Engineered Pump Catalog 50 Hz Perfomance Curves ENGINEERED PUMP CATALOG 50 Hz Perfomance Curves 1 Neptuno Pumps® Engineered Pump Catalog 50 Hz Perfomance Curves Copyright © Neptuno Fluid Technology Ltd. All rights reserved. Neptuno Pumps® is a registered trademark of Neptuno Fluid Technology Ltd. 056016 Edition www.neptunopumps.com 2 Index Vertical Turbine Pumps (VTP) ....................... 7 Multistage Pumps (HR)................................ 91 Applications.................................................. 10 Main Components & Materials..................... 10 Range Chart - 50 Hz - 1 Stage..................... 11 Available Models.......................................... 11 Diagram........................................................ 12 Main Dimensions.......................................... 13 Main Dimensions (cont.)............................... 14 Multiple discharge configurations and sizes.14 Applications.................................................. 94 Main Components & Materials..................... 94 Available Models.......................................... 95 Range Chart - 50 Hz - 1 Stage..................... 95 Diagram........................................................ 96 Main Dimensions.......................................... 96 Vertical Submersible Pumps (VS) ............... 67 Available Models.......................................... 69 Applications.................................................. 70 Main Components & Materials..................... 70 Diagram........................................................ 71 Main Dimensions.......................................... 72 Range Chart - 50 Hz - 1 Stage..................... 72 Axial Split Case Pumps (HA)..................... 105 Applications................................................ 108 Main Components & Materials................... 108 Available Models........................................ 109 Range Chart - 50Hz ................................... 109 Diagram...................................................... 110 Main Dimensions........................................ 110 Volute Pumps (HV)..................................... 127 Applications................................................ 130 Main Components & Materials................... 130 Available Models........................................ 131 Range Chart - 50 Hz................................... 131 Diagram...................................................... 132 Main Dimensions........................................ 132 AS SIMPLE AS 1-2-3 Find the right Vertical Turbine Pump (VTP) for your application using the Neptuno Pumps® VTPSelector™. Simply select your system design point, fluid characteristics and NPSH ratings and the VTPSelector™ will create a dynamic pump curve. From there you can adjust operating speeds, view/save electronic curves and data sheet reports in a PDF format, generate system curves, simulate multiple pumps/speeds, request quotes and much more. w w w . v t p s e l e c t o r. c o m Pump Perfomance Curves 50 Hz ABOUT US TESTING NEPTUNO PUMPS is a world-class manufacturer of centrifugal pumps for industrial and heavy-duty applications, delivering a comprehensive line of innovative products and engineered pumping solutions to satisfy and exceed your most demanding needs with the highest quality and lowest lead-times in the market. ISO 9906 certified state-of-the-art Testing Facility, in accordance with Hydraulic Institute Standards and ISO 13709/API 610. TECHNOLOGY •Mining Processes: Cooling Water, Thickener Overflow, Reclaim Water, Mine Seepage, Well Pumps-Process, Water Supply, Mine De-Watering, Electrolyte, Pressure Boosting and Transfer ® NEPTUNO PUMPS® counts with a highly skilled team of engineers and well-trained personnel; state-of-theart computer assisted design softwares and advanced manufacturing technologies complemented with rigorous quality control systems that guarantee high quality products and services with its emphasis on total customer satisfaction. RESEARCH & DEVELOPMENT NEPTUNO PUMPS® is continually working with business partners and most prestigious universities and institutions in the areas of mechanical, hydraulic, aerospace engineering and material science. Our active in-house R&D Department is permanently doing research for new designs and developing new technologies always focusing on maximizing efficiency and delivering innovative pumping solutions, to keep your business going strong. QUALITY, ENVIRONMENT, SAFETY & HEALTH PROGRAM APPLICATIONS • Primary Water Supply – Fresh water or Sea water • Solvent Extraction/Electro-Winning (SX/EW): Raffinate, Pregnate Leach Solution (PLS), Heap Leach, Dump Leach, Acid Water Pressure Boosting and Transfer • Dewatering – Sump, Deep Well, Ponds • Tailings – Post Processed Solutions • Seepage Water – Sump or Can/Booster • Oil & Gas Production – Onshore, Offshore and Pipeline •Marine • Pulp and Paper • Municipal Water & Wastewater • Agriculture - Irrigation The principals of Quality Management System (QMS) are the foundation of our business. That is why all our Design and Manufacturing Processes are certified under: • ISO 9001:2008 • ISO 9906:1999 • ISO 14001:2004 • OHSAS 18001:2007 And conforms or meets most recognized specifications, including: •ANSI/HI • ANSI/AWWA E101 • ISO 13709/API 610 Latest Edition. 5 Vertical Turbine Pumps (VTP) 7 Pump Perfomance Curves 50 Hz Vertical Turbine Pumps (VTP) Versatility is one of the main characteristics of NEPTUNO PUMPS® VTP: flanged bowl construction, single or multiple stage design, depending on your total head requirements, for continuous service. Heavy duty design for long term operation in industrial applications. VERTICAL PUMPS MODELS SERVICES • VERTICAL TURBINE PUMPS (VTP) • Primary Water Supply – Fresh water or Sea water • VERTICAL CAN TYPE (VC) OPERATING PARAMETERS • Capacities up to 40,000 gpm (7,500 m3/h) • Head up to 1,200 Feet (400 m) • Mining Processes: Cooling Water, Thickener Overflow, Reclaim Water, Mine Seepage, Well Pumps-Process, Water Supply, Mine DeWatering, Electrolyte, Pressure Boosting and Transfer • Frequency 50/60 Hz • Solvent Extraction/Electro-Winning (SX/EW): Raffinate, Pregnate Leach Solution (PLS), Heap Leach, Acid Water Pressure Boosting and Transfer • Temperatures to 400 °F (200°C) • Dewatering – Sump, Deep Well, Ponds • Bowls sizes from 8” to 40” • Tailings – Post Processed Solutions • Power through 2000 hp (1500 kW) • Pressures up to 590 psi (4,067 kPa) • Seepage Water – Sump or Can/Booster DESIGN FEATURES • NEPTUNO PUMPS® high-efficiency design • High-quality investment cast impellers and bowls • Maximum versatility and reliability • Low NPSH first stage construction • Oil & Gas Production – Onshore, Offshore and Pipeline •Marine • Pulp and Paper • Municipal Water & Wastewater • Agriculture - Irrigation • No priming required • Thrust balanced impellers available • Product lube or enclosed lineshaft • Minimum space requirement • Special material selection for standard or abrasive/corrosive service • Packing or mechanical seal • Independent axial-thrust bearing assembly • Multiple discharge configurations and sizes 9 Pump Perfomance Curves 50 Hz Vertical Turbine Pumps (VTP) Applications Duty Capacity Head Fluid Flexibility Heavy Medium Low High Medium Low High Medium Low Clean Process Slurry High Medium Low Vertical Turbine Pumps (VTP) Main Components & Materials Material Components Suction Bell Bowl Impeller Wear Rings Shaft Discharge Head Stuffing Box / Mechanical Seal 10 Cast Iron Carbon Steel Brass Stainless Steel Duplex Polymer Pump Perfomance Curves 50 Hz Vertical Turbine Pumps (VTP) Available Models VTP 30 VTP 50 VTP 60M VTP 80C VTP 100 VTP 110 VTP 130 VTP 135X VTP 170 VTP 170M VTP 180 VTP 180M VTP 250 VTP 290 VTP 300 VTP 300MH VTP 325 VTP 325X VTP 360 VTP 400M VTP 450 VTP 500 VTP 500M VTP 500X VTP 650 VTP 700 VTP 750 VTP 750M VTP 800 VTP 850 VTP 850M VTP 850X VTP 850XB VTP 1000 VTP 1000X VTP 1250 VTP 1300 VTP 1350 VTP 1500 VTP 1500L VTP 1500LH VTP 1500KM VTP 1800M VTP 1800X VTP 2200 VTP 2200M VTP 3000 VTP 3400 VTP 3400M VTP 6500 Vertical Turbine Pumps (VTP) Range Chart - 50 Hz - 1 Stage 11 Pump Perfomance Curves 50 Hz Vertical Turbine Pumps (VTP) Diagram VERTICAL MOTOR SOLID SHAFT STAND MOTOR WITH BEARING HOUSING DISCHARGE HEAD A CENTER LINE DISCHARGE HEAD DATUM 0 G OP MAXIMUM LIQUID LEVEL BF FLANGED COLUMN BW BD MINIMUM SUBMERGENCE BOWL ASSEMBLY L S Lbowl Lbell Lstrainer C 12 Hmin FD Pump Perfomance Curves 50 Hz Vertical Turbine Pumps (VTP) Main Dimensions Pump’s Principal Dimensions Pump Model Bowl Assembly Dimensions Discharge Head Principal Dimensions Column Diameters [In] FD [mm] BD [mm] OP ] mm] S min [mm] C [mm] H min [mm] BW min [mm] L [mm] (1st Stage) Lbowl [mm] Each add Stage Lbell [mm] Lstrainer [mm] G [mm] BF [mm] A [mm] 30 4 197 197 240 230 159 59 148 160 60 100 100 216 480 1000 50 4 181 240 288 325 167 54 136 267 187 80 113 216 480 1300 60M 4 180 180 216 266 169 54 135 180 80 100 115 216 480 1300 80C 4 245 245 294 252 334 74 184 265 185 80 260 216 480 1300 100 6 241 255 293 325 204 72 181 338 214 125 132 216 480 1300 110 4 235 250 288 339 191 71 176 226 165 61 120 216 480 1300 130 4 197 210 242 389 179 59 148 226 165 61 120 216 480 1300 135X 4 295 295 339 362 209 89 221 255 165 90 120 216 480 1300 170 6 241 255 293 417 204 72 181 338 213 125 132 216 480 1300 170M 6 241 255 293 500 204 72 181 338 213 125 132 216 480 1300 180 8 241 310 357 430 204 72 181 358 233 125 132 250 658 1300 180M 6 355 377 434 417 378 107 266 455 254 201 271 216 480 1300 250 8 240 326 375 524 212 72 180 266 169 97 140 250 658 1800 290 8 233 294 375 588 270 70 175 360 225 135 200 250 658 1300 300 10 350 355 450 506 380 105 263 483 318 165 275 295 819 1300 300MH 10 426 423 490 537 430 128 320 619 356 263 302 342 1210 1200 325 6 450 378 518 506 400 135 338 585 280 305 265 216 480 1300 325X 8 445 490 556 564 434 134 334 363 216 147 300 250 600 1300 360 8 241 326 375 667 204 72 181 358 233 125 132 250 658 1300 400M 8 350 540 621 424 405 105 263 450 265 185 300 250 658 1300 450 10 431 445 511 590 414 129 323 570 345 225 285 295 819 1300 500 10 350 361 450 656 353 105 263 528 350 178 248 295 819 1300 500M 10 550 520 633 838 465 165 