TPR Series. Vertical Multistage Centrifugal Pumps. 60Hz

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Transcription:

TPR Series Vertical Multistage Centrifugal Pumps z

Contents General Data Performance Range Product Range Applications Pump Motor Operating Conditions TPR Materials TPR(S)(N) Materials Type Key Operating range For The Shaft Seal Maximum Inlet Pressure Maximum in Code for pipework connectionlet Pressure Selection of Pump Type 3 5 7 9 1 11 1 Performance Curves/Technical Data TPR 1 13 TPR 1 (S)(N) 15 TPR 3 17 TPR 3 (S)(N) 19 TPR 5 1 TPR 5 (S)(N) 3 TPR1 5 TPR1 (S)(N) 7 TPR15 9 TPR15 (S) 31 TPR 33 TPR (S) 35 TPR3 37 TPR3 (S) 39 TPR5 1 TPR5 (S) 3 TPR 5 TPR (S) 7 TPR9 9 TPR9 (S) 51 Accessories 53 1

TPR Series Vertical Multistage Centrifugal Pump Performance Range z 3 1 3 TPR 1 TPR 1 (S) TPR 1 (N) TPR 3 TPR 5 TPR 3 (S) TPR 5 (S) TPR 3 (N) TPR 5 (N) TPR 1 TPR 1 (S) TPR 1 (N) TPR 15 TPR 15 (S) TPR TPR 3 TPR 5 TPR TPR 9 TPR (S) TPR 3 (S) TPR 5 (S) TPR (S) TPR 9 (S). 1 1 3 5 1 3 5 1 Q [m³/h]

TPR(S)(N) Product Range Description TPR1(S)(N) TPR3(S)(N) TPR5(S)(N) TPR1(S)(N) Range Nominal flow rate Flow range Max. pressure Motor power [ m 3 /h ] [ m 3 /h ] [ bar ] [ kw ] 1...9.373. 3. 1.5..37. 31..557.5 1 1 5.7511 Temperature range [ o C ] ~ +1 Version TPR TPR(S) / TPR(N) TPR Pipe Connect DIN flange TPR(S) Pipe Connection DN 5 / 3 DN 5 / 3 DN 5 / 3 DN DIN flange PJE coupling (Victaulic) TPR(N) Pipe Connection DN 5 / 3 R 1¼ DN 5 / 3 R 1¼ DN 5 / 3 R 1¼ DN R DIN flange PJE coupling (Victaulic) DN 5 / 3 R 1¼ DN 5 / 3 R 1¼ DN 5 / 3 R 1¼ DN R TPR15(S) 1 19 1.51.5 DN5 DN5 R DN5 R TPR(S) 1335 1.1.5 DN5 DN5 R DN5 R Standard Available 3

TPR(S)(N) Description TPR3(S) TPR5(S) TPR(S) Range Nominal flow rate Flow range Max. pressure Motor power [ m 3 /h ] [ m 3 /h ] [ bar ] [ kw ] 3 1 7.3 5 7 5.55 77 31 1 7.55 Temperature range [ o C ] ~ +1 Version TPR TPR(S) TPR Pipe Connect DIN flange TPR(S) Pipe Connection DN5 DN DN1 DIN flange PJE coupling (Victaulic) DN5 DN DN1 TPR9(S) 1 51 1 115 DN1 DN1 Standard Available

TPR(S)(N) Applications Application Water supply Filtration and transfer at waterworks Distribution from waterworks Pressure boosting in mains Pressure boosting in highrise buildings, hotels, etc. Pressure boosting for industrial water supply Industry Pressure boosting Processwater systems Washing and cleaning systems Vehiclewashing tunnels Firefighting systems Liquid transfer Cooling and airconditioning systems (refrigerants) Boiler feed and condensate systems Machine tools (cooling lubricants) Special transfer duties Oils and alcohols Glycol and coolants Water treatment Ultrafiltration systems Reverse osmosis systems * Softening, ionising, demineralising systems Distillation systems Separators Irrigation Field irrigation (flooding) Sprinkler irrigation Dripfeed irrigation Recommended version. Alternative version. TPR,TPR(S) TPR(N) 5

TPR(S)(N) Pump TPR(S) is a non selfpriming, vertical multistage centrifugal pump, consisting of a base, pump head, pump body and an outer sleeve. The base has inline suction and discharge ports, and all seals are maintenancefree. TPR 1 / 3 / 5 / 1 / 15 / Motor 1 Pump Pump head 3 5 7 Base 9 Motor The motor is a totally enclosed, fan cooled, pole standard motor. Installation specifications:.37.kw, V1; over 5.5kW, v1 Insulation class: F Enclosure class: IP55, IP5 Standard voltages: 3x / 3 V Sttops and Restarts:.37less than kw, 3 times / hour Over.kw, times / hour Materials TPR No. Description Materials 1 Pump head Cast iron FC Operating conditions: Shaft SUS3 Delivery liquids : nonviscous, nonflammable/explosive, without neither solid nor fiber particles, and should not cause physical nor chemical damage to the pump. For viscosity larger than water, use pumps with a higher output if necessary. Whether a pump is suitable for a certain liquid depends factors such as the liquid s chlorine content, P value, temperature and composition, among other factors. Liquids temperature: C to 1 C Environmental Temperature: Maximum At environmental temperatures over C or altitudes over 1m above sea level, motor heat dissipation will be reduced due to reduced air density thus reducing heat dissipation, and cause a decrease in power output. In those situations, higher rated pump is necessary. Minimum suction pipe pressure: the suction pressure should be calculated and checked if any of these conditions exist: igh liquid temperature Flow significantly larger than rated maximum Liquid requires long suction distance The suction pipe is long Liquid entry conditions are bad For calculations, please see page. 3 5 7 9 Impeller Shaft seal Sleeve Chamber Oring for sleeve Neck ring Base Rubber parts SUS3 Cartridge type SUS3 SUS3 EPDM or NBR PTFE Cast iron FC EPDM or NBR

TPR(S)(N) TPR 1 / 3 / 5 / 1 (S)(N), 15 / (S) TPR 3 / 5 / / 9 1 3 5 7 9 1 3 1 5 7 1 11 1 9 11 1 Materials TPR 1 / 3 / 5 / 1 (S)(N), 15 / (S) Materials TPR 3 / 5 / / 9 No. Description Materials TPR(S) TPR(N) No. Description Materials 1 Pump head FC 1 3 5 Pump head Shaft Pump head cover Shaft seal Impeller Chamber Cast iron FC SUS3 SUS31 SUS3 / SUS31 Cartridge type SUS3 SUS31 SUS3 SUS31 3 5 Motor stool Shaft Impeller Chamber Sleeve FC SUS31 SUS3 SUS3 SUS3 7 Sleeve SUS3 SUS31 7 Oring for sleeve EPDM or FKM Neck ring PTFE Base FCD5 9 Base SUS3 / SUS31 9 Neck ring Carbongraphitefilled PTFE 1 Oring for sleeve EPDM or NBR 1 Shaft seal Cartridge type 11 1 Base plate Flange Cast iron FC Cast iron FC Rubber parts EPDM or NBR SUS3 may be replaced by SUS31 depended on stock availability. 11 1 Bearing ring Bottom bearing ring Rubber parts Tungsten Carbongraphitefilled PTFE EPDM or FKM 7

