Hz Curves Model IC / ICB / ICP
40 - 25 - 200 40 - 25 - 200
50 - 32 - 20050 - 32 - 200
65 - 40 - 200 65 - 40 - 200
CHEM-1B77
50 Hz Curves Model IC / ICB / ICP
80 - 50 - 200 80 - 50 - 200
100 - 65 - 200100 - 65 - 200
125 - 80 - 200 125 - 80 - 200
CHEM-1B 78
50 Hz Curves Model IC / ICB / ICP
125 - 100 - 200 125 - 100 - 200
40 - 25 - 25040 - 25 - 250
50 - 32 - 250 50 - 32 - 250
CHEM-1B79
50 Hz Curves Model IC / ICB / ICP
65 - 40 - 250 65 - 40 - 250
80 - 50 - 25080 - 50 - 250
100 - 65 - 250 100 - 65 - 250
CHEM-1B 80
50 Hz Curves Model IC / ICB / ICP
125 - 80 - 250 125 - 80 - 250
125 - 100 - 250125 - 100 - 250
150 - 125 - 250 150 - 125 - 250
CHEM-1B81
50 Hz Curves Model IC / ICB / ICP
200 - 150 - 250 200 - 150 - 250
50 - 32 - 31550 - 32 - 315
65 - 40 - 315 65 - 40 - 315
CHEM-1B 82
50 Hz Curves Model IC / ICB / ICP
80 - 50 - 315 80 - 50 - 315
100 - 65 - 315100 - 65 - 315
125 - 80 - 315 125 - 80 - 315
CHEM-1B83
50 Hz Curves Model IC / ICB / ICP
125 - 100 - 315 125 - 100 - 315
150 - 125 - 315150 - 125 - 315
200 - 150 - 315 200 - 150 - 315
CHEM-1B 84
50 Hz Curves Model IC / ICB / ICP
125 - 80 - 400 125 - 80 - 400
125 - 100 - 400125 - 100 - 400
150 - 125 - 400 150 - 125 - 400
CHEM-1B85
50 Hz Curves Model IC / ICB / ICP
200 - 150 - 400 200 - 150 - 400
CHEM-1B 86
87
Goulds Model LF 3196i-FRAMELow Flow ANSI Process PumpsDesigned for Total Range of Industry Services Capacities to 220 GPM (50 m3/h) Heads to 925 feet (282 m) Temperatures to 700 F (371 C) Pressures to 450 PSIG (3102 kPa)
Performance Featuresfor Low Flow ServicesExtended Pump Life
Concentric (Circular) Casing Radial Vane Impeller X-Series Power Ends TaperBoreTM/BigBoreTM Seal Chambers i-FRAME Power Ends Optional Centerline Mounted CasingsEase of Maintenance
Back Pull-out Design Parts Interchangeable with Goulds Model 3196 External Impeller Adjustment Easy RetrofitSafety
ANSI B15.1 Coupling Guard Ductile Iron Frame Adapter Raised Face Flanges Optional Shaft Guard
ServicesSpecialty Chemicals Column BottomsBatch Chemical Process Hot OilReactor Feed Column RefluxSeal WaterShower ServiceBoiler FeedCondensateHigh Pressure Process
The LF 3196 i-FRAME process pump lineis specifically designed to provide superior
performance for low flow services of the
Chemical Process industries.
Model LF 3196 i-FRAME MTi/LTi(1x2-10 MTi/LTi, 1x3-13 LTi)
Model LF 3196 i-FRAME STi(1x1-4, 1x1-8)
CHEM-1C
88
Model LF 3196 i-FRAMELow Flow ANSI Process PumpsDesign Features for Total Range of Industry Services
i-FRAME POWER END
Designed for reliabilityand extended pumplife, backed with a 5-year warranty.
RAISED FACE
FLANGES
Serrated for posi-tive sealing against
leakage. Meets ANS0I B16.5
requirements.Class150 RF standard.
Class 300 RFoptional.
(13 in. casing300 RF flanges
standard.)
CHEM-1C
MAGNETIC DRAIN PLUG
Standard magnetic drain plug helpsprotect bearings and prolong life.
i-ALERT CONDITION MONITOR(Patented)
Constantly measures vibrationand temperature at the thrustbearing. Colored LEDs indicategeneral pump health. Providesearly warning of improper opera-tion before catastrophic failureoccurs.
INPRO VBXX-D HYBRID
LABYRINTH SEALS
Prevents premature bearingfailure caused by lubricant cont-amination or loss of oil.Stainless steel rotors for optimalperformance in corrosive envi-ronments.
CONTINUOUS
PERFOR-
MANCE
Original flow,pressure andefficiency aremaintained bysimple externaladjustmentresulting inlong-term ener-gy and repairparts savings.