413 550 285 265 300 309 814 1450 500X 10 520 520 598 607 421 156 390 471 287 184 265 295 819 1450 650 12 519 445 512 686 528 156 389 725 419 305 372 340 972 1450 700 12 615 615 707 718 502 185 461 725 450 275 317 340 972 1450 750 14 505 705 811 730 502 152 379 730 445 285 350 380 1067 1450 750M 14 615 652 750 734 567 185 461 615 395 220 382 380 1067 1450 800 12 500 407 468 750 341 150 375 541 378 163 191 320 1067 1450 850 14 445 476 547 802 384 134 334 744 474 270 250 380 1067 1450 850M 14 470 470 541 787 341 141 353 600 300 300 200 380 1000 1450 850X 16 615 615 707 718 502 185 461 725 450 275 317 340 972 1450 850XB 16 615 615 707 718 502 185 461 725 450 275 317 340 972 1450 1000 14 457 505 581 870 368 137 343 804 464 340 231 380 1067 1450 1000X 14 730 730 840 834 669 219 548 725 325 400 450 380 1000 1450 1250 12 483 570 656 967 711 145 362 786 457 329 566 340 972 1450 13 Pump Perfomance Curves 50 Hz Vertical Turbine Pumps (VTP) Main Dimensions (cont.) Pump’s Principal Dimensions Pump Model Bowl Assembly Dimensions Column Diameters [In] FD [mm] BD [mm] OP ] mm] S min [mm] C [mm] H min [mm] BW min [mm] L [mm] (1st Stage) Lbowl [mm] Each add Stage Lbell [mm] Lstrainer [mm] G [mm] BF [mm] A [mm] 1300 16 432 635 730 1060 362 130 324 729 395 334 232 420 1219 1600 1350 14 648 648 745 1067 499 194 486 757 482 275 305 356 1200 1300 1500 16 513 635 730 1047 416 154 385 693 455 238 262 420 1219 1800 1500L 16 535 535 615 1029 423 161 401 614 372 242 262 420 1219 1750 1500LH 16 535 535 615 1029 423 161 401 614 372 242 262 420 1219 1750 1500KM 14 648 570 745 967 499 194 486 734 482 252 305 353 1118 1710 1800M 16 580 580 700 1100 374 174 435 710 410 300 200 420 1300 1750 1800X 16 570 640 736 1144 571 171 428 686 425 261 400 420 1300 1750 2200 20 840 822 946 1120 632 252 630 975 610 365 380 530 1524 1850 2200M 20 840 822 946 1120 628 252 630 991 621 370 376 530 1524 1850 3000 24 915 943 1084 1266 594 275 686 1242 733 509 320 640 1830 2000 3400 24 920 878 1010 1337 746 276 690 1137 724 413 470 640 1830 2000 3400M 24 920 955 1098 1337 671 276 690 1112 724 388 395 640 1830 2000 6500 26 990 1100 1265 1663 854 297 743 1225 732 493 557 700 1980 2500 Discharge Configurations Multiple discharge configurations and sizes 14 Discharge Head Principal Dimensions Pump Perfomance Curves 50 Hz VTP 30 Vertical Turbine Pumps (VTP) 3000 rpm Curve #: 11063-140207-S1 Q [gpm] 50 75 100 125 150 175 200 225 250 152 mm 120 35 146 mm 30 130 mm 25 H [m] 105 90 75 20 60 15 45 10 30 5 15 0 0 6 8 7 5 152 mm 4 P [kW] H [ft] 25 6 146 mm 3 5 4 130 mm P [hp] 40 0 3 2 2 1 1 0 0 24 6 18 12 3 0 6 0 5 10 15 20 25 30 35 40 45 50 55 60 NPSHr [ft] NPSHr [m] 9 0 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 15 Pump Perfomance Curves 50 Hz VTP 50 Vertical Turbine Pumps (VTP) 3000 rpm Curve #: 11001-110214-S1 Q [gpm] 40 0 30 60 90 120 150 180 210 240 270 300 179 mm 120 35 η 60 168 mm 30 η 63 η 65 105 η 66 155 mm 90 η 66 η 65 η 63 η 60 20 75 60 15 H [ft] H [m] 25 45 10 30 5 15 0 0 6 7.5 179 mm 5 168 mm 6 4.5 3 3 2 1 1.5 0 0 NPSHr [m] 4 12 3 8 2 4 1 0 0 10 20 30 40 50 60 70 0 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 16 P [hp] 155 mm 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] P [kW] 4 Pump Perfomance Curves 50 Hz VTP 60M Vertical Turbine Pumps (VTP) 3000 rpm Curve #: 11086-151123-S1 Q [gpm] 35 0 40 80 120 160 200 240 280 320 105 30 146,6 mm 25 90 137 mm 75 H [m] 20 60 15 H [ft] 127 mm 45 10 30 5 15 0 0 5 6 4 3 4 137 mm 127 mm 2 P [hp] P [kW] 146,6 mm 2 1 0 0 24 6 18 12 3 0 6 0 10 20 30 40 50 60 70 80 NPSHr [ft] NPSHr [m] 9 0 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 17 Pump Perfomance Curves 50 Hz VTP 80C Vertical Turbine Pumps (VTP) 3000 rpm Curve #: 11055-130718-F1 Q [gpm] 40 0 50 100 150 200 250 300 350 400 450 500 550 164,5 mm 120 35 155 mm 30 105 145 mm 90 25 75 20 60 H [ft] H [m] 15 45 10 30 5 15 0 0 10 12 164,5 mm 9 155 mm 6 145 mm 6 4 P [hp] P [kW] 8 3 2 0 0 30 8 15 4 0 0 15 30 45 60 75 90 105 120 0 135 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 18 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 12 Pump Perfomance Curves 50 Hz VTP 100 Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11002-070713-F1 Q [gpm] 50 100 11 188 mm 10 179 mm 9 170 mm 150 200 250 300 350 400 450 500 550 650 36 η 67 η 71 32 η 74 η 76 8 28 η 76 24 η 74 7 H [m] 600 η 71 6 η 67 5 20 H [ft] 12 0 16 4 12 3 8 2 4 1 0 0 4 188 mm 3 P [kW] 4 179 mm 2.5 4.8 170 mm 3.2 2 2.4 P [hp] 3.5 1.5 1.6 1 0.8 0.5 0 0 16 4.5 12 3 8 1.5 0 4 0 15 30 45 60 75 90 105 120 135 NPSHr [ft] NPSHr [m] 6 0 150 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 19 Pump Perfomance Curves 50 Hz VTP 110 Vertical Turbine Pumps (VTP) 3000 rpm Curve #: 11003-071121-S1 Q [gpm] 0 100 200 300 400 500 600 700 150 45 193.7 mm η 70 η 73 η 75 40 135 η 76 185 mm 35 105 90 25 75 H [ft] η 70 30 H [m] 120 η 76 η 75 η 73 175 mm 20 60 15 45 10 30 5 15 0 0 20 25 193.7 mm 16 20 15 8 10 4 5 0 0 NPSHr [m] 20 60 15 45 10 30 5 15 0 0 20 40 60 80 100 120 140 160 0 180 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 20 P [hp] 175 mm 12 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] P [kW] 185 mm Pump Perfomance Curves 50 Hz VTP 130 Vertical Turbine Pumps (VTP) 3000 rpm Curve #: 11004-081121-S1 Q [gpm] 0 80 160 240 320 400 480 560 640 720 90 28 80 148 mm η 68 24 η 72 η 75 η 77 137 mm 70 η 77 η 75 20 60 η 68 16 50 η 72 H [ft] H [m] 123 mm 40 12 30 8 20 4 10 0 0 12 15 148 mm 10 123 mm 6 4 2 3 0 0 NPSHr [m] 20 60 15 45 10 30 5 15 0 P [hp] 9 6 0 20 40 60 80 100 120 140 160 NPSHr [ft] P [kW] 12 137 mm 8 0 180 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 21 Pump Perfomance Curves 50 Hz VTP 135X Vertical Turbine Pumps (VTP) 3000 rpm Curve #: 11076-141114-S1 Q [gpm] 100 200 222 mm 300 400 60 500 600 700 800 900 210 202 mm 180 50 150 180 mm 40 H [m] 30 120 H [ft] 70 0 90 20 60 10 30 0 0 40 50 30 180 mm 16 20 8 10 0 0 NPSHr [m] 15 45 10 30 5 0 15 0 25 50 75 100 125 150 175 200 0 225 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 22 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] P [kW] 202 mm 24 40 P [hp] 222 mm 32 Pump Perfomance Curves 50 Hz VTP 170 Vertical Turbine Pumps (VTP) 3000 rpm Curve #: 11005-080704-E1 Q [gpm] 150 50 300 450 600 900 1050 1200 η 72 181 mm 40 η 76 140 η 79 η 81 120 168 mm 35 180 160 194 mm 45 H [m] 750 η 81 η 79 30 100 η 76 η 72 25 20 80 H [ft] 0 60 15 40 10 20 5 0 0 30 194 mm P [kW] 30 181 mm 20 24 168 mm 15 36 18 10 P [hp] 25 12 5 6 0 0 32 9 24 6 16 3 0 8 0 25 50 75 100 125 150 175 200 225 250 275 NPSHr [ft] NPSHr [m] 12 0 300 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 23 Pump Perfomance Curves 50 Hz VTP 170M Vertical Turbine Pumps (VTP) 3000 rpm Curve #: 11006-090721-S1 Q [gpm] 0 200 45 400 600 800 1000 1200 1400 1600 1800 189.6 mm 140 40 η 69 179 mm 35 η 73 η 76 η 77 120 168 mm η 77 30 100 η 76 η 69 80 H [ft] H [m] η 73 25 20 60 15 40 10 20 5 0 0 40 189.6 mm 35 30 42 179 mm 168 mm 30 20 24 15 18 12 5 6 0 0 24 80 60 16 40 8 20 0 50 100 150 200 250 300 350 400 0 450 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 24 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 10 0 P [hp] 36 25 P [kW] 48 Pump Perfomance Curves 50 Hz VTP 180 Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11007-070717-E1 Q [gpm] 20 0 100 200 300 400 500 600 700 800 900 1000 1100 60 18 226 mm 16 54 η 66 213 mm 14 η 70 48 η 73 200 mm η 75 42 36 η 75 η 73 10 η 70 30 H [ft] H [m] 12 η 66 8 24 6 18 4 12 2 6 0 0 8 226 mm 7 213 mm 6 8 200 mm 6 4 3 P [hp] P [kW] 5 10 4 2 2 1 0 0 15 4 10 2 0 5 0 20 40 60 80 100 120 140 160 180 200 220 240 NPSHr [ft] NPSHr [m] 6 0 260 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 25 Pump Perfomance Curves 50 Hz VTP 180M Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11008-081103-S1 Q [gpm] 100 200 300 400 500 600 700 800 900 1000 1100 1200 60 236.5 mm 18 η 69 226 mm 16 η 74 216 mm η 77 54 η 80 48 14 η 80 42 H [m] 12 η 77 η 74 10 36 η 69 30 H [ft] 20 0 8 24 6 18 4 12 2 6 0 0 10 236.5 mm 226 mm 12 10 216 mm 6 8 6 4 P [hp] P [kW] 8 4 2 2 0 0 27 6 18 3 0 9 0 25 50 75 100 125 150 175 200 225 250 0 275 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 26 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 9 Pump Perfomance Curves 50 Hz VTP 250 Vertical Turbine Pumps (VTP) 3000 rpm Curve #: 11009-100625-E2 Q [gpm] 150 300 450 248 mm 80 600 750 η 74 900 1050 1200 1350 1500 1650 275 η 79 η 83 233 mm 250 η 86 70 225 60 H [m] η 86 215 mm 200 η 83 175 η 79 50 150 η 74 40 H [ft] 90 0 125 100 30 75 20 50 10 25 0 0 70 90 248 mm 233 mm 40 60 215 mm 45 30 30 NPSHr [m] 20 10 15 0 0 15 48 12 40 32 9 24 6 16 3 0 8 0 25 50 75 100 125 150 175 200 225 250 275 300 325 350 375 NPSHr [ft] P [kW] 50 75 P [hp] 60 0 400 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 27 Pump Perfomance Curves 50 Hz VTP 290 Vertical Turbine Pumps (VTP) 3000 rpm Curve #: 11010-081103-S1 Q [gpm] 60 0 200 400 600 800 1000 1200 1400 1600 1800 2000 2200 221 mm 55 180 η 70 215 mm 50 η 74 45 160 η 78 200 mm η 81 140 40 η 81 120 η 78 30 100 η 74 η 70 25 H [ft] H [m] 35 80 20 60 15 40 10 20 5 0 0 50 60 221 mm 48 30 200 mm 36 20 24 10 12 0 0 32 100 24 80 60 16 40 8 0 20 0 50 100 150 200 250 300 350 400 450 0 500 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 28 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] P [kW] 215 mm P [hp] 40 Pump Perfomance Curves 50 Hz VTP 300 Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11011-070713-F1 Q [gpm] 0 200 400 600 800 1000 1200 1400 1600 1800 2000 2200 90 28 285 mm η 76 24 80 η 82 264 mm 20 η 85 η 87 70 242 mm 60 η 87 η 82 16 50 η 76 H [ft] H [m] η 85 40 12 30 8 20 4 10 0 0 25 285 mm 20 P [kW] 20 242 mm 15 10 P [hp] 25 264 mm 15 30 10 5 5 0 28 7.5 21 5 14 2.5 0 7 0 50 100 150 200 250 300 350 400 450 NPSHr [ft] NPSHr [m] 0 0 500 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 29 Pump Perfomance Curves 50 Hz VTP 300MH Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11090-160414-E1 Q [gpm] 300 600 900 1200 1500 1800 160 50 338,5 mm 45 140 318 mm 40 297 mm 35 H [m] 2100 120 100 30 80 25 20 H [ft] 55 0 60 15 40 10 20 5 0 0 70 90 60 338,5 mm 75 318 mm 60 40 297 mm 30 45 P [hp] P [kW] 50 30 20 10 15 0 0 24 6 18 12 3 0 6 0 75 150 225 300 375 450 525 0 600 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 