TPR(S)(N) TPR 3 / 5 / / 9 (S) Type Keys Pump Example TPR 3 3 1 N F RSS Type range: TPR 3 1 5 7 1 11 1 9 Flow rate [m 3 /h] Number of stages Number of impellers Code for pump material Code for pipe connection Code for shaft seal Key to codes Code Description Code for materials S SUS 3 N SUS 31 Code for pipe connection P PJE Coupling ( Victarlic ) F DIN flange 13 Shaft seal Materials TPR 3 / 5 / / 9 (S) Example R S S No. Description Materials 1 Pump head SUS3 Motor stool FC 3 Shaft Stainless steel Shaft seal type designation Impeller SUS3 R Blalaced cartridge seal with Oring 5 Chamber SUS3 Seal face material (stationary and rotating) G Sleeve SUS3 S Silicon Carbide (SIC) 7 Oring for sleeve EPDM or FKM T Tungsten Base SUS3 Secondary seal material (rubber parts) E EPDM 9 Neck ring Carbongraphitefilled PTFE V NBR VITON FKM 1 Shaft seal Cartridge type 11 Bearing ring Tungsten 1 Bottom bearing ring Carbongraphitefilled PTFE 13 Base plate FCD5 Rubber parts EPDM or FKM

TPR(S)(N) Operating range of the shaft seal The operating range of the shaft seal depends on operating pressure, pump type, type of shaft seal and liquid temperature. The range shown in fig. 5 applies to clean water and water with antifreeze liquids. If the operating range is exceeded, the life of the shaft seal may be reduced. p [bar] 35 3 5 RRR SSSS SSRSSE/V/ S15 S EVE RGSE/V EV1 [ C]Rt 5 1 1 1 Fig.5 Standard shaft seal RSSE RSS RSSV RGSE RGSV Pump type Description Liquid temperature [ C] TPR1~9 TPR1~ TPR1~9 TPR3~9 TPR3~9 SIC/SIC EPDM SIC/SIC NBR SIC/SIC VITON Carbon/SIC EPDM Carbon/SIC VITON ~+1 ~+1 ~+9 ~+1 ~+9 Maximum operating pressure and liquid temperature DIN PJE Pump type Maximum permissible Maximum permissible Liquid temperature Liquid temperature operating pressure operating pressure [ bar] [ C] [bar] [ C] TPR1 (S)(N) TPR3 (S)(N) TPR5 (S)(N) TPR11 11 (S)(N) TPR117 1 (S)(N) TPR151 151 (S) TPR151 1517 (S) TPR1 1 (S) TPR1 17 (S) TPR311 37 (S) TPR3 31 (S) TPR511 55 (S) TPR5 511 (S) TPR51 513 (S) TPR11 5 (S) TPR 1 (S) TPR911 9 (S) TPR95 9 (S) 5 5 5 1 5 1 5 1 5 1 3 1 3 33 1 3 1 3 +1 5 5 5 1 5 1 5 1 5 +1 9

TPR(S)(N) Maximum Inlet Pressure The following table shows the maximum permissible inlet pressure. owever, the actual inlet pressure plus the pressure against a closed valve must always be lower than the maximum permissible operating pressure. If the maximum permissible operating pressure is exceeded, the conical bearing in the motor may be damaged and the life of the shaft seal reduced. TPR1(S)(N) 1 15 17 TPR3(S)(N) 3 317 319 35 TPR5(S)(N) 5 59 51 5 TPR1(S)(N) 11 15 1 117 TPR15(S) 151 15 153 151 TPR(S) 1 1 TPR3(S) 311 3 33 3 37 31 TPR5(S) 511 51 5 53 5 57 TPR(S) 11 1 1 5 TPR9(S) 911 9 91 9 1 15 1 15 1 15 1 1 1 1 15 1 15 1 15 1 15 Operating Pressure and Inlet Pressure The values for operating and inlet pressures shown in the table should not be considered individually but should always be compared. See the following examples. Example 1: The following pump type has been selected TPR317F Maximum operating pressure 5bar Maximum inlet pressure 1bar Discharge pressure against a closed valve 1.3bar, See page 17. This pump is not a allowed to start at an inlet pressure of 1 bar, but at an inlet pressure of 5 1.3 =.7 bar. 1

TPR(S)(N) Pump material Select the material variant on the basis of the liquid to be pumped. TPR series divide into three types: TPR, TPR(S), TPR(N): TPR is suitable for clean nonaggressive liquid. For example water and light oil. TPR(S) is suitable for light aggressive liquid; all of wetted parts are stainless steel. TPR(N) pumps are suitable for industrial liquids. Pump connections Selection of pump connection depends on the rated pressure and pipework. To meet any requirement, the TPR,TPR(S) and TPR(N) pumps offer a wide range of flexible connections. DIN flange PJE Coupling ( Victarlic ) Shaft seal ow to chose the right Mechanical Seal Liquid Type Liquid Temperature Max Pressure Operating pressure and inlet pressure Do not exceed the limit values for these pressures: maximum operating pressure maximum inlet pressures Minimum inlet pressure, NPS Calculatio of the inlet pressure "" is recommended in these situations: The liquid temperature is high. The flow is significantly higher than the rated flow. Water is drawn from depths. Water is drawn through long pipes. Inlet conditions are poor. To avoid catitation, make sure that there is a minimum pressure on the suction side of the pump. = Pb x 1. NPS f v s Barometric pressure in r p = Barometric pressure can set to ar n closed s stems p indicates the pressure in r ti tion ead in metres o read = from the cu at the st flo the pump ill deli erin f = Friction loss in suction pipe in metres head At the est flo the pump ll e deli e Vapour pressure in metres head = o e read from the pressure scale depends on the id temperature mt. s = afe mar in = minimum 5 metres head If the calculated "" is positive, the pump can operate at a suction lift of maximum "" metres head. If the calculated "" is negative, an inlet pressure of minimum "" metres head is required. tm ( C) v (m) 1 11 15 1 1 1 f, 9, 5,, 7 3, p, 1,5 5 1,,, 3,,3, 1,1 Fig. Minimum inlet pressure NPS Note :To avoid cavitation, do not select a pump with a duty point too far to the right on the NPS curve. Always check the NPS value of the pump at the highest possible folw. 11