PREMIUM SEVERE-DUTY
THRUST BEARINGS
Increase bearing fatigue life by 2-5Xthat of conventional bearing steels.
HEAVY DUTY SHAFT
AND BEARINGS
Rigid shaft designed forminimum deflection atseal faces less than0.002 in. (.05 mm).Bearings sized for 10-yearaverage life under toughoperating conditions.Available with or withoutshaft sleeve.
OPTIMIZED OIL
SUMP DESIGN
Increased oil capacityprovides better heattransfer for reducedoil temperature.Bearings run coolerand last longer.Contaminants direct-ed away from bear-ings to magnetic drainplug.
CIRCULAR VOLUTE
CASING
Reduces radial loadsduring low flow opera-tion. Mechanical sealand bearings last longer.Fully machined dis-charge and volute pro-vide maximum efficiencyand precise control ofhydraulics at low flows.
GOULDS
LOW FLOW
IMPELLER
Multiple open radialvanes reduce pulsa-
tions, vibration andvane stress. Full
shroud for superiorvane strength when
operating at extremelow flows. Balanceholes reduce axial
thrust, minimize stuff-ing box/seal chamber
pressure for longerbearing and seal life.
POSITIVE SEALING
Fully confined gasket at casing jointprotects alignment fit from liquid,makes disassembly easier.
CHEM-1C89
LF 3196 i-FRAME DesignedSpecifically for Trouble-Free
Operation At Low Flows
Goulds LF 3196 i-FRAME concentric(circular volute) casing and open radial vane impeller are designed to eliminate hydraulic and mechanicalproblems at throttled low flows.
EXPANDING
VOLUTE
PUMP
LF 3196 i-FRAMECIRCULAR
VOLUTE
Reduced Radial Loads for
Optimum Reliability
Radial loads are reduced byas much as 85% compared toend suction expanding volutepumps at low flows. Bearing,mechanical seal and overallpump life are optimized.
Pump Replacement
Since the LF 3196 i-FRAME meets ANSI dimensional stan-dards, retrofitting ANSI pumps not designed for operation at low flows is easy. Simply replace the troublesome pump with the equivalent ANSI size LF 3196 i-FRAME.
Pump Retrofit
The LF 3196 i-FRAME uses all Goulds Model 3196 parts except casing and impeller. An LF 3196 retrofit kit easily converts a 3196 to LF 3196 i-FRAME.
Goulds LF 3196 i-FRAME Designed for Low Flow ServicesNot All End Suction Pumps are Designed for Low Flows
Many users throttle pumps to attain desired low flow performance. Becausethese pumps are not designed to operate continuously in this range, the resul-tant higher radial loads and increased shaft deflection lead to premature bearingand mechanical seal failure. Unscheduled downtime and higher maintenancecosts are the consequence.
Maximum Interchangeability Low Flow Retrofit
CHEM-1C 90
To meet ANSI B73.1M specifications, Goulds provides thebest choice of stuffing box or seal chamber and a wide rangeof sealing arrangements.
Your Goulds representative will gladly recommend the bestsealing solution for your service... some of which are illustrat-ed below.
PACKED BOX
Teflon*-Impregnated Fiber Packing
Standard BoreStuffing Box
*E.I. DuPont reg. trademark
SINGLE INSIDE SEAL
Flexibly Mounted Seal with Throat Bushing
BigBore Seal Chamber (use TaperBore if throat bushing not required).
CONVENTIONAL
DOUBLE SEAL
BigBoreSeal Chamber
TANDEM SEAL
TaperBoreSeal Chamber (use BigBoreif throat bushing required).
The heart of the i-FRAME , the i-ALERTcondition monitor unit continuously mea-sures vibration and temperature at thethrust bearing and automatically indicateswhen pre-set levels of vibration and tem-perature have been exceeded, so thatchanges to the process or machine canbe made before failure occurs.
A visual indication of pump health makes walk-around inspections more effi-cient and accurate. The result is a more robust process to monitor and main-tain all your ANSI pumps so that your plant profitability is maximized.
i-ALERT Condition Monitor
Optimized Oil Sump Design
Internal sump geometry is optimized forlonger bearing life. Sump size increased by10%-20% results in better heat transfer andcooler bearings. Contoured design directscontaminants away from bearings, to themagnetic drain plug for safe removal.
Shaft and Bearings Engineered
for Maximum Reliability
Fatigue life more than double that of conventional bearing steels.
Inpro VBXX-D Hybrid Bearing Isolators
Most bearings fail before reaching their potential life. They fail for a variety ofreasons, including contamination of the lubricant. INPRO VBXX-D has longbeen considered the industry standard in bearing lubricant protection. Thei-FRAME now improves upon that design by offering stainless steel rotors,for maximum protection against contaminants and the corrosive effects of
seal leakage or environmental conditions.These seals are non-contacting and do not
wear.