30 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 9 Pump Perfomance Curves 50 Hz VTP 325 Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11012-100701-E1 Q [gpm] 28 0 250 500 750 1000 1250 1500 1750 2000 2250 90 303 mm η 64 24 η 67 η 70 η 72 75 277 mm 20 η 72 η 70 250 mm 60 H [m] η 67 45 η 64 H [ft] 16 12 30 8 15 4 0 0 40 50 303 mm 40 277 mm 30 20 250 mm P [hp] P [kW] 30 20 10 10 0 0 45 10 30 5 0 15 0 50 100 150 200 250 300 350 400 450 500 NPSHr [ft] NPSHr [m] 15 0 550 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 31 Pump Perfomance Curves 50 Hz VTP 325X Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11070-140513-F1 Q [gpm] 250 500 750 1000 1250 1500 1750 2000 225 65 420 mm 60 55 200 385 mm 50 175 45 40 H [m] 150 350 mm 125 35 30 H [ft] 70 0 100 25 75 20 15 50 10 25 5 0 0 70 90 420 mm 60 75 385 mm 350 mm 30 45 30 20 10 15 0 0 NPSHr [m] 6 18 4 12 2 0 6 0 50 100 150 200 250 300 350 400 450 0 500 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 32 P [hp] 60 40 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] P [kW] 50 Pump Perfomance Curves 50 Hz VTP 360 Vertical Turbine Pumps (VTP) 3000 rpm Curve #: 11013-080614-E1 Q [gpm] 80 0 300 600 900 1200 1500 1800 2100 2400 250 235 mm 225 η 70 218 mm 60 η 74 200 η 78 η 81 175 200 mm 50 H [m] η 81 150 η 78 40 η 74 125 H [ft] 70 η 70 100 30 75 20 50 10 25 0 0 70 90 235 mm 60 75 50 218 mm 45 30 30 20 10 15 0 0 NPSHr [m] 15 45 10 30 5 0 P [hp] 200 mm 15 0 50 100 150 200 250 300 350 400 450 500 NPSHr [ft] P [kW] 60 40 0 550 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 33 Pump Perfomance Curves 50 Hz VTP 400M Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11074-140708-S1 Q [gpm] 55 300 600 900 1200 405 mm 50 1500 1800 2400 2700 160 360 mm 140 40 120 35 H [m] 3000 180 382 mm 45 2100 30 100 25 80 20 H [ft] 60 0 60 15 40 10 20 5 0 0 75 405 mm 90 382 mm 45 75 360 mm 60 45 30 P [hp] P [kW] 60 30 15 15 0 0 30 8 20 4 0 10 0 50 100 150 200 250 300 350 400 450 500 550 600 650 0 700 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 34 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 12 Pump Perfomance Curves 50 Hz VTP 450 Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11014-081103-S1 Q [gpm] 250 500 750 1000 1250 1500 1750 2000 2250 2500 283 mm 21 70 267 mm η 70 18 60 η 74 η 79 250 mm η 81 H [m] η 81 η 79 12 40 η 74 9 30 6 20 3 10 0 0 30 40 35 25 283 mm 20 P [kW] H [ft] 50 15 25 267 mm 15 30 20 250 mm P [hp] 24 0 15 10 10 5 5 0 0 27 6 18 3 0 9 0 50 100 150 200 250 300 350 400 450 500 550 NPSHr [ft] NPSHr [m] 9 0 600 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 35 Pump Perfomance Curves 50 Hz VTP 500 Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11015-080802-E2 Q [gpm] 300 600 900 1200 1500 1800 2100 2400 2700 3000 96 27 88 80 24 289 mm 72 21 268 mm 64 η 66 H [m] 18 η 72 245 mm 56 η 76 η 79 15 48 H [ft] 30 0 40 12 η 79 32 η 76 9 η 72 η 66 6 24 16 3 8 0 0 25 30 289 mm 15 268 mm 20 245 mm 10 25 15 P [hp] P [kW] 20 10 5 5 0 0 30 8 25 20 6 15 4 10 2 0 5 0 50 100 150 200 250 300 350 400 450 500 550 600 650 0 700 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 36 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 10 Pump Perfomance Curves 50 Hz VTP 500M Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11085-151120-S1 Q [gpm] 50 0 500 1000 1500 2000 2500 3000 3500 160 45 140 120 360 mm 330 mm 30 100 25 20 80 H [ft] 35 H [m] 384,4 mm 40 60 15 40 10 20 5 0 0 70 90 384,4 mm 60 75 360 mm 50 330 mm 45 30 P [hp] P [kW] 60 40 30 20 10 15 0 0 30 8 20 4 0 10 0 100 200 300 400 500 600 700 NPSHr [ft] NPSHr [m] 12 0 800 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 37 Pump Perfomance Curves 50 Hz VTP 500X Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11016-121116-E1 Q [gpm] 80 0 350 700 1050 1400 1750 2100 2450 2800 250 70 427 mm 225 200 405 mm 60 H [m] 175 40 150 125 H [ft] 380 mm 50 100 30 75 20 50 10 25 0 0 105 140 405 mm P [kW] 75 380 mm 60 120 100 80 45 60 30 40 15 20 0 0 P [hp] 427 mm 90 30 8 15 4 0 0 60 120 180 240 300 360 420 480 540 0 600 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 38 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 12 Pump Perfomance Curves 50 Hz VTP 650 Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11017-070713-E1 Q [gpm] 50 0 500 1000 1500 2000 2500 3000 3500 4000 160 367 mm 45 140 40 345 mm 320 mm 120 η 72 η 75 η 77 η 77 H [m] 30 100 η 75 25 η 72 η 68 80 H [ft] η 68 35 20 60 15 40 10 20 5 0 0 100 125 367 mm 100 60 75 320 mm 40 50 20 25 0 0 10 32 7.5 24 5 16 2.5 0 P [hp] 345 mm 8 0 100 200 300 400 500 600 700 800 900 NPSHr [ft] NPSHr [m] P [kW] 80 0 1000 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 39 Pump Perfomance Curves 50 Hz VTP 700 Vertical Turbine Pumps (VTP) 1000 rpm Curve #: 11018-070713-E1 Q [gpm] 0 250 500 750 1000 1250 1500 1750 2000 2250 2500 2750 140 40 525 mm η 68 35 η 71 η 74 490 mm 120 η 76 η 76 30 450 mm 100 η 74 H [m] 80 20 H [ft] η 71 25 60 15 40 10 20 5 0 0 90 525 mm 490 mm 60 40 450 mm 45 30 30 20 NPSHr [m] 75 10 15 0 0 6 20 15 4 10 2 0 5 0 50 100 150 200 250 300 350 400 450 500 550 600 0 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 40 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] P [kW] 50 P [hp] 60 Pump Perfomance Curves 50 Hz VTP 700 Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11018-070713-E1 Q [gpm] 500 1000 1500 2000 2500 3000 3500 4000 300 525 mm 90 η 68 80 η 71 490 mm η 74 270 η 76 70 240 η 76 450 mm η 74 H [m] 60 210 η 71 180 50 150 H [ft] 100 0 40 120 30 90 20 60 10 30 0 0 240 300 525 mm 200 250 490 mm 450 mm 150 80 100 40 50 0 0 NPSHr [m] 15 45 10 30 5 0 P [hp] 120 200 15 0 100 200 300 400 500 600 700 800 900 NPSHr [ft] P [kW] 160 0 1000 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 41 Pump Perfomance Curves 50 Hz VTP 750 Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11019-090112-S1 Q [gpm] 35 0 500 1000 1500 2000 2500 3000 3500 4000 4500 105 30 317 mm 90 300 mm 25 η 77 η 79 H [m] 20 75 η 80 η 80 η 79 15 60 η 77 η 73 10 H [ft] η 73 283 mm 45 30 5 15 0 0 60 75 317 mm P [kW] 60 300 mm 40 283 mm 45 30 P [hp] 50 30 20 10 15 0 0 45 12 30 8 15 4 0 0 100 200 300 400 500 600 700 800 900 1000 0 1100 Q [m/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 42 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 16 Pump Perfomance Curves 50 Hz VTP 750M Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11020-081103-S1 Q [gpm] 80 0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 240 70 464 mm η 72 60 440 mm η 80 η 82 180 414 mm 50 η 82 150 η 80 40 η 76 120 30 H [ft] H [m] 210 η 76 90 20 60 10 30 0 0 200 250 464 mm 160 200 120 150 414 mm 80 P [hp] P [kW] 440 mm 100 40 50 0 0 45 12 30 6 0 15 0 100 200 300 400 500 600 700 800 900 1000 1100 1200 NPSHr [ft] NPSHr [m] 18 0 1300 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 43 Pump Perfomance Curves 50 Hz VTP 800 Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11043-120227-S1 Q [gpm] 70 0 700 1400 2100 2800 3500 4200 4900 225 445 mm 60 200 423 mm 400 mm 50 175 150 40 H [m] 125 30 H [ft] 100 75 20 50 10 25 0 0 140 180 445 mm P [kW] 100 423 mm 400 mm 80 150 120 90 60 P [hp] 120 60 40 20 30 0 0 30 8 20 4 0 10 0 150 300 450 600 750 900 1050 0 1200 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 44 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 12 Pump Perfomance Curves 50 Hz VTP 850 Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11021-070713-E1 Q [gpm] 32 0 600 1200 1800 2400 3000 3600 4200 4800 5400 100 28 90 326 mm 80 24 300 mm H [m] 275 mm 70 η 73 η 75 η 77 η 77 η 75 η 73 16 60 η 70 50 H [ft] η 70 20 40 12 30 8 20 4 10 0 0 100 125 60 300 mm 75 275 mm 40 100 50 20 25 0 0 12 40 30 8 20 4 0 10 0 150 300 450 600 750 900 1050 P [hp] 326 mm 1200 NPSHr [ft] NPSHr [m] P [kW] 80 0 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 45 Pump Perfomance Curves 50 Hz VTP 850M Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11071-140616-S1 Q [gpm] 800 1600 2400 3200 4000 4800 5600 350 mm 120 36 32 320 mm 105 28 H [m] 24 90 285 mm 75 20 16 60 H [ft] 40 0 45 12 30 8 15 4 0 0 80 105 70 350 mm 90 75 50 320 mm 60 40 45 285 mm 30 P [hp] P [kW] 60 30 20 10 15 0 0 30 8 20 4 0 10 0 175 350 525 700 875 1050 1225 0 1400 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 46 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 12 Pump Perfomance Curves 50 Hz VTP 850X Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11022-101104-E1 Q [gpm] 1400 2100 2800 3500 4200 4900 5600 514 mm 100 90 482 mm 80 450 mm 330 300 H [m] 270 240 70 60 210 50 180 150 40 120 30 90 20 60 10 30 0 0 240 280 514 mm 200 482 mm 160 P [kW] 360 H [ft] 700 450 mm 240 200 160 120 120 80 P [hp] 110 0 80 40 40 0 0 24 6 18 12 3 0 6 0 150 300 450 600 750 Q [m³/h] 900 1050 1200 NPSHr [ft] NPSHr [m] 9 0 1350 Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 47 Pump Perfomance Curves 50 Hz VTP 850XB Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11047-130213-E1 Q [gpm] 500 1000 1500 515 mm 2000 90 480 mm 80 2500 3000 3500 4500 5000 300 270 450 mm 70 240 210 60 180 50 40 120 30 90 20 60 10 30 0 0 210 280 515 mm 180 150 P [kW] 150 H [ft] H [m] 4000 200 480 mm 120 240 160 450 mm 90 120 60 80 30 40 0 0 P [hp] 100 0 30 8 20 4 0 10 0 150 300 450 600 750 900 1050 0 1200 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 48 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 12 Pump Perfomance Curves 50 Hz VTP 1000 Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11024-080704-S1 Q [gpm] 800 1600 2400 397 mm 40 3200 η 70 η 73 4000 η 76 6400 7200 78 120 355 mm 32 5600 135 375 mm 36 4800 78 105 η 76 28 90 H [m] η 73 24 η 70 75 20 H [ft] 44 0 60 16 45 12 30 8 4 15 0 0 150 120 355 mm 75 90 50 P [hp] 150 375 mm 100 P [kW] 180 397 mm 125 60 25 30 0 0 18 60 12 40 6 20 0 0 150 300 450 600 750 900 1050 1200 1350 1500 NPSHr [ft] NPSHr [m] 24 0 1650 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 49 Pump Perfomance Curves 50 Hz VTP 1000X Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11053-131114-E1 Q [gpm] 110 0 1000 2000 3000 4000 5000 6000 7000 526 mm 100 90 360 320 490 mm 280 80 450 mm 240 60 200 50 40 160 H [ft] H [m] 70 120 30 80 20 40 10 0 0 280 526 mm 240 490 mm 300 250 160 450 mm 200 120 150 80 100 40 50 0 0 P [hp] P [kW] 200 350 30 8 15 4 0 0 200 400 600 800 1000 