TPR(S)(N) ow to read the curve charts Pump type, and frequency. P[kPa] TPR 3 z Number of stages. First figure: number of stages. Second figure: number of reduceddiameter impellers. Q curve for the individual pump. The bold curves indicate the recommended duty range for best efficiency. The power curves indicate pump input power per stage Curves are shown for complete (1/1) and for reduceddiameter (/3) impellers. Q [m³/h] P [kw] [%] Q [l/s] The eta curve shows the efficiency of the pump. The et curve is an average curve of all the pump types shown in the chart. The efficiency of pum reduceddiameter impellers is approx. % lower than the et curve shown in the chart. NPS The NPS curve is an average curve for all the variants shown. When sizing the pum safety margin of at least.5 m. Q [m³/h] Q curve for each individual impeller. Curves are shown for complete. Fig. 7 ow to read the curve charts Guidelines to performance curves The guidelines below apply to the curves shown on the following pages: Tolerances to ISO 99:1999, Annex A, if indicated. The motors used for the measurements are standard industrial motors. Measurement s have been made with airless water at a temperature of C. The curves apply to the following kinematic viscosity: = 1 mm /s (1 cst). Due to the risk of overheating, the pump s should not be used at a flow below the minimum flow rate. The Q curves apply to a rated motor speed of a threephase mainsoperated motor. The curve below shows the minimum flow rate as a percentage of the rated flow rate in relation to the liquid temperature. The dotted line shows a TPR pump fitted with an aircooled top assembly. Fig. Qmin [%] 3 1 1 1 1 1 1 Minimum flow rate TPR 1

TPR 1 Performance curves P [kg/cm²] 1 1 7 3 19 5 1 TPR 1 z [ft] 7 P[psi] 35 3 5 1 1 17 5 1 1 15 1 1 1 1 1 1 13 11 9 7 5 3 3 1 15 1 5 P [kw].1.......... 1. 1. 1. 1. 1...... Q [m³/h] NPS 1..... 1. 1. 1. 1. 1....... Q 35 rpm NPS Q [m³/h] 1 3 5 Q [L/min] 1 3 5 7 9 1 11 1..... 1. 1. 1. 1. 1...... Q [US GPM] [%] P Q [m³/h] 5 3 1 5 3 1 13

TPR 1 Dimensional Sketches D D1 B Rp 1/" Rp 1/" B1 FGJ (DINANSIJIS) PN 5 / DN 5/3 Rp 1/" 19X.5 75 1 1 5 Ø13.5 1 Ø35 Ø9 Ø1 Ø1 Dimensions and Weights TPR 1.37 TPR 13.37 TPR 1.37 TPR 15.55 TPR 1.55 TPR 17.75 TPR 1.75 TPR 19.75 TPR 11 1.1 TPR 111 1.1 TPR 11 1.1 TPR 113 1.1 TPR 115 1.5 TPR 117 1.5 TPR 119. TPR 11. TPR 13. TPR 15. TPR 17 3 DIN fla nge B1 B1+B 7 71 7 71 9 9 31 57 33 55 35 59 37 7 39 5 1 7 9 71 7 517 79 553 3 59 9 5 93 1 97 97 1 733 157 D1 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 11 11 11 11 11 11 D 11 11 11 11 11 11 11 11 11 11 11 11 1 1 1 1 1 1 133 3 3 3 5 7 7 3 31 31 31 39 3 51 1

TPR 1 (S)(N) Performance curves P [kg/cm²] 7 3 5 TPR 1 (S)(N) z [ft] 7 P[psi] 35 3 1 1 19 1 5 1 1 17 5 1 1 15 1 1 1 1 1 1 13 11 9 7 5 3 3 1 15 1 5 P [kw].1.......... 1. 1. 1. 1. 1...... Q [m³/h] NPS 1..... 1. 1. 1. 1. 1....... Q 35 rpm NPS Q [m³/h] 1 3 5 Q [L/min] 1 3 5 7 9 1 11 1..... 1. 1. 1. 1. 1...... P Q [m³/h] 5 3 1 5 3 1 Q [US GPM] [%] 15

TPR 1 (S)(N) D D1 B Rp 1/" Rp 1/" B1 P(PJE) FGJ (DINANSIJIS) PN 5 / DN 5/3 Rp 1/" Rp 1/" Ø1 19X7 5 Ø13.5 Ø. 1 1 15 1 1 75 1 15 Ø13.5 3 1 1 Ø3 Ø9 Ø15 Ø1 Ø13.5 TPRS/TPRN TPR 1 (S)(N) TPR 13 (S)(N) TPR 1 (S)(N) TPR 15 (S)(N) TPR 1 (S)(N) TPR 17 (S)(N) TPR 1 (S)(N) TPR 19 (S)(N) TPR 11 (S)(N) TPR 111 (S)(N) TPR 11 (S)(N) TPR 113 (S)(N) TPR 115 (S)(N) TPR 117 (S)(N) TPR 119 (S)(N) TPR 11 (S)(N) TPR 13 (S)(N) TPR 15 (S)(N) TPR 17 (S)(N).37.37.37.55.55.75.75.75 1.1 1.1 1.1 1.1 1.5 1.5.... 3 PJE DIN flange B1 B1+B B1 B1+B D1 5 77 71 1.5 5 77 71 1.5 7 95 9 1.5 9 53 313 57 1.5 31 55 331 55 1.5 3 57 355 59 1.5 35 59 373 7 1.5 37 1 391 5 1.5 39 5 9 73 1.5 1 7 7 91 1.5 3 9 5 79 1.5 71 3 77 1.5 51 7 51 795 11 537 1 55 31 11 573 5 97 11 9 91 933 11 5 95 99 11 1 99 9 15 11 717 11 73 15 D 11 11 11 11 11 11 11 11 11 11 11 11 1 1 1 1 1 1 133 PJE DIN 1 1 1 17 1 1 1 1 5 1 5 9 5 9 3 33 37 3 3 35 39 3 37 1 37 5 9 1

TPR 3 Performance curves P [kg/cm²] 5 3 TPR 3 z [ft] 7 P[psi] 35 3 1 1 1 19 5 1 1 17 5 1 1 15 1 1 1 1 13 11 9 7 5 3 1 1 3 1 15 1 5 P [kw] Q [m³/h] 5 7 9 Q [l/s]... 1. 1.... 3. 3.... 5. 1 3 1 1 1 1 1 Q [US GPM] [%].1...... 1. 1.... 3. 3.... 5. 9 Q 35 rpm P Q [m³/h] NPS 3 NPS... 1. 1.... 3. 3.... 5. Q [m³/h] 17

TPR 3 Dimensional Sketches D D1 B Rp 1/" Rp 1/" B1 FGJ (DINANSIJIS) PN 5 / DN 5/3 Rp 1/" 19X.5 75 1 1 5 Ø13.5 1 Ø35 Ø9 Ø1 Ø1 Dimensions and Weights TPR 3.37 TPR 33.55 TPR 3.55 TPR 35.75 TPR 3 1.1 TPR 37 1.1 TPR 3 1.1 TPR 39 1.5 TPR 31 1.5 TPR 311 1.5 TPR 31. TPR 313. TPR. TPR 317. TPR 319 3 TPR 31 3 TPR 33 3 TPR 35 DIN flange D1 D B1 B1+B 7 7 9 3 33 35 37 9 7 5 3 1 517 553 593 9 5 71 71 511 59 553 3 7 7 77 79 917 953 99 1 1.5 1.5 1.5 1.5 1.5 1.5 1.5 11 11 11 11 11 11 11 11 11 11 11 11 11 11 1 1 1 1 1 1 1 133 133 133 133 3 9 9 9 37 37 3 39 1 9 9 9 59 1