Goulds i-FRAMEPower Ends Designed for Reliability, Extended Pump Life
Maximum Sealing Flexibility
CHEM-1C91
Parts List and Materials of Construction
Construction Details All dimensions in inches and (mm).
Material
Item Ductile Iron/ Hastelloy
NumberPart Name
316SS Trim316SS CD4MCu Alloy 20
B & C
100 Casing Ductile Iron 316SS CD4MCu Alloy 20 Hastelloy101 Impeller 316SS 316SS CD4MCu Alloy 20 Hastelloy105 Lantern Ring (Not Illustrated) Glass-Filled Teflon*106 Stuffing Box Packing (Not Illustrated) Teflon* Impregnated Fibers108 Frame Adapter Ductile Iron112 Thrust Bearing Double Row Angular Contact Conrad**122 ShaftLess Sleeve (Optional) SAE4140 316SS Alloy 20 Hastelloy122 ShaftWith Sleeve SAE4140 316SS126 Shaft Sleeve 316SS Alloy 20 Hastelloy136 Bearing Locknut and Lockwasher Steel168 Radial Bearing Single Row Deep Groove184 Stuffing Box Cover (Packed Box) Ductile Iron 316SS CD4MCu Alloy 20 Hastelloy184M Seal Chamber (Mechanical Seal) Ductile Iron 316SS CD4MCu Alloy 20 Hastelloy228 Bearing Frame Cast Iron (Ductile Iron for STX Group)250 Gland 316SS CD4MCu Alloy 20 Hastelloy262 Repeller/Sleeve (Dynamic Seal Option) CD4MCu Alloy 20 Hastelloy264 Gasket, Cover-to-Backplate (Dynamic Seal) Teflon*265A Stud/Nut, Cover-to-Adapter 304SS319 Oil Sight Glass Glass/Steel332A Inpro vbxx-d Labyrinth Oil Seal (Outboard) Stainless Steel/Bronze333A Inpro vbxx-d Labyrinth Oil Seal (Inboard) Stainless Steel/Bronze351 Casing Gasket Aramid Fiber with EPDM Rubber358A Casing Drain Plug (Optional) Steel 316SS CD4MCu Alloy 20 Hastelloy360 Gasket, Frame-to-Adapter Buna370 Cap Screw, Adapter-to-Casing Steel 304SS418 Jacking Bolt 304SS444 Backplate (Dynamic Seal Option) Ductile Iron 316SS CD4MCu Alloy 20 Hastelloy469B Dowel Pin Steel496 O-ring, Bearing Housing Buna Rubber496A O-ring, Impeller Glass-Filled Teflon*761B i-ALERT Condition Monitor Stainless Steel/Epoxy
*E.I. DuPont reg. trademark **LTi Power End features Duplex Angular Contact
Diameter at Impeller .75 (19) 1 (25) 1.25 (32)
Diameter in Stuffing Box/Seal Chamber(Less Sleeve) 1.375 (35) 1.75 (45) 2.125 (54)(With Sleeve) 1.125 (29) 1.5 (38) 1.875 (48)
ShaftDiameter Between Bearings 1.5 (38) 2.125 (54) 2.5 (64)Diameter at Coupling .875 (22) 1.125 (29) 1.875 (48)Overhang 6.125 (156) 8.375 (213) 8.375 (213)Maximum Shaft Deflection 0.002 (0.05)
Sleeve O.D. thru Stuffing Box/Seal Chamber 1.375 (35) 1.75 (45) 2.125 (54)Radial 6207 6309 6311Thrust 3306 3309 7310
BearingsBearing Span 4.125 (105) 6.75 (171) 6.875 (164)
BigBore
Seal ChamberBore 2.875 (73) 3.5 (89) 3.875 (98)
Stuffing Box Bore 2 (51) 2.5 (64) 2.875 (73)Power Limits HP (kW) per 100 RPM 1.1 (.82) 3.4 (2.6) 5.6 (4.2)
Maximum
Oil/Grease Lubrication without Cooling 350 F (177 C)
LiquidOil Lubrication with Finned Cooler 500 F (260 C)
Temperature Oil Lubrication with 700 F (371 C)High Temperature Option
Casing Corrosion Allowance .125 (3)
CHEM-1C 92
0
CAPACITY 3500 RPM (60 Hz)0 10
0
TOTA
L HE
AD
350
0 RP
M (6
0 Hz)
0 0
TOTA
L HE
AD
285
0 RP
M (5
0 Hz)
0GPMm /h3
650
180900260
20 50 80 150
100 200 300 400 500 600 700
FT.
20
40
60
80
100
120
140
160
F = Scale Change
500
400
300
200
100
800
700
600
500
400
300
200
10020
40
60
80
100
120
140
160
180
200