1200 1400 0 1600 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 50 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 12 Pump Perfomance Curves 50 Hz VTP 1250 Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11025-080520-S1 Q [gpm] 50 0 800 1600 2400 3200 4000 4800 5600 6400 7200 8000 160 45 140 381 mm 360 mm η 68 35 340 mm 120 η 72 η 76 H [m] 100 η 78 30 η 78 25 80 η 76 H [ft] 40 η 72 20 η 68 60 15 40 10 20 5 0 0 150 180 125 381 mm 150 120 340 mm 75 90 NPSHr [m] 50 60 25 30 0 0 15 45 10 30 5 15 0 P [hp] 360 mm 0 150 300 450 600 750 900 1050 1200 1350 1500 1650 1800 NPSHr [ft] P [kW] 100 0 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 51 Pump Perfomance Curves 50 Hz VTP 1300 Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11026-081111-S1 Q [gpm] 1000 2000 3000 4000 5000 6000 7000 8000 210 470 mm 60 η 72 448 mm η 76 η 80 424 mm 50 180 η 82 150 η 82 η 80 40 H [m] η 76 120 η 72 H [ft] 70 0 30 90 20 60 10 30 0 0 250 470 mm 448 mm 250 424 mm 150 300 200 150 100 P [hp] P [kW] 200 100 50 0 0 24 80 60 16 40 8 0 20 0 200 400 600 800 1000 1200 1400 1600 1800 0 2000 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 52 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 50 Pump Perfomance Curves 50 Hz VTP 1350 Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11087-160202-F1 Q [gpm] 100 0 800 1600 2400 3200 4000 4800 5600 6400 7200 8000 8800 320 90 463 mm 70 430 mm 60 400 mm 240 200 50 160 40 H [ft] H [m] 280 80 120 30 80 20 40 10 0 0 250 320 P [kW] 430 mm 150 280 240 200 400 mm 160 100 P [hp] 463 mm 200 120 80 50 40 0 0 30 8 20 4 0 10 0 250 500 750 1000 1250 1500 1750 NPSHr [ft] NPSHr [m] 12 0 2000 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 53 Pump Perfomance Curves 50 Hz VTP 1500 Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11027-081205-E1 Q [gpm] 80 0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 250 464 mm 70 225 437 mm η 76 60 η 80 200 η 82 η 84 410 mm 175 50 H [m] η 82 40 125 η 80 η 76 30 H [ft] 150 η 84 100 75 20 50 10 25 0 0 300 464 mm P [kW] 300 437 mm 200 360 240 410 mm 150 180 100 P [hp] 250 120 50 60 0 0 60 14 40 7 0 20 0 250 500 750 1000 1250 1500 1750 2000 2250 0 2500 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 54 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 21 Pump Perfomance Curves 50 Hz VTP 1500KM Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11089-160405-F1 Q [gpm] 70 1000 2000 3000 4000 5000 6000 7000 9000 10000 320 435 mm 280 60 400 mm 240 50 H [m] 8000 463 mm 200 40 160 30 120 20 80 10 40 0 0 300 H [ft] 80 0 400 463 mm 250 320 435 mm 160 100 80 50 0 0 NPSHr [m] 18 60 45 12 30 6 0 P [hp] 240 400 mm 150 15 0 300 600 900 1200 1500 1800 2100 NPSHr [ft] P [kW] 200 0 2400 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 55 Pump Perfomance Curves 50 Hz VTP 1500L Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11028-080704-S1 Q [gpm] 55 0 1000 2000 3000 4000 5000 6000 7000 8000 180 165 50 394 mm 150 45 η 69 372 mm 40 η 73 350 mm 35 135 η 76 120 η 78 90 η 76 25 η 73 75 η 69 20 60 15 45 10 30 5 15 0 0 180 240 150 200 374 mm 372 mm 120 P [kW] H [ft] η 78 160 350 mm 90 120 60 80 30 40 0 0 P [hp] H [m] 105 30 18 60 12 40 6 20 0 0 200 400 600 800 1000 1200 1400 1600 1800 0 2000 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 56 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 24 Pump Perfomance Curves 50 Hz VTP 1500LH Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11029-080830-S1 Q [gpm] 60 0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 180 50 394 mm 150 40 η 66 355 mm η 72 η 76 η 80 120 H [m] η 80 η 76 30 90 η 72 H [ft] 377 mm η 66 20 60 10 30 0 0 250 300 394 mm 377 mm 150 250 200 355 mm 150 100 P [hp] P [kW] 200 100 50 50 0 0 40 10 30 20 5 0 10 0 200 400 600 800 1000 1200 1400 1600 1800 2000 2200 NPSHr [ft] NPSHr [m] 15 0 2400 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 57 Pump Perfomance Curves 50 Hz VTP 1800M Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11067-140320-S1 Q [gpm] 50 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 180 416 mm 45 160 395 mm 40 140 375 mm 120 H [m] 35 30 100 25 20 80 H [ft] 55 0 60 15 40 10 20 5 0 0 240 300 416 mm 160 P [kW] 250 395 mm 200 375 mm 120 150 80 100 40 50 0 0 P [hp] 200 30 8 15 4 0 0 300 600 900 1200 1500 1800 2100 0 2400 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 58 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 12 Pump Perfomance Curves 50 Hz VTP 1800X Vertical Turbine Pumps (VTP) 1500 rpm Curve #: 11072-140620-S1 Q [gpm] 80 0 1500 3000 4500 6000 7500 9000 10500 250 491,5 mm 70 225 200 410 mm 50 H [m] 175 150 40 125 H [ft] 450 mm 60 100 30 75 20 50 10 25 0 0 491,5 mm 400 450 mm 225 300 410 mm 150 200 75 100 0 0 NPSHr [m] 30 90 20 60 10 0 30 0 300 600 900 1200 1500 1800 2100 2400 NPSHr [ft] P [kW] 300 500 P [hp] 375 0 2700 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 59 Pump Perfomance Curves 50 Hz VTP 2200 Vertical Turbine Pumps (VTP) 1000 rpm Curve #: 11030-080728-S1 Q [gpm] 40 0 1500 3000 4500 6000 7500 9000 10500 12000 120 35 542 mm 30 508 mm 105 η 72 η 75 25 90 η 78 η 80 470 mm 20 η 78 60 H [ft] H [m] 75 η 80 η 75 15 η 72 10 30 5 15 0 0 180 240 542 mm 120 160 508 mm 470 mm 90 200 120 60 80 30 40 0 0 P [hp] 150 P [kW] 45 45 12 30 8 15 4 0 0 300 600 900 1200 1500 1800 2100 2400 2700 0 3000 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 60 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 16 Pump Perfomance Curves 50 Hz VTP 2200M Vertical Turbine Pumps (VTP) 1000 rpm Curve #: 11032-080723-S1 Q [gpm] 0 1500 3000 4500 6000 7500 9000 10500 12000 13500 15000 50 160 592 mm 45 140 565 mm η 78 530 mm η 81 35 η 84 120 η 86 H [m] η 86 30 η 84 100 η 81 η 78 25 80 20 H [ft] 40 60 15 40 10 20 5 0 0 300 400 592 mm 200 P [kW] 350 565 mm 300 530 mm 250 150 200 P [hp] 250 150 100 100 50 50 0 0 60 15 45 10 30 5 15 0 0 400 800 1200 1600 2000 2400 2800 3200 NPSHr [ft] NPSHr [m] 20 0 3600 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 61 Pump Perfomance Curves 50 Hz VTP 3000 Vertical Turbine Pumps (VTP) 1000 rpm Curve #: 11033-080813-S1 Q [gpm] 0 2500 5000 7500 10000 12500 15000 17500 20000 160 45 140 600 mm 35 560 mm 30 η 76 η 80 120 η 83 η 85 100 520 mm H [m] η 85 25 η 83 80 η 80 η 76 H [ft] 40 20 60 15 40 10 20 5 0 0 500 600 400 500 300 400 560 mm 300 520 mm 200 P [hp] P [kW] 600 mm 200 100 0 0 16 50 12 40 30 8 20 4 0 10 0 500 1000 1500 2000 2500 3000 3500 4000 4500 0 5000 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 62 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 100 Pump Perfomance Curves 50 Hz VTP 3400 Vertical Turbine Pumps (VTP) 1000 rpm Curve #: 11034-080723-S1 Q [gpm] 0 2000 4000 6000 8000 10000 12000 14000 16000 18000 240 70 210 60 691 mm 180 50 η 72 η 76 H [m] 622 mm η 78 150 η 80 40 η 80 120 H [ft] 657 mm η 78 30 η 76 90 η 72 20 60 10 30 0 0 500 600 691 mm 622 mm 300 200 150 100 0 0 NPSHr [m] 20 60 15 45 10 30 5 15 0 P [hp] 450 657 mm 300 0 400 800 1200 1600 2000 2400 2800 3200 3600 4000 NPSHr [ft] P [kW] 400 0 4400 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 63 Pump Perfomance Curves 50 Hz VTP 3400M Vertical Turbine Pumps (VTP) 1000 rpm Curve #: 11035-080702-S1 Q [gpm] 2000 4000 6000 8000 10000 12000 14000 16000 18000 20000 300 90 770 mm 270 80 735 mm 70 240 700 mm η 76 η 80 60 H [m] 22000 η 83 210 η 85 180 50 η 85 150 η 83 40 η 80 η 76 30 H [ft] 100 0 120 90 20 60 10 30 0 0 600 750 770 mm 600 700 mm 450 300 300 200 150 100 0 0 NPSHr [m] 20 60 15 45 10 30 5 15 0 0 500 1000 1500 2000 2500 3000 3500 4000 4500 0 5000 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 64 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] P [kW] 735 mm 400 P [hp] 500 Pump Perfomance Curves 50 Hz VTP 6500 Vertical Turbine Pumps (VTP) 750 rpm Curve #: 11036-090310-S2 Q [gpm] 80 0 4000 8000 12000 16000 20000 24000 28000 32000 36000 240 70 870 mm 60 830 mm 180 η 83 η 86 150 η 88 40 η 88 η 86 30 120 H [ft] η 78 780 mm 50 H [m] 210 η 83 η 78 90 20 60 10 30 0 0 1000 1200 800 870 mm 1000 800 780 mm 600 400 P [hp] P [kW] 830 mm 600 400 200 200 0 0 45 12 30 8 15 4 0 0 1000 2000 3000 4000 5000 6000 7000 8000 NPSHr [ft] NPSHr [m] 16 0 9000 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 65 Vertical Submersible Pumps (VS) 67 Pump Perfomance Curves 50 Hz Vertical Submersible Pumps (VS) Equipment is completely submersed, ideal for deep well applications where lineshaft pumps can not be used. Flanged bowl construction, single or multiple stage design, depending on your total head requirements, for continuous service. Heavy duty design for long term operation in industrial applications. OPERATIN PARAMETERS SERVICES • Capacities up to 6,000 gpm (1,150 m3/h) • Primary Water Supply – Fresh water or Sea water • Head up to 2,130 Feet (650 m) • Power through 1000 hp (750 kW) • Pressures up to 960 psi (6,620 kPa) • Frequency 50/60 Hz • Dewatering – Sump, Deep Well, Ponds • Oil & Gas Production – Onshore, Offshore and Pipeline • Agriculture – Irrigation • Bowls sizes from 8” to 20” DESIGN FEATURES • NEPTUNO PUMPS® high-efficiency design • Ideal for deep-well applications • High-quality investment cast impellers and bowls • Thrust balanced impellers available • Maximum versatility and reliability • Minimum space requirement • Discharge casing with incorporated nonreturn valve • Special material selection for standard or abrasive/corrosive service Vertical Submersible Pumps (VS) Available Models VS 50 VS 100 VS 110 VS 130 VS 170 VS 170M VS 180 VS 180M VS 250 VS 290 VS 300 VS 325 VS 360 VS 450 VS 500 VS 650 VS 850 69 Pump Perfomance Curves 50 Hz Vertical Submersible Pumps (VS) Applications Duty Capacity Head Fluid Flexibility Heavy Medium Low High Medium Low High Medium Low Clean Process Slurry High Medium Low Vertical Submersible Pumps (VS) Main Components & Materials Material Components Bowl Impeller Wear Rings Shaft Check Valve 70 Cast Iron Carbon Steel Brass Stainless Steel Duplex Polymer Pump Perfomance Curves 50 Hz Vertical Submersible Pumps (VS) Diagram RISER PIPE R PD CHECK VALVE (OPTIONAL) LV BD Lbowl L Lbell CASING DIAMETER CR MOTOR LENGTH 71 Pump Perfomance Curves 50 Hz Vertical Submersible Pumps (VS) Main Dimensions Pump's Principal Dimensions Bowl Assembly Dimensions RPD [in] BD [mm] CRmin ] mm] 50 4 240 290 218 