TPR 3 (S)(N) Performance curves P [kg/cm²] 5 3 TPR 3 (S)(N) z [ft] 7 P[psi] 35 3 1 1 1 19 5 1 1 17 5 1 1 15 1 1 1 1 13 11 9 7 5 3 1 1 3 1 15 1 5 P [kw] Q [m³/h] 5 7 9 Q [l/s]... 1. 1.... 3. 3.... 5. 1 3 1 1 1 1 1 Q [US GPM] [%].1...... 1. 1.... 3. 3.... 5. 9 Q 35 rpm P Q [m³/h] NPS 3 NPS... 1. 1.... 3. 3.... 5. Q [m³/h] 19

TPR 3 (S)(N) Dimensional Sketches D D1 B Rp 1/" Rp 1/" B1 P(PJE) FGJ (DINANSIJIS) PN 5 / DN 5/3 Rp 1/" Rp 1/" Ø1 19X7 5 Ø13.5 Ø. 1 1 15 1 1 75 1 15 Ø13.5 3 1 1 Ø3 Ø9 Ø15 Ø1 Ø13.5 Dimensions and Weights TPRS/TPRN TPR 3 (S)(N) TPR 33 (S)(N) TPR 3 (S)(N) TPR 35 (S)(N) TPR 3 (S)(N) TPR 37 (S)(N) TPR 3 (S)(N) TPR 39 (S)(N) TPR 31 (S)(N) TPR 311 (S)(N) TPR 31 (S)(N) TPR 313 (S)(N) TPR (S)(N) TPR 317 (S)(N) TPR 319 (S)(N) TPR 31 (S)(N) TPR 33 (S)(N) TPR 35 (S)(N).37.55.55.75 1.1 1.1 1.1 1.5 1.5 1.5.... 3 3 3 PJE DIN flange B1 B1+B B1 B1+B D1 D 3 3 3 35 393 11 9 7 5 51 537 577 13 9 5 5 9 51 53 5 7 9 7 75 77 1 91 937 973 1 77 71 77 511 95 59 319 553 337 1 355 19 373 37 7 75 73 771 79 51 5 55 1 59 91 95 9 7 159 1.5 11 1.5 11 1.5 11 1.5 11 1.5 11 1.5 11 1.5 11 11 1 11 1 11 1 11 1 11 1 11 1 11 1 133 133 133 133 PJE DIN 1 17 1 17 3 7 3 7 3 35 31 35 31 35 3 3 33 37 33 3 3 3 1 3 7 53 57

TPR 5 Performance curves P [kg/cm²] TPR 5 z [ft] 7 P[psi] 35 3 1 1 1 5 1 1 1 1 1 1 15 5 1 1 1 1 1 1 13 11 9 7 5 3 3 1 15 1 5 1 3 5 7 9 1 Q [m³/h] 1 1 1 1 1 Q [L/min] P [kw]..1 5 1 15 5 3 35 5 Q [US GPM] [%] P.. 1 3 5 7 9 1 9 Q 35 rpm Q [m³/h] NPS 3 NPS 1 3 5 7 9 1 Q [m³/h] 1

TPR 5 Dimensional Sketches D D1 B Rp 1/" Rp 1/" D3 B1 FGJ (DINANSIJIS) PN 5 / DN 5/3 Rp 1/" 19X.5 75 1 1 5 Ø13.5 1 Ø35 Ø9 Ø1 Ø1 Dimensions and Weights TPR 5.55 TPR 53 1.1 TPR 5 1.1 TPR 55 1.5 TPR 5. TPR 57. TPR 5. TPR 59. TPR 51 3 TPR 511 3 TPR 51 3 TPR 513 TPR 51 TPR 515 TPR 51 TPR 51 5.5 TPR 5 5.5 TPR 5 5.5 TPR 5 7.5 DIN flange D1 D D3 B1 B1+B 7 311 33 35 9 3 3 9 51 5 575 9 5 3 77 93 511 575 71 75 77 799 5 7 99 91 9 115 1 1139 1193 17 131 1.5 1.5 1.5 11 11 11 11 11 11 11 11 1 1 1 1 1 133 133 133 133 133 133 133 15.5 15.5 15.5 15.5 3 3 3 3 3 3 37 3 3 39 7 5 57 5 5 7 75 7 9

TPR 5 (S)(N) Performance curves P [kg/cm²] TPR 5 (S)(N) z [ft] 7 P[psi] 35 3 1 1 1 5 1 1 1 1 1 1 15 5 1 1 1 1 1 1 13 11 9 7 5 3 3 1 15 1 5 1 3 5 7 9 1 Q [m³/h] 1 1 1 1 1 Q [L/min] P [kw]..1 5 1 15 5 3 35 5 Q [US GPM] [%] P.. 1 3 5 7 9 1 9 Q 35 rpm Q [m³/h] NPS 3 NPS 1 3 5 7 9 1 Q [m³/h] 3

TPR 5 (S)(N) Dimensional Sketches D D1 B Rp 1/" Rp 1/" D3 B1 P(PJE) FGJ (DINANSIJIS) PN 5 / DN 5/3 Rp 1/" Rp 1/" Ø1 19X7 5 Ø13.5 Ø. 1 1 15 1 1 75 1 15 Ø13.5 3 1 1 Ø3 Ø9 Ø15 Ø1 Ø13.5 Dimensions and Weights TPRS/TPRN TPR 5 (S)(N) TPR 53 (S)(N) TPR 5 (S)(N) TPR 55 (S)(N) TPR 5 (S)(N) TPR 57 (S)(N) TPR 5 (S)(N) TPR 59 (S)(N) TPR 51 (S)(N) TPR 511 (S)(N) TPR 51 (S)(N) TPR 513 (S)(N) TPR 51 (S)(N) TPR 515 (S)(N) TPR 51 (S)(N) TPR 51 (S)(N) TPR 5 (S)(N) TPR 5 (S)(N) TPR 5 (S)(N).55 1.1 1.1 1.5.... 3 3 3 5.5 5.5 5.5 7.5 PJE DIN fla nge B1 B1+B B1 B1+B D1 D D3 95 3 39 393 7 7 55 53 559 5 13 7 75 1 9 9 559 5 7 79 75 73 9 5 3 95 97 999 1 11 117 13 13 77 31 337 3 35 9 5 57 57 1 55 773 7 1 935 511 57 1 3 717 7 771 79 71 9 9 97 11 11 1139 1193 17 131 511 11 57 11 1 11 3 1 717 1 7 1 771 1 79 1 133 71 133 9 133 9 133 97 133 11 133 11 133 1139 15.5 1193 15.5 17 15.5 131 15.5 3 3 3 3 PJE DIN 17 1 3 7 3 3 31 35 31 35 3 3 3 37 39 1 5 5 5 51 55 51 55 5 5 7 71 7 9 73

TPR 1 Performance curves P [kg/cm²] 17 TPR 1 z [ft] 9 P[psi] 1 35 1 7 3 1 1 1 5 1 1 1 5 1 1 9 1 1 1 1 7 5 3 1 3 1 15 1 5 1 3 5 7 9 1 11 1 13 1 15 1 Q [m³/h] 1 1 1 1 1 Q [L/min] P [kw]. 5 1 15 5 3 35 5 5 55 5 7 Q [US GPM] [%].. P.. 1 1 3 5 7 9 1 11 1 13 1 15 1 Q [m³/h] NPS 35 rpm 1 NPS 1 3 5 7 9 1 11 1 13 1 15 1 Q [m³/h] 5

TPR 1 Dimensional Sketches D D1 B Rp 1/" Rp 1/" D3 B1 Rp 1/" FGJ (DINANSIJIS) PN 15 / DN 1X Ø15 Ø115 Ø15 13 17 15 5 Ø39 Ø13.5 Dimensions and Weights TPR 11 TPR 1 TPR 13 TPR 1 TPR 15 TPR 1 TPR 17 TPR 1 TPR 19 TPR 11 TPR 11 TPR 11 TPR 11 TPR 117.75 1.5. 3. 3.. 5.5 5.5 5.5 7.5 7.5 11. 11. 11. DIN flange D1 D D3 B1 B1+B 3 33 393 5 55 5 1 7 1 91 931 5 7 75 7 5 91 9 97 1 11 131 11 131 1.5 11 11 1 11 1 133 133 133 15.5 15.5 15.5 15.5 15.5 33 5 33 5 33 5 3 3 3 3 3 35 35 35 3 5 7 5 55 5 7 9 1 13 1 1 15

TPR 1 (S)(N) Performance curves P [kg/cm²] 17 TPR 1 (S)(N) z [ft] 9 P[psi] 1 35 1 7 3 1 1 1 5 1 1 1 5 1 1 9 1 1 1 1 7 5 3 1 3 1 15 1 5 1 3 5 7 9 1 11 1 13 1 15 1 Q [m³/h] 1 1 1 1 1 Q [L/min] P [kw]. 5 1 15 5 3 35 5 5 55 5 7 Q [US GPM] [%].. P.. 1 1 3 5 7 9 1 11 1 13 1 15 1 Q [m³/h] NPS 35 rpm 1 NPS 1 3 5 7 9 1 11 1 13 1 15 1 Q [m³/h] 7

TPR 1 (S)(N) Dimensional Sketches D D1 B Rp 1/" Rp 1/" D3 B1 FGJ (DINANSIJIS) PN 15 / DN P(PJE) Rp 1/" 19X Rp 1/" Ø13.5 Ø15 Ø115 Ø15 13 15 Ø Ø13.5 13 1 Ø.1 15 Dimensions and Weights TPRS/TPRN TPR 11 (S)(N) TPR 1 (S)(N) TPR 13 (S)(N) TPR 1 (S)(N) TPR 15 (S)(N) TPR 1 (S)(N) TPR 17 (S)(N) TPR 1 (S)(N) TPR 19 (S)(N) TPR 11 (S)(N) TPR 11 (S)(N) TPR 11 (S)(N) TPR 11 (S)(N) TPR 117 (S)(N).75 1.5. 3. 3.. 5.5 5.5 5.5 7.5 7.5 11. 11. 11. PJE DIN flange B1 B1+B B1 B1+B D1 D D3 PJE DIN 3 59 3 59 1.5 11 31 3 375 5 375 5 11 1 5 71 5 71 11 1 5 3 7 3 7 133 9 53 79 79 133 5 5 9 57 9 57 133 5 9 5 9 15.5 3 5 59 95 59 95 15.5 3 3 9 9 15.5 3 7 5 15 5 15 15.5 3 95 99 71 111 71 111 15.5 3 9 11 53 1353 53 1353 33 5 35 1 1 913 113 913 113 33 5 35 13 1 93 13 93 13 33 5 35 15 1

TPR 15 Performance curves P [kg/cm²] 1 TPR 15 [ft] P[psi] 35 1 z 7 3 1 1 1 1 1 1 9 7 5 5 1 1 1 1 5 3 3 15 1 1 1 5 1 1 1 1 1 3 Q [m³/h] 1 1 3 3 Q [L/min] 1 3 5 7 9 1 11 1 Q [US GPM] P [kw] [%] 1. 1... P. 15 1 1 1 1 1 1 Q [m³/h] NPS 35 rpm 5 NPS 1 1 1 1 1 Q [m³/h] 9

TPR 15 Dimensional Sketches D D1 B Rp 1/" Rp 1/" D3 B1 F (DIN) PN 15 / DN 5 Rp 1/" Ø1.1 9 Ø15 Ø15 13 17 3 Ø5 15 5 Ø13.5 Dimensions and Weights TPR 151 TPR 15 TPR 153 TPR 15 TPR 155 TPR 15 TPR 157 TPR 15 TPR 159 TPR 151 TPR 151 1.5 3.. 5.5 7.5 11. 11. 11. 15. 15. 1.5 DIN flange D1 D D3 B1 B1+B 1 19 53 5 71 759 9 9 9 95 73 3 99 99 11 159 13 139 139 159 11 33 33 33 33 33 33 1 133 133 15.5 15.5 5 5 5 5 5 5 3 3 35 35 35 35 35 35 9 5 1 1 15 17 11 13 179 3

TPR 15 (S) Performance curves P [kg/cm²] 1 TPR 15 (S) [ft] P[psi] 35 1 z 7 3 1 1 1 1 1 1 9 7 5 5 1 1 1 1 5 3 3 15 1 1 1 5 1 1 1 1 1 3 Q [m³/h] 1 1 3 3 Q [L/min] 1 3 5 7 9 1 11 1 Q [US GPM] P [kw] [%] 1. 1... P. 15 1 1 1 1 1 1 Q [m³/h] NPS 35 rpm 5 NPS 1 1 1 1 1 Q [m³/h] 31

TPR 15 (S) Dimensional Sketches D D1 B Rp 1/" Rp 1/" D3 B1 FGJ (DINANSIJIS) PN 15 / DN 5 P(PJE) Rp 1/" 19X Rp 1/" Ø13.5 9 Ø1.5 Ø17 Ø15 9 13 3 Ø5 Ø1.5 15 Ø13.5 13 1 Ø.1 15 Dimensions and Weights TPRS/TPRN TPR 151 (S) TPR 15 (S) TPR 153 (S) TPR 15 (S) TPR 155 (S) TPR 15 (S) TPR 157 (S) TPR 15 (S) TPR 159 (S) TPR 151 (S) TPR 151 (S) 1.5 3.. 5.5 7.5 11. 11. 11. 15.5 15.5 1.5 PJE DIN fla nge D1 D D3 PJE DIN B1 B1+B B1 B1+B 17 5 5 59 715 7 5 5 95 95 9 7 91 995 115 1 135 135 1395 153 17 9 7 5 5 91 59 995 715 115 7 1 5 135 5 135 95 1395 95 153 11 33 33 33 33 33 33 1 133 133 15.5 15.5 5 5 5 5 5 5 3 3 35 35 35 35 35 35 1 9 53 59 1 9 99 13 11 13 13 139 1 153 15 155 1 171 17 3

TPR P [kg/cm²] Performance curves 1 TPR 5 z z [ft] P[psi] 7 3 1 1 5 1 1 7 5 1 1 1 1 1 1 5 3 15 3 1 1 1 5 1 1 3 3 Q [m³/h] 1 3 5 Q [L/min] P [kw] 1. 1 1 1 1 Q [US GPM] [%] P 1.... 15 1 1 1 3 Q [m³/h] NPS 35 rpm 5 NPS 1 1 3 Q [m³/h] 33