550 187 363 100 6 255 305 297 338 214 125 110 4 250 300 241 440 165 275 130 4 210 260 194 440 165 275 170 6 255 305 297 338 213 125 170M 6 255 305 297 338 213 125 180 8 310 360 294 730 233 497 180M 6 377 427 315 704 254 450 250 8 326 376 292 599 169 430 290 8 294 344 292 655 225 430 300 10 355 405 385 968 318 650 325 6 378 428 385 930 280 650 360 8 326 376 294 730 233 497 450 10 445 495 400 1030 345 685 500 10 361 411 410 930 350 580 650 12 523 573 485 1269 419 850 850 14 476 526 500 1224 474 750 Pump Model LV [mm] L [mm] (1st Stage) Lbowl [mm] Each add Stage Lbell [mm] Vertical Submersible Pumps (VS) Range Chart - 50 Hz - 1 Stage 70 60 50 H [m] 40 30 20 10 0 0 500 200 300 400 500 600 700 Q [m /h] 3 72 800 900 1000 1100 1200 1300 Pump Perfomance Curves 50 Hz VS 50 Vertical Submersible Pumps (VS) 3000 rpm Curve #: 11001-110214-S1 Q [gpm] 40 0 30 60 90 120 150 180 210 240 270 300 179 mm 120 35 η 60 168 mm 30 η 63 η 65 105 η 66 155 mm 90 η 66 η 65 η 63 η 60 20 75 60 15 H [ft] H [m] 25 45 10 30 5 15 0 0 6 7.5 179 mm 5 168 mm 6 4.5 3 3 2 1 1.5 0 0 NPSHr [m] 4 12 3 8 2 4 1 0 P [hp] 155 mm 0 10 20 30 40 50 60 70 NPSHr [ft] P [kW] 4 0 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 73 Pump Perfomance Curves 50 Hz VS 100 Vertical Submersible Pumps (VS) 1500 rpm Curve #: 11002-070713-F1 Q [gpm] 50 100 11 188 mm 10 179 mm 9 170 mm 150 200 250 300 350 400 450 500 550 650 36 η 67 η 71 32 η 74 η 76 8 28 η 76 24 η 74 7 H [m] 600 η 71 6 η 67 5 20 H [ft] 12 0 16 4 12 3 8 2 4 1 0 0 4 188 mm 3 P [kW] 4 179 mm 2.5 4.8 170 mm 3.2 2 2.4 P [hp] 3.5 1.5 1.6 1 0.8 0.5 0 0 16 4.5 12 3 8 1.5 0 4 0 15 30 45 60 75 90 105 120 135 0 150 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 74 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 6 Pump Perfomance Curves 50 Hz VS 110 Vertical Submersible Pumps (VS) 3000 rpm Curve #: 11003-071121-S1 Q [gpm] 0 100 200 300 400 500 600 700 150 45 193.7 mm η 70 η 73 η 75 40 135 η 76 185 mm 35 105 90 25 75 H [ft] η 70 30 H [m] 120 η 76 η 75 η 73 175 mm 20 60 15 45 10 30 5 15 0 0 20 25 193.7 mm 16 20 15 8 10 4 5 0 0 NPSHr [m] 20 60 15 45 10 30 5 15 0 P [hp] 175 mm 12 0 20 40 60 80 100 120 140 160 NPSHr [ft] P [kW] 185 mm 0 180 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 75 Pump Perfomance Curves 50 Hz VS 130 Vertical Submersible Pumps (VS) 3000 rpm Curve #: 11004-081121-S1 Q [gpm] 0 80 160 240 320 400 480 560 640 720 90 28 80 148 mm η 68 24 η 72 η 75 η 77 137 mm 70 η 77 η 75 20 60 η 68 16 50 η 72 H [ft] H [m] 123 mm 40 12 30 8 20 4 10 0 0 12 15 148 mm 10 123 mm 6 4 2 3 0 0 NPSHr [m] 20 60 15 45 10 30 5 15 0 0 20 40 60 80 100 120 140 160 0 180 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 76 P [hp] 9 6 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] P [kW] 12 137 mm 8 Pump Perfomance Curves 50 Hz VS 170 Vertical Submersible Pumps (VS) 3000 rpm Curve #: 11005-080704-E1 Q [gpm] 150 50 300 450 600 900 1050 1200 η 72 181 mm 40 η 76 140 η 79 η 81 120 168 mm 35 180 160 194 mm 45 H [m] 750 η 81 η 79 30 100 η 76 η 72 25 20 80 H [ft] 0 60 15 40 10 20 5 0 0 30 194 mm P [kW] 30 181 mm 20 24 168 mm 15 36 18 10 P [hp] 25 12 5 6 0 0 32 9 24 6 16 3 0 8 0 25 50 75 100 125 150 175 200 225 250 275 NPSHr [ft] NPSHr [m] 12 0 300 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 77 Pump Perfomance Curves 50 Hz VS 170M Vertical Submersible Pumps (VS) 3000 rpm Curve #: 11005-080704-E1 Q [gpm] 0 200 45 400 600 800 1000 1200 1400 1600 1800 189.6 mm 140 40 η 69 179 mm 35 η 73 η 76 η 77 120 168 mm η 77 30 100 η 76 η 69 80 H [ft] H [m] η 73 25 20 60 15 40 10 20 5 0 0 40 189.6 mm 35 30 42 179 mm 168 mm 30 20 24 15 18 12 5 6 0 0 24 80 60 16 40 8 20 0 50 100 150 200 250 300 350 400 0 450 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 78 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 10 0 P [hp] 36 25 P [kW] 48 Pump Perfomance Curves 50 Hz VS 180 Vertical Submersible Pumps (VS) 1500 rpm Curve #: 11007-070717-E1 Q [gpm] 20 0 100 200 300 400 500 600 700 800 900 1000 1100 60 18 226 mm 16 54 η 66 213 mm 14 η 70 48 η 73 200 mm η 75 42 36 η 75 η 73 10 η 70 30 H [ft] H [m] 12 η 66 8 24 6 18 4 12 2 6 0 0 8 226 mm 7 213 mm 6 8 200 mm 6 4 3 P [hp] P [kW] 5 10 4 2 2 1 0 0 15 4 10 2 0 5 0 20 40 60 80 100 120 140 160 180 200 220 240 NPSHr [ft] NPSHr [m] 6 0 260 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 79 Pump Perfomance Curves 50 Hz VS 180M Vertical Submersible Pumps (VS) 1500 rpm Curve #: 11008-081103-S1 Q [gpm] 100 200 300 400 500 600 700 800 900 1000 1100 1200 60 236.5 mm 18 η 69 226 mm 16 η 74 216 mm η 77 54 η 80 48 14 η 80 42 H [m] 12 η 77 η 74 10 36 η 69 30 H [ft] 20 0 8 24 6 18 4 12 2 6 0 0 10 236.5 mm 226 mm 12 10 216 mm 6 8 6 4 P [hp] P [kW] 8 4 2 2 0 0 27 6 18 3 0 9 0 25 50 75 100 125 150 175 200 225 250 0 275 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 80 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 9 Pump Perfomance Curves 50 Hz VS 250 Vertical Submersible Pumps (VS) 3000 rpm Curve #: 11009-100625-E2 Q [gpm] 150 300 450 248 mm 80 600 750 η 74 900 1050 1200 1350 1500 1650 275 η 79 η 83 250 η 86 233 mm 70 225 60 H [m] η 86 215 mm 200 η 83 175 η 79 50 150 η 74 40 H [ft] 90 0 125 100 30 75 20 50 10 25 0 0 70 90 248 mm 233 mm 40 60 215 mm 45 30 30 NPSHr [m] 20 10 15 0 0 15 48 12 40 32 9 24 6 16 3 0 8 0 25 50 75 100 125 150 175 200 225 250 275 300 325 350 375 NPSHr [ft] P [kW] 50 75 P [hp] 60 0 400 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 81 Pump Perfomance Curves 50 Hz VS 290 Vertical Submersible Pumps (VS) 3000 rpm Curve #: 11010-081103-S1 Q [gpm] 60 0 200 400 600 800 1000 1200 1400 1600 1800 2000 2200 221 mm 55 180 η 70 215 mm 50 η 74 45 160 η 78 200 mm η 81 140 40 η 81 120 η 78 30 100 η 74 η 70 25 H [ft] H [m] 35 80 20 60 15 40 10 20 5 0 0 50 60 221 mm 48 30 200 mm 36 20 24 10 12 0 0 32 100 24 80 60 16 40 8 0 20 0 50 100 150 200 250 300 350 400 450 0 500 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 82 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] P [kW] 215 mm P [hp] 40 Pump Perfomance Curves 50 Hz VS 300 Vertical Submersible Pumps (VS) 1500 rpm Curve #: 11011-070713-F1 Q [gpm] 0 200 400 600 800 1000 1200 1400 1600 1800 2000 2200 90 28 285 mm η 76 24 80 η 82 264 mm 20 η 85 η 87 70 242 mm 60 η 87 η 82 16 50 η 76 H [ft] H [m] η 85 40 12 30 8 20 4 10 0 0 25 285 mm 20 P [kW] 20 242 mm 15 10 P [hp] 25 264 mm 15 30 10 5 5 0 28 7.5 21 5 14 2.5 0 7 0 50 100 150 200 250 300 350 400 450 NPSHr [ft] NPSHr [m] 0 0 500 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 83 Pump Perfomance Curves 50 Hz VS 325 Vertical Submersible Pumps (VS) 1500 rpm Curve #: 11012-100701-E1 Q [gpm] 28 0 250 500 750 1000 1250 1500 1750 2000 2250 90 303 mm η 64 24 η 67 η 70 η 72 75 277 mm 20 η 72 η 70 250 mm 60 H [m] η 67 45 η 64 H [ft] 16 12 30 8 15 4 0 0 40 50 303 mm 40 277 mm 30 20 250 mm P [hp] P [kW] 30 20 10 10 0 0 45 10 30 5 0 15 0 50 100 150 200 250 300 350 400 450 500 0 550 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 84 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 15 Pump Perfomance Curves 50 Hz VS 360 Vertical Submersible Pumps (VS) 3000 rpm Curve #: 11013-080614-E1 Q [gpm] 80 0 300 600 900 1200 1500 1800 2100 2400 250 235 mm 225 η 70 218 mm 60 η 74 200 η 78 η 81 175 200 mm 50 H [m] η 81 150 η 78 40 η 74 125 H [ft] 70 η 70 100 30 75 20 50 10 25 0 0 70 90 235 mm 60 75 50 218 mm 45 30 30 20 10 15 0 0 NPSHr [m] 15 45 10 30 5 0 P [hp] 200 mm 15 0 50 100 150 200 250 300 350 400 450 500 NPSHr [ft] P [kW] 60 40 0 550 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 85 Pump Perfomance Curves 50 Hz VS 450 Vertical Submersible Pumps (VS) 1500 rpm Curve #: 11014-081103-S1 Q [gpm] 250 500 750 1000 1250 1500 1750 2000 2250 2500 283 mm 21 70 267 mm η 70 18 60 η 74 η 79 250 mm η 81 H [m] η 81 η 79 12 40 η 74 9 30 6 20 3 10 0 0 30 40 35 25 283 mm 20 P [kW] H [ft] 50 15 25 267 mm 15 30 20 250 mm P [hp] 24 0 15 10 10 5 5 0 0 27 6 18 3 0 9 0 50 100 150 200 250 300 350 400 450 500 550 0 600 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 86 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 9 Pump Perfomance Curves 50 Hz VS 500 Vertical Submersible Pumps (VS) 1500 rpm Curve #: 11015-080802-E2 Q [gpm] 300 600 900 1200 1500 1800 2100 2400 2700 3000 96 27 88 80 24 289 mm 72 21 268 mm 64 η 66 H [m] 18 η 72 245 mm 56 η 76 η 79 15 48 H [ft] 30 0 40 12 η 79 32 η 76 9 η 72 η 66 6 24 16 3 8 0 0 25 30 289 mm 15 268 mm 20 245 mm 10 25 15 P [hp] P [kW] 20 10 5 5 0 0 30 8 25 20 6 15 4 10 2 0 5 0 50 100 150 200 250 300 350 400 450 500 550 600 650 NPSHr [ft] NPSHr [m] 10 0 700 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 87 Pump Perfomance Curves 50 Hz VS 650 Vertical Submersible Pumps (VS) 1500 rpm Curve #: 11017-070713-E1 Q [gpm] 50 0 500 1000 1500 2000 2500 3000 3500 4000 160 367 mm 45 140 40 345 mm 320 mm 120 η 72 η 75 η 77 η 77 H [m] 30 100 η 75 25 η 72 η 68 80 H [ft] η 68 35 20 60 15 40 10 20 5 0 0 100 125 367 mm 100 60 75 320 mm 40 50 20 25 0 0 10 32 7.5 24 5 16 2.5 0 8 0 100 200 300 400 500 600 700 800 900 0 1000 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 88 P [hp] 345 mm 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] P [kW] 80 Pump Perfomance Curves 50 Hz VS 850 Vertical Submersible Pumps (VS) 1500 rpm Curve #: 11021-070713-E1 Q [gpm] 32 0 600 1200 1800 2400 3000 3600 4200 4800 5400 100 28 90 326 mm 80 24 300 mm H [m] 275 mm 70 η 73 η 75 η 77 η 77 η 75 η 73 16 60 η 70 50 H [ft] η 70 20 40 12 30 8 20 4 10 0 0 100 125 60 300 mm 75 275 mm 40 100 50 20 25 0 0 12 40 30 8 20 4 0 10 0 150 300 450 600 750 900 1050 P [hp] 326 mm 1200 NPSHr [ft] NPSHr [m] P [kW] 80 0 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 89 Multistage Pumps (HR) 91 Pump Perfomance Curves 50 Hz Multistage Pumps (HR) Versatile modular design concept for ease in components interchangeability. Pumps are suitable for pumping clean or slightly polluted liquids. Equipment characterized by its application in operation with high flows and where high pressures and excellent air tightness are required. OPERATING PARAMETERS SERVICES • Capacities up to 6,500 gpm (1,400 m3/h) • Primary Water Supply – Fresh water or Sea water • Head up to 1,320 Feet (400 m) • Mining Processes - Cooling Water, Thickener Overflow, Reclaim Water, Mine Seepage, Well Pumps-Process, Water Supply, Mine