TPR Dimensional Sketches D D1 B Rp 1/" Rp 1/" D3 B1 F (DIN) PN 15 / DN 5 Rp 1/" Ø1.1 9 Ø15 Ø15 13 17 3 Ø5 15 5 Ø13.5 Dimensions and Weights TPR 1 TPR TPR 3 TPR TPR 5 TPR TPR 7 TPR TPR 1.. 5.5 7.5 11. 11. 15. 15. 1.5 DIN flange D1 D D3 B1 B1+B 1 19 9 53 9 71 759 9 75 11 77 99 119 33 11 33 159 33 13 33 139 33 1 133 15.5 15.5 5 5 5 5 5 35 3 35 35 35 35 35 7 9 139 11 155 15 173 3

TPR (S) P [kg/cm²] Performance curves 1 TPR TPR (S) 5 z z [ft] P[psi] 7 3 1 1 5 1 1 7 5 1 1 1 1 1 1 5 3 15 3 1 1 1 5 1 1 3 3 Q [m³/h] 1 3 5 Q [L/min] P [kw] 1. 1 1 1 1 Q [US GPM] [%] P 1.... 15 1 1 1 3 Q [m³/h] NPS 35 rpm 5 NPS 1 1 3 Q [m³/h] 35

TPR (S) Dimensional Sketches D D1 B Rp 1/" Rp 1/" D3 B1 FGJ (DINANSIJIS) PN 15 / DN 5 P(PJE) Rp 1/" 9 19X Ø1.5 Ø17 Ø15 Rp 1/" 9 Ø13.5 13 3 Ø5 Ø1.5 15 Ø13.5 13 1 Ø.1 15 Dimensions and Weights TPRS/TPRN TPR 1 (S) TPR (S) TPR 3 (S) TPR (S) TPR 5 (S) TPR (S) TPR 7 (S) TPR (S) TPR 1 (S).. 5.5 7.5 11. 11. 15. 15. 1.5 PJE DIN fla nge B1 B1+B B1 B1+B D1 D D3 PJE DIN 17 7 17 7 11 1 7 779 779 133 5 99 5 99 5 15.5 3 79 5 95 5 95 15.5 3 93 9 7 117 7 117 33 5 35 13 139 715 115 715 115 33 5 35 13 11 7 1 7 1 33 5 35 15 1 5 135 5 135 33 5 35 151 1 95 1 95 1 33 5 35 1 173 3

TPR 3 Performance curves P [kg/cm²] 1 TPR 3 5 z z [ft] P[psi] 9 9 9 35 1 1 7 7 7 3 5 1 1 1 1 1 1 1 1 5 3 1 5 3 1 11 5 3 1 15 1 5 1 1 3 3 Q [m³/h] 1 3 5 7 Q [L/min] P [kw] 3.. 1... 3 1 1 1 1 1 1 Q [US GPM] [%] P 1/1 P /3 1 1 3 3 Q [m³/h] Q 35 rpm 1/1 Q 35 rpm /3 NPS 1 1 3 3 Q [m³/h] NPS 1 1 37

TPR 3 Dimensional Sketches D D1 B D3 G 1/" B1 G 1/" F (DIN) PN 15 / DN 5 XØ1 15 Ø17 Ø15 Ø15 17 3 Ø7 9 Ø1 Dimensions and Weights B1 B1+B D1 D D3 TPR 311 TPR 31 TPR 3 TPR 31 TPR 3 TPR 33 TPR 33 TPR 3 TPR 3 TPR 35 TPR 35 TPR 3 TPR 3 TPR 37 TPR 37 TPR 3 TPR 3 TPR 39 TPR 39 TPR 31. 3. 5.5 5.5 7.5 11. 11. 11. 15. 15. 1.5 1.5 1.5.. 3. 3. 3. 3. 3. 55 55 575 575 575 755 755 5 5 95 95 95 95 135 135 115 115 1175 1175 15 9 9 95 1 1 19 19 13 11 1 1 157 157 171 171 17 17 15 17 19 31 31 31 31 31 31 31 31 31 31 39 39 39 39 39 11 1 13 13 159 3 3 3 35 35 35 35 35 35 35 35 35 35 7 93 93 15 15 15 155 1 171 1 17 17 31 31 319 3

TPR 3 (S) Performance curves P [kg/cm²] 1 TPR TPR 3 3(S) 5 z z [ft] P[psi] 9 9 9 35 1 1 7 7 7 3 5 1 1 1 1 1 1 1 1 5 3 1 5 3 1 11 5 3 1 15 1 5 1 1 3 3 Q [m³/h] 1 3 5 7 Q [L/min] P [kw] 3.. 1... 3 1 1 1 1 1 1 Q [US GPM] [%] P 1/1 P /3 1 1 3 3 Q [m³/h] Q 35 rpm 1/1 Q 35 rpm /3 NPS 1 1 3 3 Q [m³/h] NPS 1 1 39

TPR 3 (S) Dimensional Sketches D D1 B D3 G 1/" B1 G 1/" F (DIN) PN 15 / DN 5 XØ1 15 Ø17 Ø15 Ø15 17 3 Ø7 9 Ø1 Dimensions and Weights TPRS B1 B1+B D1 D D3 TPR 311 (S) TPR 31 (S) TPR 3 (S) TPR 31 (S) TPR 3 (S) TPR 33 (S) TPR 33 (S) TPR 3 (S) TPR 3 (S) TPR 35 (S) TPR 35 (S) TPR 3 (S) TPR 3 (S) TPR 37 (S) TPR 37 (S) TPR 3 (S) TPR 3 (S) TPR 39 (S) TPR 39 (S) TPR 31 (S). 3. 5.5 5.5 7.5 11. 11. 11. 15. 15. 1.5 1.5 1.5.. 3. 3. 3. 3. 3. 55 55 575 575 575 755 755 5 5 95 95 95 95 135 135 115 115 1175 1175 15 9 9 95 1 1 19 19 13 11 1 1 157 157 171 171 17 17 15 17 19 31 31 31 31 31 31 31 31 31 31 39 39 39 39 39 11 1 13 13 159 3 3 35 35 35 35 35 35 35 35 35 35 35 7 95 95 17 15 15 157 17 173 1 19 19 31 31 31 31 31

TPR 5 Performance curves P [kg/cm²] 7 71 7 TPR 5 5 z [ft] P[psi] 35 1 7 3 1 1 5 51 5 5 1 1 1 1 1 5 1 1 1 1 3 31 3 3 15 1 1 1 11 1 5 5 1 15 5 3 35 5 5 55 5 7 Q [m³/h] 1 3 5 7 9 1 11 1 Q [L/min] P [hp] 1 p [kpa] 3 1 P [kw] 3 1 1 1 1 1 1 3 Q [US GPM] [%] P 1/1 P /3 5 1 15 5 3 35 5 5 55 5 Q [m³/h] NPS Q 35 rpm 1/1 Q 35 rpm /3 NPS 5 1 15 5 3 35 5 5 55 5 Q [m³/h] 1

TPR 5 Dimensional Sketches D D1 B D3 G 1/" B1 G 1/" F (DIN) PN 15 / DN XØ1 1 Ø1 Ø1 Ø 19 5 35 Ø 33 Ø1 Dimensions and Weights B1 B1+B D1 D D3 TPR 511 TPR 51 TPR 5 TPR 51 TPR 5 TPR 53 TPR 531 TPR 53 TPR 5 TPR 51 TPR 5 TPR 55 TPR 551 TPR 55 TPR 5 TPR 51 TPR 5 TPR 57 TPR 571 TPR 57 5.5 7.5 11. 11. 15. 1.5 1.5 1.5. 3. 3. 3. 3. 3. 37. 37. 37. 5. 5. 5. 559 559 79 79 79 9 9 9 99 99 99 99 99 99 19 19 19 119 119 119 95 93 1 1 1 13 13 13 15 15 15 1 1 1 175 175 175 157 157 157 31 31 31 31 31 31 31 39 39 39 39 39 39 39 39 39 39 39 13 159 33 33 33 3 3 35 35 35 35 35 35 35 5 5 5 1 11 159 159 17 19 19 9 7 39 39 313 313 313 39 39 39 3 3 3

TPR 5 (S) Performance curves P [kg/cm²] 7 71 7 TPR TPR 5 5(S) 5 z [ft] P[psi] 35 1 7 3 1 1 5 51 5 5 1 1 1 1 1 5 1 1 1 1 3 31 3 3 15 1 1 1 11 1 5 5 1 15 5 3 35 5 5 55 5 7 Q [m³/h] 1 3 5 7 9 1 11 1 Q [L/min] P [hp] 1 p [kpa] 3 P [kw] 3 1 1 1 1 1 3 Q [US GPM] [%] P 1/1 P /3 5 1 15 5 3 35 5 5 55 5 Q [m³/h] NPS Q 35 rpm 1/1 Q 35 rpm /3 NPS 1 1 5 1 15 5 3 35 5 5 55 5 Q [m³/h] 3

TPR 5 (S) Dimensional Sketches D D1 B D3 G 1/" B1 G 1/" F (DIN) PN 15 / DN XØ1 1 Ø1 Ø1 Ø 19 5 35 Ø 33 Ø1 Dimensions and Weights TPR 511(s) TPR 51(s) TPR 5(s) TPR 51(s) TPR 5(s) TPR 53(s) TPR 531(s) TPR 53(s) TPR 5(s) TPR 51(s) TPR 5(s) TPR 55(s) TPR 551(s) TPR 55(s) TPR 5(s) TPR 51(s) TPR 5(s) TPR 57(s) TPR 571(s) TPR 57(s) 5.5 7.5 11. 11. 15. 1.5 1.5 1.5. 3. 3. 3. 3. 3. 37. 37. 37. 5. 5. 5. B1 559 559 79 79 79 9 9 9 99 99 99 99 99 99 19 19 19 119 119 119 B1+B 95 93 1 1 1 13 13 13 15 15 15 1 1 1 175 175 175 157 157 157 D1 D D3 31 31 31 31 31 31 31 39 39 39 39 39 39 39 39 39 39 39 13 159 33 33 33 3 3 35 35 35 35 35 35 35 5 5 5 1 11 1 1 173 19 19 19 7 39 39 313 313 313 35 35 35 3 3 3

TPR Performance curves P [kg/cm²] 1 5 1 TPR z [ft] P[psi] 5 1 1 1 1 1 3 5 1 1 31 1 1 3 15 3 1 1 1 11 1 5 1 3 5 7 9 Q [m³/h] 1 1 1 1 Q [L/min] P [hp] 1 1 p [kpa] 3 P [kw] 1 1 3 5 1 15 5 3 35 Q [US GPM] P 1/1 P /3 [%] 1 3 5 7 9 Q [m³/h] NPS Q 35 rpm 1/1 Q 35 rpm /3 NPS 1 1 1 3 5 7 9 Q [m³/h] 5

TPR Dimensional Sketches D D1 F (DIN) PN 5 / DN 1 B XØ D3 Ø15 Ø19 Ø35 G 1/" Ø1 33 Ø1 F (DIN) PN 1 / DN 1 B1 G 1/" XØ1 1 Ø1 Ø1 Ø 19 5 35 Ø 33 Ø1 Dimensions and Weights B1 B1+B D1 D D3 TPR 11 TPR 1 TPR TPR 1 TPR TPR 3 TPR 31 TPR 3 TPR TPR 1 TPR TPR 5 7.5 11. 15. 1.5.. 3. 3. 37. 37. 5. 5. 51 71 75 75 75 3 3 3 919 919 919 11 9 11 15 19 195 1377 17 17 1555 1555 17 179 31 31 31 31 31 39 39 39 39 39 39 159 33 33 3 35 35 35 35 35 5 5 11 15 175 1 7 39 39 35 35 9 3

TPR (S) Performance curves P [kg/cm²] 1 5 1 TPR (S) z [ft] P[psi] 5 1 1 1 1 1 3 5 1 1 31 1 1 3 15 3 1 1 1 11 1 5 1 3 5 7 9 Q [m³/h] 1 1 1 1 Q [L/min] P [hp] 1 1 p [kpa] 3 P [kw] 1 1 3 5 1 15 5 3 35 Q [US GPM] P 1/1 P /3 [%] 1 3 5 7 9 Q [m³/h] NPS Q 35 rpm 1/1 Q 35 rpm /3 NPS 1 1 1 3 5 7 9 Q [m³/h] 7

TPR (S) Dimensional Sketches D D1 F (DIN) PN 5 / DN 1 B XØ D3 Ø15 Ø19 Ø35 G 1/" Ø1 33 Ø1 F (DIN) PN 1 / DN 1 B1 G 1/" XØ1 1 Ø1 Ø1 Ø 19 5 35 Ø 33 Ø1 Dimensions and Weights B1 B1+B D1 D D3 TPR 11 (S) TPR 1 (S) TPR (S) TPR 1 (S) TPR (S) TPR 3 (S) TPR 31 (S) TPR 3 (S) TPR (S) TPR 1 (S) TPR (S) TPR 5 (S) 7.5 11. 15. 1.5.. 3. 3. 37. 37. 5. 5. 51 71 75 75 75 3 3 3 919 919 919 11 9 11 15 19 195 1377 17 17 1555 1555 17 179 31 31 31 31 31 39 39 39 39 39 39 159 33 33 3 35 35 35 35 35 5 5 11 15 175 1 39 39 3 3 3 35

TPR 9 P [kg/cm²] Performance curves 1 1 17 17 1 1 15 15 TPR 9 3 z [ft] 5 P[psi] 5 1 13 1 1 13 1 31 3 11 1 11 1 15 9 9 1 3 7 7 1 5 3 5 3 1 11 1 5 1 1 1 1 1 Q [m³/h] 1 1 Q [L/min] 1 3 5 Q [US GPM] P [kw] 1 [%] 1 P 1/1 P /3 3 1 1 1 Q [m³/h] NPS Q 35 rpm 1/1 Q 35 rpm /3 NPS 1 1 1 1 1 1 Q [m³/h] 9