De-Watering, Electrolyte, Pressure Boosting and Transfer • Power through 1000 hp (750 kW) • Pressures up to 590 psi (4,067 kPa) • Frequency 50/60 Hz • Temperatures to 300 °F (150°C) • Discharge sizes from 3” to 12” DESIGN FEATURES • NEPTUNO PUMPS high-efficiency design ® • High-quality investment cast impellers and stage diffusers • Solvent Extraction/Electro-Winning (SX/EW) - Raffinate, Pregnate Leach Solution (PLS), Heap Leach, Dump Leach, Acid Water Pressure Boosting and Transfer • Tailings – Post Processed Solutions • Oil & Gas Production – Onshore, Offshore and Pipeline •Marine • Pulp and Paper • Modular design concept for maximum interchangeability • Maximum versatility and reliability • Both ends bearings and axial thrust balancing • Special material selection for standard or abrasive/ corrosive service • Different suction and discharge flange orientation • Packing or mechanical seal 93 Pump Perfomance Curves 50 Hz Multistage Pumps (HR) Applications Duty Capacity Head Fluid Flexibility Heavy Medium Low High Medium Low High Medium Low Clean Process Slurry High Medium Low Multistage Pumps (HR) Main Components & Materials Material Components Volute Impeller Wear Rings Shaft Stuffing Box / Mechanical Seal 94 Cast Iron Carbon Steel Brass Stainless Steel Duplex Polymer Pump Perfomance Curves 50 Hz Multistage Pumps (HR) Available Models HR 32 HR 50 HR 70 HR 150 HR 360 HR 900 Multistage Pumps (HR) Range Chart - 50 Hz - 1 Stage Q [gpm] 65 100 200 300 400 600 1000 1500 2000 3000 4000 6000 8000 4000 1000 3000 800 700 600 500 2000 400 1500 1250 300 1000 600 500 H [ft] H [m] 800 200 400 100 300 80 200 60 50 150 40 30 10 20 30 40 60 80 100 200 300 400 600 800 1000 2000 100 Q [m3/h] 95 Pump Perfomance Curves 50 Hz Multistage Pumps (HR) Diagram W1 M W2 S X S2 D A Multistage Pumps (HR) Main Dimensions Dimensions (mm) 96 Model S2 Radial Suction S1 X D A W1 W2 M 3-Stage Each Add'l Stage M HR 32 100 65 210 141 285 314 223 260 70 HR 50 79 50 200 160 304 297 227 227 66 HR 70 104 77 219 200 265 314 236 275 76 HR 150 104 77 296 320 538 533 460 369 181 HR 360 201 150 399 356 572 563 440 583 156 HR 900 298 248 551 450 782 821 654 850 215 Pump Perfomance Curves 50 Hz HR 32 Multistage Pumps (HR) 1500 rpm Curve #: 22001-070713-F1 Q [gpm] 200 0 20 180 40 60 80 200 mm 100 η 61 120 160 180 200 220 650 600 η 65 η 69 190 mm 160 140 550 η 71 500 180 mm 140 η 71 450 η 69 H [m] 350 100 300 80 H [ft] 400 120 250 200 60 150 40 100 20 50 0 0 25 30 20 200 mm 25 15 20 180 mm 15 10 P [hp] P [kW] 190 mm 10 5 5 0 0 9 2 6 1 0 3 0 5 10 15 20 25 30 35 40 45 50 NPSHr [ft] NPSHr [m] 3 0 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 97 Pump Perfomance Curves 50 Hz HR 50 Multistage Pumps (HR) 3000 rpm Curve #: 22002-080917-E1 Q [gpm] 40 80 120 160 η 60 184 mm 45 40 172 mm 35 160 mm 200 η 64 η 68 240 280 320 150 η 70 135 η 70 η 68 120 η 64 η 60 H [m] 30 105 90 25 75 H [ft] 0 20 60 15 45 10 30 5 15 0 0 12 15 184 mm P [kW] 12 172 mm 8 160 mm 9 6 P [hp] 10 6 4 2 3 0 0 9 30 6 20 3 10 0 0 10 20 30 40 50 60 70 80 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 98 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 0 NPSHr [ft] NPSHr [m] 12 Pump Perfomance Curves 50 Hz HR 70 Multistage Pumps (HR) 3000 rpm Curve #: 22003-070619-S1 Q [gpm] 40 80 120 160 200 240 280 320 360 400 440 480 55 195 180 50 165 194 mm 45 185 mm 40 175 mm η 54 η 58 150 η 62 η 64 135 120 η 64 35 H [m] 520 η 62 105 η 58 30 η 54 90 H [ft] 60 0 25 75 20 60 15 45 10 30 5 15 0 0 18 24 21 15 194 mm 185 mm 15 175 mm 9 18 12 P [hp] P [kW] 12 9 6 6 3 3 0 0 9 30 6 20 3 10 0 0 10 20 30 40 50 60 70 80 90 100 110 NPSHr [ft] NPSHr [m] 12 0 120 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 99 Pump Perfomance Curves 50 Hz HR 150 Multistage Pumps (HR) 1500 rpm Curve #: 22004-100709-E1 Q [gpm] 27 0 24 50 100 150 236 mm 21 200 η 70 250 300 350 400 450 80 η 74 η 77 η 79 70 218 mm η 79 18 60 η 77 200 mm 50 η 70 12 40 9 30 6 20 3 10 0 0 H [ft] H [m] η 74 15 8 10 236 mm 6 218 mm 4 8 200 mm P [hp] P [kW] 6 4 2 2 0 0 15 4 10 2 0 5 0 10 20 30 40 50 60 70 80 90 100 0 110 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 100 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 6 Pump Perfomance Curves 50 Hz HR 150 Multistage Pumps (HR) 3000 rpm Curve #: 22004-100709-E1 Q [gpm] 100 200 300 236 mm 400 η 70 90 η 74 500 η 77 218 mm 80 600 700 800 900 300 η 79 270 η 79 70 240 η 77 200 mm η 74 H [m] 60 210 η 70 180 50 150 40 H [ft] 100 0 120 30 90 20 60 10 30 0 0 50 236 mm 40 30 40 200 mm 30 20 P [hp] 50 218 mm P [kW] 60 20 10 10 0 0 45 12 30 6 0 15 0 20 40 60 80 100 120 140 160 180 200 NPSHr [ft] NPSHr [m] 18 0 220 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 101 Pump Perfomance Curves 50 Hz HR 360 Multistage Pumps (HR) 1500 rpm Curve #: 22005-080614-E1 Q [gpm] 250 55 500 750 1250 1500 1750 2000 2250 2500 2750 η 67 η 71 350 mm 165 η 75 η 77 45 150 330 mm 135 η 77 40 η 75 120 35 H [m] 195 180 370 mm 50 1000 η 71 105 30 90 H [ft] 0 25 75 20 60 15 45 10 30 5 15 0 0 80 105 70 370 mm 90 60 75 350 mm 60 45 30 30 20 10 15 0 0 NPSHr [m] 20 60 15 40 10 20 5 0 0 50 100 150 200 250 300 350 400 450 500 550 600 0 650 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 102 P [hp] 330 mm 40 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] P [kW] 50 Pump Perfomance Curves 50 Hz HR 900 Multistage Pumps (HR) 1000 rpm Curve #: 22006-120214-S2 Q [gpm] 0 500 1000 1500 2000 2500 3000 3500 4000 140 40 470 mm 35 440 mm 30 410 mm η 76 η 80 120 η 84 η 86 100 η 86 η 80 80 η 76 20 H [ft] H [m] η 84 25 60 15 40 10 20 5 0 0 70 470 mm 90 60 75 440 mm 45 30 30 NPSHr [m] 20 10 15 0 0 6 20 15 4 10 2 0 P [hp] 60 410 mm 40 5 0 100 200 300 400 500 600 700 800 900 NPSHr [ft] P [kW] 50 0 1000 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 103 Pump Perfomance Curves 50 Hz HR 900 Multistage Pumps (HR) 1500 rpm Curve #: 22006-120214-S2 Q [gpm] 600 90 1200 1800 2400 3000 3600 4200 4800 6000 6600 300 470 mm η 76 440 mm η 80 75 η 84 250 η 86 410 mm η 86 200 η 84 60 H [m] 5400 η 80 η 76 45 150 30 100 15 50 0 0 H [ft] 0 250 470 mm 300 200 410 mm 180 100 120 50 60 0 0 NPSHr [m] 16 45 12 30 8 15 4 0 0 150 300 450 600 750 900 1050 1200 1350 0 1500 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 104 P [hp] 150 240 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] P [kW] 440 mm Axial Split Case Pumps (HA) 105 Pump Perfomance Curves 50 Hz Axial Split Case Pumps (HA) The range axial split pump available pumps include both single double-suction and multi-stage designs. Our pumps are designed for high volume, high pressure heavy-duty liquid transport applications. OPERATING PARAMETERS SERVICES • Capacities up to 17,000 gpm (3,200 m3/h) • Primary Water Supply – Fresh water or Sea water • Head up to 2,700 Feet (800 m) • Power through 1000 hp (750 kW) • Pressures up to 1,180 psi (8,148 kPa) • Frequency 50/60 Hz • Temperatures to 300 °F (150°C) • Discharge sizes from 3” to 14” DESIGN FEATURES • NEPTUNO PUMPS® high-efficiency design • High-quality investment cast impellers and stage diffusers • Axially split casing for ease of maintenance • Heavy duty single row bolting • Mining Processes - Cooling Water, Thickener Overflow, Reclaim Water, Mine Seepage, Well Pumps-Process, Water Supply, Mine DeWatering, Electrolyte, Pressure Boosting and Transfer • Solvent Extraction/Electro-Winning (SX/ EW): Raffinate, Pregnate Leach Solution (PLS), Heap Leach, Dump Leach, Acid Water Pressure Boosting and Transfer • Tailings – Post Processed Solutions • Oil & Gas Production – Onshore, Offshore and Pipeline •Marine • Pulp and Paper • Opposed impeller arrangement for thrust balancing • Special material selection for standard or abrasive/corrosive service • Different suction and discharge flange orientation • Mechanical sealing 107 Pump Perfomance Curves 50 Hz Axial Split Case (HA) Applications Duty Capacity Head Fluid Flexibility Heavy Medium Low High Medium Low High Medium Low Clean Process Slurry High Medium Low Axial Split Case (HA) Main Components & Materials Material Components Volute Impeller Wear Rings Shaft 108 Cast Iron Carbon Steel Brass Stainless Steel Duplex Polymer Pump Perfomance Curves 50 Hz Axial Split Case (HA) Available Models HA 90 HA 140 HA 200 HA 250 HA 290 HA 475 HA 700 HA 2400 Axial Split Case (HA) Range Chart - 50Hz Q [gpm] 1500 70 100 150 300 500 700 1000 1500 3000 5000 7000 10000 4900 4100 700 3200 2900 2600 2300 600 2000 500 1700 400 1300 1500 1100 300 900 H [ft] H [m] 1000 900 800 700 200 500 150 400 100 90 80 310 280 250 70 200 60 15 20 30 40 50 80 100 150 200 300 400 500 800 1000 1500 2500 Q [m³/h] 109 Pump Perfomance Curves 50 Hz Axial Split Case (HA) Diagram A C E B S2 S1 D Axial Split Case (HA) Main Dimensions Dimensions (mm) 110 Model S2 Suction HA 90 125 S1 Discharge 80 A B C D E Stages 508 140 550 280 163 2 HA 140 125 80 600 140 483 315 140 1 HA 200 150 100 660 170 550 355 170 1 HA 250 150 100 660 170 550 355 170 1 HA 290 150 100 660 170 550 355 170 1 HA 475 280 150 1063 245 992 500 245 5 HA 700 206 206 1030 283 900 473 210 3 HA 2400 498 353 1160 465 1316 816 465 1 Pump Perfomance Curves 50 Hz HA 90 Axial Split Case (HA) 3000 rpm Curve #: 31001-070619-F1 Q [gpm] 0 100 200 300 400 500 600 700 800 225 700 η 51 260 mm 175 η 55 η 59 250 mm 600 η 61 η 61 H [m] 150 500 η 59 η 55 125 400 H [ft] 270 mm 200 100 300 75 200 50 100 25 0 0 120 150 100 270 mm 60 75 40 50 20 25 0 0 20 60 15 45 10 30 5 15 0 P [hp] 100 250 mm 0 20 40 60 80 100 120 140 160 180 NPSHr [ft] P [kW] 80 NPSHr [m] 125 260 mm 0 200 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. Elevated temperature effects on performance are not included 5. Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) 6. Specifications are subject to change without previous notice. 111 Pump Perfomance Curves 50 Hz HA 140 Axial Split Case (HA) 1500 rpm Curve #: 31002-090923-S1 Q [gpm] 18 0 60 120 180 240 300 360 420 480 215 mm 15 η 70 200 mm η 74 50 η 77 η 80 185 mm 12 40 η 80 η 74 9 30 η 70 6 20 3 10 0 0 H [ft] H [m] η 77 5 6 4 3 200 mm 4 185 mm 2 P [hp] P [kW] 215 mm 2 1 0 0 8 2 6 4 1 0 2 0 15 30 45 60 75 90 105 0 120 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 112 4. Elevated temperature effects on performance are not included 5. Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) 6. Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 3 Pump Perfomance Curves 50 Hz HA 140 Axial Split Case (HA) 3000 rpm Curve #: 31002-090923-S1 Q [gpm] 70 0 100 200 300 400 500 600 700 800 900 1000 215 mm 210 200 mm 60 η 70 η 74 η 77 180 η 80 185 mm 50 η 80 150 H [m] η 74 120 η 70 30 H [ft] η 77 40 90 20 60 10 30 0 0 40 50 215 mm 200 mm 20 185 mm 40 30 P [hp] P [kW] 30 20 10 10 0 0 45 9 30 6 15 3 0 0 30 60 90 120 150 180 210 NPSHr [ft] NPSHr [m] 12 0 240 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. Elevated temperature effects on performance are not included 5. Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) 6. Specifications are subject to change without previous notice. 113 Pump Perfomance Curves 50 Hz HA 200 Axial Split Case (HA) 1500 rpm Curve #: 31003-080724-E1 Q [gpm] 0 100 200 300 400 500 600 700 800 120 35 301 mm 30 η 71 η 75 η 79 105 η 81 278 mm η 81 90 η 79 254mm 75 H [m] η 75 20 60 H [ft] 25 15 45 10 30 5 15 0 0 301 mm 12 16 254mm 6 8 3 4 0 0 NPSHr [m] 5 15 4 10 3 2 5 1 0 0 20 40 60 80 100 120 140 160 180 0 200 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 114 P [hp] 12 4. Elevated temperature effects on performance are not included 5. Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) 6. Specifications are subject to change without previous notice. NPSHr [ft] P [kW] 278 mm 9 Pump Perfomance Curves 50 Hz HA 200 Axial Split Case (HA) 3000 rpm Curve #: 31003-080724-E1 Q [gpm] 100 135 200 301 mm 120 300 η 71 η 75 400 500 600 700 800 450 η 79 η 81 400 278 mm η 81 105 350 η 79 254mm H [m] 300 η 75 90 75 250 60 200 45 150 30 100 15 50 0 0 H [ft] 150 0 120 301 mm 100 150 125 278 mm 254mm 60 75 40 50 20 25 0 0 NPSHr [m] 20 60 15 45 10 30 5 15 0 P [hp] 100 0 40 80 120 160 200 240 280 320 360 NPSHr [ft] P [kW] 80 0 400 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. Elevated temperature effects on performance are not included 5. Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) 6. Specifications are subject to change without previous notice. 115 Pump Perfomance Curves 50 Hz HA 250 Axial Split Case (HA) 1500 rpm Curve #: 31004-080704-F1 Q [gpm] 100 200 300 400 500 700 800 80 254 mm 22.5 20 η 70 η 74 η 78 70 η 80 236 mm 60 17.5 η 80 219 mm η 78 15 H [m] 600 50 η 74 12.5 η 70 40 H [ft] 25 0 10 30 7.5 20 5 10 2.5 0 0 254 mm 7.5 10 236 mm 219 mm 4.5 6 3 4 1.5 2 0 0 NPSHr [m] 4 12 3 9 2 6 1 3 0 0 20 40 60 80 100 120 140 160 180 0 200 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 116 P [hp] 8 4. Elevated temperature effects on performance are not included 5. Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) 6. Specifications are subject to change without previous notice. NPSHr [ft] P [kW] 6 Pump Perfomance Curves 50 Hz HA 250 Axial Split Case (HA) 3000 rpm Curve #: 31004-080704-F1 Q [gpm] 200 400 254 mm 90 80 600 η 70 800 1000 1400 1600 300 η 74 η 78 270 η 80 236 mm 240 70 η 80 219 mm 210 η 78 60 H [m] 1200 η 74 50 180 η 70 150 H [ft] 100 0 40 120 30 90 20 60 10 30 0 0 70 254 mm 60 90 75 236 mm 50 45 30 30 20 10 15 0 0 NPSHr [m] 16 48 12 36 8 24 4 12 0 P [hp] 219 mm 0 40 80 120 160 200 240 280 320 360 NPSHr [ft] P [kW] 60 40 0 400 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. Elevated temperature effects on performance are not included 5. Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) 6. Specifications are subject to change without previous notice. 117 Pump Perfomance Curves 50 Hz HA 290 Axial Split Case (HA) 1500 rpm Curve #: 31005-080614-F1 Q [gpm] 0 100 200 300 400 500 600 700 800 900 90 27 η 79 η 83 80 η 85 236 mm 70 η 85 219 mm 18 60 η 83 η 79 15 50 12 40 9 30 6 20 3 10 0 0 H [ft] 21 H [m] η 75 254 mm 24 12 254 mm P [kW] 12 236 mm 8 9 219 mm 6 15 P [hp] 10 6 4 2 3 0 0 9 2 6 1 3 0 0 25 50 75 100 125 150 175 200 0 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 118 4. Elevated temperature effects on performance are not included 5. Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) 6. Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 12 3 Pump Perfomance Curves 50 Hz HA 290 Axial Split Case (HA) 3000 rpm Curve #: 31005-080614-F1 Q [gpm] 200 400 600 800 1000 1200 1400 1600 1800 350 105 η 75 254 mm 90 η 83 300 η 85 236 mm 75 H [m] η 79 250 η 85 219 mm η 83 η 79 60 200 45 150 30 100 15 50 0 0 H [ft] 120 0 100 125 254 mm 100 75 219 mm 40 50 20 25 0 0 NPSHr [m] 15 45 10 30 5 0 P [hp] 236 mm 60 15 0 40 80 120 160 200 240 280 320 360 400 NPSHr [ft] P [kW] 80 0 440 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. Elevated temperature effects on performance are not included 5. Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) 6. Specifications are subject to change without previous notice. 119 Pump Perfomance Curves 50 Hz HA 475 Axial Split Case (HA) 1500 rpm Curve #: 32001-100625-S2 Q [gpm] 200 400 600 330 mm 180 800 η 74 η 78 313 mm 160 1000 1200 1400 1600 650 600 η 82 550 η 84 500 297 mm η 84 140 450 η 82 H [m] 120 400 η 78 350 η 74 100 300 80 H [ft] 200 0 250 200 60 150 40 100 20 50 0 0 300 330 mm 120 250 313 mm 100 200 150 60 P [hp] P [kW] 297 mm 80 100 40 20 50 0 0 8 2 6 1.5 4 1 2 0.5 0 0 40 80 120 160 200 240 280 320 360 0 400 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 120 4. Elevated temperature effects on performance are not included 5. Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) 6. Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 3 2.5 Pump Perfomance Curves 50 Hz HA 475 Axial Split Case (HA) 3000 rpm Curve #: 32001-100625-S2 Q [gpm] 0 400 800 330 mm 1200 η 74 700 313 mm 600 1600 η 78 2000 2400 2800 3200 2400 η 82 η 84 2100 297 mm η 84 1800 η 82 H [m] η 78 1500 H [ft] 500 η 74 400 1200 300 900 200 600 100 300 0 0 1200 330 mm 1500 1000 313 mm 1200 297 mm 900 600 P [hp] P [kW] 800 600 400 300 200 0 0 9 30 6 20 3 10 0 0 100 200 300 400 500 600 700 NPSHr [ft] NPSHr [m] 12 0 800 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. Elevated temperature effects on performance are not included 5. Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) 6. Specifications are subject to change without previous notice. 121 Pump Perfomance Curves 50 Hz HA 700 Axial Split Case (HA) 1500 rpm Curve #: 32002-070619-F1 Q [gpm] 0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 120 2100 110 338 mm 100 η 75 η 79 η 81 324 mm 90 η 83 η 83 308 mm 1800 η 81 η 79 1500 70 H [ft] H [m] 80 1200 60 50 900 40 600 30 20 300 10 0 0 140 338 mm 2400 120 324 mm 2000 308 mm 1600 P [hp] P [kW] 100 80 1200 60 40 800 20 400 0 0 1.5 30 1 20 0.5 10 0 0 50 100 150 200 250 300 350 400 450 0 500 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 122 4. Elevated temperature effects on performance are not included 5. Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) 6. Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 2 Pump Perfomance Curves 50 Hz HA 700 Axial Split Case (HA) 3000 rpm Curve #: 32002-070619-F1 Q [gpm] 500 0 500 1000 1500 2000 2500 3000 3500 4000 1500 450 338 mm 400 η 75 η 79 η 81 324 mm 350 1350 η 83 η 83 308 mm η 81 1200 η 79 1050 900 250 750 H [ft] H [m] 300 200 600 150 450 100 300 50 150 0 0 1200 338 mm 1500 1000 324 mm 308 mm 600 750 400 500 200 250 0 0 NPSHr [m] 8 24 6 18 4 12 2 6 0 P [hp] 1000 0 100 200 300 400 500 600 700 800 900 NPSHr [ft] P [kW] 800 1250 0 1000 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. Elevated temperature effects on performance are not included 5. Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) 6. Specifications are subject to change without previous notice. 123 Pump Perfomance Curves 50 Hz HA 2400 Axial Split Case (HA) 1000 rpm Curve #: 32006-070713-F1 Q [gpm] 0 1500 3000 4500 6000 7500 9000 10500 12000 13500 15000 225 590 mm 60 200 η 82 η 86 560 mm η 90 η 92 175 530 mm 50 150 η 92 40 125 H [m] η 86 H [ft] η 90 100 30 75 20 50 10 25 0 0 500 600 590 mm 500 560 mm 300 400 530 mm 300 200 P [hp] P [kW] 400 200 100 100 0 0 60 15 45 10 30 5 15 0 0 400 800 1200 1600 2000 2400 2800 3200 0 3600 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 124 4. Elevated temperature effects on performance are not included 5. Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) 6. Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 20 Pump Perfomance Curves 50 Hz HA 2400 Axial Split Case (HA) 1500 rpm Curve #: 32006-070713-F1 Q [gpm] 0 2500 5000 7500 10000 12500 15000 17500 20000 22500 500 140 590 mm η 82 560 mm 450 η 86 η 90 120 η 92 400 530 mm 350 η 92 H [m] η 90 300 η 86 80 250 H [ft] 100 200 60 150 40 100 20 50 0 0 1800 590 mm 560 mm 1200 530 mm 750 900 500 600 250 300 0 NPSHr [m] 1500 0 36 120 24 80 12 40 0 0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 NPSHr [ft] P [kW] 1000 P [hp] 1250 0 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. Elevated temperature effects on performance are not included 5. Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) 6. Specifications are subject to change without previous notice. 