TPR 9 Dimensional Sketches D D1 B F (DIN) PN 5 / DN 1 D3 Ø15 Ø19 Ø35 G 1/" Ø1 3 Ø1 F (DIN) PN 1 / DN 1 B1 XØ1 1 Ø15 Ø1 Ø 199 1 3 Ø1 Ø1 3 Dimensions and Weights B1 B1+B D1 D D3 TPR 911 TPR 91 TPR 9 TPR 91 TPR 9 TPR 93 TPR 931 TPR 93 TPR 9 11. 15. 1.5. 3. 37. 37. 5. 5. 1 1 773 773 773 5 5 5 957 115 115 1 131 13 151 151 1573 15 31 31 31 31 39 39 39 39 39 33 33 35 35 35 35 5 5 13 17 19 7 39 35 35 9 3 5

TPR 9 (S) P [kg/cm²] Performance curves 1 1 17 17 1 1 15 15 TPR 9 (S) 3 z [ft] 5 P[psi] 5 1 13 1 1 13 1 31 3 11 1 11 1 15 9 9 1 3 7 7 1 5 3 5 3 1 11 1 5 1 1 1 1 1 Q [m³/h] 1 1 Q [L/min] 1 3 5 Q [US GPM] P [kw] 1 [%] 1 P 1/1 P /3 3 1 1 1 Q [m³/h] NPS Q 35 rpm 1/1 Q 35 rpm /3 NPS 1 1 1 1 1 1 Q [m³/h] 51

TPR 9 (S) Dimensional Sketches D D1 B F (DIN) PN 5 / DN 1 D3 Ø15 Ø19 Ø35 G 1/" Ø1 3 Ø1 F (DIN) PN 1 / DN 1 B1 XØ1 1 Ø15 Ø1 Ø 199 1 3 Ø1 Ø1 3 Dimensions and Weights B1 B1+B D1 D D3 TPR 911 (S) TPR 91 (S) TPR 9 (S) TPR 91 (S) TPR 9 (S) TPR 93 (S) TPR 931 (S) TPR 93 (S) TPR 9 (S) 11. 15. 1.5. 3. 37. 37. 5. 5. 1 1 773 773 773 5 5 5 957 115 115 1 131 13 151 151 1573 15 31 31 31 31 39 39 39 39 39 33 33 35 35 35 35 5 5 1 177 195 9 311 3 3 31 3 5

TPR(S)(N) Accessories Pipe connection Various sets of counterflanges and couplings are available for pipe connection. Counterflanges for TPR A set consists of one counterflange, one gasket, bolts and nuts. Counterflange Pump type Description Rated pressure Pipe connection TPR 1,3,5 Threaded 1 bar, EN 19 Rp 1 For welding 5 bar, EN 19 5 mm, nominal TPR 1,3,5 Threaded 1 bar, EN 19 Rp 1 1/ For welding 5 bar, EN 19 3 mm, nominal Threaded 1 bar, EN 19 Rp 1 1/ TPR 1 Threaded For welding 1 bar, EN 19 5 bar, EN 19 Rp mm, nominal For welding bar, special flange 5 mm, nominal Threaded 1 bar, EN 19 Rp Threaded 1 bar, special flange Rp 1/ TPR 15 TPR Threaded 1 bar, special flange Rp 1/* For welding 5 bar, EN 19 5 mm, nominal 5 bar bar For welding bar, special flange 5 mm, nominal 53

TPR(S)(N) Counterflange Pump type Description Rated pressure Pipe connection Threaded 1 bar, EN 19 Rp 1/ Threaded 1 bar, special flange Rp 3 TPR 3 For welding 1 bar, EN 19 5 mm, nominal 1 bar 1 bar 1/ bar 1 bar For welding bar, DIN 35 5 mm, nominal Threaded 1 bar Rp 3 TPR 5 For welding 1 bar mm, nominal 1 bar 1/ bar For welding bar mm, nominal ø19 ø Threaded 1 bar, EN 19 Rp ø15 ø1 ø ø1 ø19 ø35 1 bar 1 bar 5 bar TPR, 9 For welding 1 bar, EN 19 1 mm, nominal 5

TPR(S)(N) Counterflanges for TPR(S)(N) Counterflanges for TPR(N) pumps are made of stainless steel EN 1.1 (AISI31). A set consists of one counterflange, one gasket, bolts and nuts. Counterflange Pump type Description Rated pressure Pipe connection Threaded 1 bar, EN 19 Rp 1 TPR 1,3,5 (S)(N) For welding 5 bar, EN 19 5 mm, nominal TPR 1,3,5 (S)(N) Threaded For welding 1 bar, EN 19 Rp 1 1/ 5 bar, EN 19 3 mm, nominal Threaded 1 bar, EN 19 Rp 1 1/ Threaded 1 bar, EN 19 Rp TPR 1 (S)(N) For welding 5 bar, EN 19 mm, nominal For welding 5 bar, special flange 5 mm, nominal 55

TPR(S)(N) Counterflange Pump type Description Rated pressure Pipe connection Threaded 1 bar, EN 19 Rp Threaded 1 bar, special flange Rp 1/ Threaded 1 bar, special flange Rp 1/* ø19 TPR 15, (S) For welding 5 bar, EN 19 5 mm, nominal ø1 ø15 ø15 19.5 1.5 ø17 For welding 5 bar, special flange 5 mm, nominal ø1 ø15 ø15 Threaded 1 bar Rp 1/ Threaded 1 bar, special flange Rp 3 TPR 3 (S) For welding 1 bar 5 mm, nominal 1 bar 1/ bar 1/5 bar For welding bar 5 mm, nominal For welding 1 bar, special flange mm, nominal Threaded 1 bar Rp 3 TPR 5 (S) For welding 1 bar mm, nominal 1 bar 1/ bar For welding bar mm, nominal TPR, 9 (S) Threaded 1 bar Rp 1 bar 1 bar bar For welding 1 bar 1 mm, nominal 5

TPR(S)(N) PJE couplings for TPR(S)(N) Materials in contact with the pumped liquid are made of stainless steel (AISI 31) and rubber. A set consists of tow coupling halves, one gasket, one pipe stub (for welding or threaded), bolts and nuts. TPR 1,3,5 (S)(N) Threaded 9 5 3 R 1 1/ EPDM A B TPR 1 (S)(N) TPR 15, (S) Threaded 9 377 R EPDM 57

TPR(S)(N) Pressure and ead Conversion Table kgf/cm² m ² O Ibf/in² (psi) ft ² O N/m² (Pa) kpa bar 1.1.73.35 1.X1 5.1 1. 1 1.73.35 1.X1.1 1. 1. 1. 1.33 1.5X1.15 1.5 3.1 3..31 1 3.35X1.335 33.5 9,7 9,79,95,9 1 1, 1 5 9.7 9.79.95.9.1 1 1.91.9.9.3 1 5.1 1 Water Flow Conversion Table L /min m³/h ft³/h ft³/min Imp. gal/min US gal/min 1 1.7.7.317.5 3.75. 1.3 1.99.7.71.119 35.317 1 9.3.9.353.5.17 1.15.1337. 3..1.9 1.33..3.15 7. 1.1 1 5

www.walruspump.com All specifications are subject to change without notice. TPRzEW171

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