125 Volute Pumps (HV) 127 Pump Perfomance Curves 50 Hz Volute Pumps (HV) NEPTUNO PUMPS® offers a wide range Volute Pumps to satisfy a variety of head requirements and capacities, with different suction and discharge flange sizes. OPERATING PARAMETERS SERVICES • Capacities up to 19,500 gpm (3,700 m3/h) • Primary Water Supply – Fresh water or Sea water • Head up to 820 Feet (250 m) • Mining Processes: Cooling Water, Thickener Overflow, Reclaim Water, Mine Seepage, Well Pumps-Process, Water Supply, Mine De-Watering, Electrolyte, Pressure Boosting and Transfer • Power through 700 hp (520 kW) • Pressures up to 370 psi (2,550 kPa) • Frequency 50/60 Hz • Temperatures to 300 °F (150°C) • Discharge sizes from 3” to 12” DESIGN FEATURES • NEPTUNO PUMPS high-efficiency design ® • High-quality investment cast impellers and stage diffusers • Solvent Extraction/Electro-Winning (SX/EW): Raffinate, Pregnate Leach Solution (PLS), Heap Leach, Dump Leach, Acid Water Pressure Boosting and Transfer • Tailings – Post Processed Solutions • Oil & Gas Production – Onshore, Offshore and Pipeline •Marine • Pulp and Paper • ANSI Design available • Special material selection for standard or abrasive/ corrosive service • Maximum versatility and reliability • Different suction and discharge flange sizes • Packing or mechanical seal 129 Pump Perfomance Curves 50 Hz Volute Pumps (HV) Applications Duty Capacity Head Fluid Flexibility Heavy Medium Low High Medium Low High Medium Low Clean Process Slurry High Medium Low Volute Pumps (HV) Main Components & Materials Material Components Volute Impeller Shaft Stuffing Box 130 Cast Iron Carbon Steel Brass Stainless Steel Duplex Polymer Pump Perfomance Curves 50 Hz Volute Pumps (HV) Available Models HV 62 HV 105 HV 120 HV 175 HV 250 HV 450 HV 475 HV 500 HV 3000 Volute Pumps (HV) Range Chart - 50 Hz 180 160 140 H [m] 120 100 80 60 40 20 0 0 500 1000 1500 2000 2500 3000 3500 4000 4500 Q [m /h] 3 131 Pump Perfomance Curves 50 Hz Volute Pumps (HV) Diagram A CP Y X U O D F Volute Pumps (HV) Main Dimensions Dimension in millimeters 132 Model Suction HV 62 3 HV 105 4 HV 120 Discharge CP D F O U X Y A 2 597 254 318 546 29 3 597 210 318 490 29 292 102 427 208 102 4 3 597 210 318 490 315 29 208 102 194 HV 175 4 3 597 210 318 HV 250 8 6 860 368 476 490 29 208 102 346 775 60 406 152 520 HV 450 8 6 860 368 HV 475 8 6 1018 380 476 826 60 457 152 592 495 937 60 557 203 620 HV 500 8 6 1004 430 574 765 56 335 235 710 HV 3000 18 18 1271 711 629 1575 86 864 423 1270 Pump Perfomance Curves 50 Hz HV 62 Volute Pumps (HV) 1500 rpm Curve #: 43001-070620-F1 Q [gpm] 40 80 120 160 200 240 280 320 150 330 mm 45 η 53 40 η 57 135 η 61 305 mm η 63 120 35 H [m] 105 270 mm 30 90 25 75 H [ft] 0 20 60 15 45 10 30 5 15 0 0 12 15 10 330 mm 12 9 6 270 mm 6 4 2 3 0 0 NPSHr [m] 4 12 3 9 2 6 1 3 0 P [hp] 305 mm 0 10 20 30 40 50 60 70 80 NPSHr [ft] P [kW] 8 0 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 133 Pump Perfomance Curves 50 Hz HV 62 Volute Pumps (HV) 3000 rpm Curve #: 43001-070620-F1 Q [gpm] 0 50 100 150 200 250 160 350 400 450 500 550 600 650 η 53 η 57 550 η 61 305 mm 500 η 63 140 450 270 mm 400 350 100 300 80 H [ft] 120 H [m] 700 600 330 mm 180 300 250 200 60 150 40 100 20 50 0 0 120 330 mm P [kW] 60 305 mm 80 60 270 mm 40 100 P [hp] 80 40 20 20 0 0 45 12 30 8 15 4 0 0 15 30 45 60 75 90 105 120 135 150 0 165 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 134 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 16 Pump Perfomance Curves 50 Hz HV 105 Volute Pumps (HV) 1500 rpm Curve #: 43002-070619-F1 Q [gpm] 0 80 160 207 mm η 67 16 240 320 55 η 71 η 75 195 mm η 77 50 14 45 η 77 180 mm η 75 12 40 η 71 35 30 8 H [ft] H [m] 10 25 20 6 15 4 10 2 5 0 0 3 4 207 mm 2.5 3.5 195 mm P [kW] 180 mm 2.5 1.5 2 P [hp] 3 2 1.5 1 1 0.5 0.5 0 0 12 3 8 2 4 1 0 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 NPSHr [ft] NPSHr [m] 4 0 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 135 Pump Perfomance Curves 50 Hz HV 105 Volute Pumps (HV) 3000 rpm Curve #: 43002-070619-F1 Q [gpm] 70 0 80 160 240 320 207 mm 60 η 67 400 η 71 η 75 195 mm 480 560 210 η 77 180 η 77 180 mm 50 640 η 75 η 71 150 120 H [ft] H [m] 40 30 90 20 60 10 30 0 0 25 207 mm 30 20 195 mm 180 mm 15 18 10 P [hp] P [kW] 24 12 5 6 0 0 45 12 30 8 15 4 0 0 15 30 45 60 75 90 105 120 135 0 150 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 136 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 16 Pump Perfomance Curves 50 Hz HV 120 Volute Pumps (HV) 1500 rpm Curve #: 43003-090209-S1 Q [gpm] 0 100 200 260 mm η 62 300 η 66 η 70 24 400 500 600 90 80 η 72 240 mm 70 η 72 220 mm η 70 η 66 16 H [m] 60 50 η 62 40 12 H [ft] 20 30 8 20 4 10 0 0 10 12 260 mm 6 10 8 240 mm 6 220 mm 4 P [hp] P [kW] 8 4 2 0 0 2.5 8 2 6 1.5 4 1 2 0.5 0 0 20 40 60 80 100 120 NPSHr [ft] NPSHr [m] 2 0 140 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 137 Pump Perfomance Curves 50 Hz HV 120 Volute Pumps (HV) 3000 rpm Curve #: 43003-090209-S1 Q [gpm] 110 0 100 200 300 260 mm 100 90 400 η 62 500 η 66 600 η 70 700 800 900 1000 1100 360 320 η 72 240 mm 280 η 72 80 220 mm η 70 70 240 η 62 50 200 160 40 H [ft] H [m] η 66 60 120 30 80 20 40 10 0 0 70 90 260 mm 60 70 240 mm 40 60 50 220 mm 30 40 P [hp] 50 P [kW] 80 30 20 20 10 0 0 10 32 8 24 6 16 4 8 2 0 0 25 50 75 100 125 150 175 200 225 0 250 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 138 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 10 Pump Perfomance Curves 50 Hz HV 175 Volute Pumps (HV) 1500 rpm Curve #: 43004-070619-F1 Q [gpm] 0 50 100 150 200 250 300 350 400 450 500 55 16 50 213 mm η 75 14 η 79 198 mm η 83 45 η 85 40 12 η 85 180 mm η 79 30 η 75 8 25 H [ft] H [m] 35 η 83 10 20 6 15 4 10 2 5 0 0 3.5 213 mm 3 2.5 4 198 mm 180 mm 1.5 2 P [hp] P [kW] 3 2 1 1 0.5 0 0 6 1.5 4 1 2 0.5 0 0 10 20 30 40 50 60 70 80 90 100 110 NPSHr [ft] NPSHr [m] 2 0 120 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 139 Pump Perfomance Curves 50 Hz HV 175 Volute Pumps (HV) 3000 rpm Curve #: 43004-070619-F1 Q [gpm] 0 100 200 300 400 500 600 700 800 900 1000 1100 210 213 mm 60 η 75 η 79 η 83 198 mm 180 η 85 50 150 η 85 180 mm H [m] η 79 120 η 75 H [ft] η 83 40 30 90 20 60 10 30 0 0 30 40 213 mm 25 25 180 mm 15 20 P [hp] P [kW] 30 198 mm 20 35 15 10 10 5 5 0 0 24 6 16 4 8 2 0 0 25 50 75 100 125 150 175 200 225 0 250 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 140 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 8 Pump Perfomance Curves 50 Hz HV 250 Volute Pumps (HV) 1500 rpm Curve #: 43006-090526-S1 Q [gpm] 0 200 400 600 800 1000 1200 1400 1600 1800 2000 2200 140 40 340 mm 35 η 71 η 75 η 79 120 η 81 323 mm η 81 306 mm 30 100 η 79 H [m] 80 η 71 20 H [ft] η 75 25 60 15 40 10 20 5 0 0 40 50 35 340 mm 30 P [kW] 25 306 mm 30 20 15 P [hp] 40 323 mm 20 10 10 0 0 9 30 6 20 3 10 0 0 50 100 150 200 250 300 350 400 450 NPSHr [ft] NPSHr [m] 5 0 500 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 141 Pump Perfomance Curves 50 Hz HV 450 Volute Pumps (HV) 1500 rpm Curve #: 43007-090509-S2 Q [gpm] 250 500 750 1000 378 mm 50 1250 η 72 η 76 1500 1750 η 80 359 mm 45 2000 2250 2500 2750 160 η 82 η 82 340 mm 140 η 80 40 η 76 35 H [m] 180 120 η 72 30 100 25 80 20 H [ft] 55 0 60 15 40 10 20 5 0 0 100 125 378 mm 80 100 75 340 mm 40 50 20 25 0 0 NPSHr [m] 8 24 6 18 4 12 2 6 0 0 50 100 150 200 250 300 350 400 450 500 550 600 0 650 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 142 P [hp] 60 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] P [kW] 359 mm Pump Perfomance Curves 50 Hz HV 475 Volute Pumps (HV) 1500 rpm Curve #: 41001-070723-F1 Q [gpm] 0 250 500 750 1000 1250 1500 1750 2000 2250 2500 2750 320 90 473 mm 80 η 70 η 74 η 78 442 mm 280 η 80 η 80 70 410 mm 50 200 160 H [ft] η 78 60 H [m] 240 40 120 30 80 20 40 10 0 0 175 473 mm P [kW] 125 442 mm 100 200 160 410 mm 120 75 P [hp] 150 80 50 NPSHr [m] 0 0 8 25 6 20 15 4 10 2 0 5 0 50 100 150 200 250 300 350 400 450 500 550 600 NPSHr [ft] 40 25 0 650 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 143 Pump Perfomance Curves 50 Hz HV 500 Volute Pumps (HV) 3000 rpm Curve #: 42002-070724-F1 Q [gpm] 0 400 800 1200 1600 2000 2400 2800 3200 550 160 η 66 500 η 70 η 72 140 450 165 mm H [m] 120 η 72 400 η 70 155 mm η 66 350 100 300 80 H [ft] η 62 179 mm 250 200 60 150 40 100 20 50 0 0 300 400 179 mm 350 250 250 155 mm 150 200 P [hp] P [kW] 300 165 mm 200 150 100 100 50 50 0 0 10 30 8 20 6 10 4 2 0 100 200 300 400 500 600 700 0 800 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 144 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. NPSHr [ft] NPSHr [m] 12 Pump Perfomance Curves 50 Hz HV 3000 Volute Pumps (HV) 1000 rpm Curve #: 41002-070717-F1 Q [gpm] 0 2000 40 4000 6000 8000 10000 12000 14000 16000 18000 135 561 mm 35 η 81 522 mm 120 η 85 η 89 η 91 105 30 η 91 90 η 89 25 η 85 75 20 H [ft] H [m] 473 mm 60 15 45 10 30 5 15 0 0 300 400 561 mm 250 350 300 522 mm 250 150 200 473 mm P [hp] P [kW] 200 150 100 100 50 50 0 0 24 6 16 4 8 2 0 0 500 1000 1500 2000 2500 3000 3500 4000 NPSHr [ft] NPSHr [m] 8 0 4500 Q [m³/h] Notes: 1. Operating data certified to ISO 9906 Hydraulic performance acceptance tests - Grades 1 & 2 2. Performance based on single stage pumping clean non-aerated water (H2O T°=18 [°C], H2O Density = 998 [kg/m3]) 3. Power and efficiency losses are not reflected on the curve 4. 5. 6. 7. Elevated temperature effects on performance are not included Consider 3.0% efficiency derate if operated Off-BEP (60% - 80%) Consider 2.0% efficiency derate if using balanced impellers Specifications are subject to change without previous notice. 145 OFICINAS CENTRALES Avda. Circunvalación 64B - Iquique, Chile Tel: (+56) (57) 2424685 - Fax: (+56) (57) 2425504 e-mail: [email protected] NP-PPC-5016R3 NP-PPC-5016R3 w w w. n e p t u n o p u m p s . c o m w w w. n e p t u n o e n e r g y. c o m Hacia una economía circular comprometida con el medio ambiente. Neptuno3R™ - Reutiliza, Reduce y Recicla: Debido a la actual escasez y alto valor de las materias primas, creemos en la necesidad de transitar hacia una economía circular que reutilice los materiales y que permita mitigar los efectos del cambio climático. Nos sentimos orgullosos de ser una empresa de diseño y manufactura que reutiliza y recicla desechos industriales metálicos para producir nuevos productos de alta eficiencia energética, contribuyendo al aprovechamiento máximo de los recursos y disminuyendo los efectos del calentamiento global. Para saber más sobre nuestras capacidades visite: www.neptunopumps.com/3R Neptuno®, Neptuno Pumps®, Innovation that flows™, VTPSelector™, Neptuno Barge Pump System™ and any and all Neptuno Pumps Ltda. brand, product, service and feature names, logos and slogans are trademarks or registered trademarks or trademarks of Neptuno Pumps Ltda. All other brand, product, service and feature names or trademarks are the property of their respective owners. This brochure is for general presentation only. All performances and/or applications shown are only for general information and may not be applied for every case. For actual pump performance and information please contact us. This brochure does not provide any warranty or guarantee of any kind. Directions for use and safety will be given separately with any purchase. We are constantly improving the performance of our equipment and therefore reserve the right to make alterations to the information without previous notice. This publication is the property of Neptuno Pumps Ltda. Reproduction of all or any portion of this material is prohibited by law. Copyright © Neptuno Pumps Ltda. All Rights Reserved.
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