evmsu curve SPeciFicationS the specifications below qualify the curves shown on the following pages. the curves refer to effective speed of rpm for 2-pole asynchronous motors at z. Measurements were carried out with clean water at 8 F of temperature and with a kinematic viscosity of ν = 1 mm2/s (1 cst) the NPS curve is an average curve obtained under the same conditions as the performance curves. the recommended operating range for best efficiency is indicated by the continuous portion of each curve. Symbols explanation: Q = volume flow rate = total dynamic head (td) P2 = pump power input (shaft power) η = pump efficiency NPS = net positive suction head required by the pump ebara international corporation, Fluid andling division 7 rev. /1
/ EVMU(G)(L) PERFORMANCE RANGE EBARA International Corporation, Fluid andling Division 8 rev. /1
SELECTION CART EVMSU(L)1-- 1 Maximum Q=Capacity Pump Type Motor working gpm 2.9..4. 1. 12.7 1.2 19.8 2.8 1.7 42. pressure m³/h..7.8 1. 2.4 2.9. 4..4 7.2 9. Three phase kw P Frame Size (PSI) =Total manometric head in feet EVMSU(L)1 2.7. C.4 4.1.8.8 49.2 4..8 - - EVMSU(L)1.7. C 84. 81.2 8.8 8.7 7.8.7.9 - - EVMSU(L)1 4.7. C 11.2 18.2 17.7 17. 98.4 8.9 7. - - EVMSU(L)1.7. C 141.4 14. 14. 14.2 12 11.1 8. - - EVMSU(L)1..7 C 19 14 12.4 11.1 147. 121. 11.7 - - EVMSU(L)1 7..7 C 198. 188. 188. 188. 172.2 141.1 118.4 - - EVMSU(L)1 8.7 1 C 22.4 21. 214.9 214.9 19.9 12.4 1.2 - - EVMSU(L)1 9.7 1 C 2 24. 242.8 241.1 241.1 221. 182 12. - - EVMSU(L)1 1.7 1 C 282.2 27. 29.2 29 24.1 2.1 19 - - EVMSU(L)1 11 1.1 1. C 1 29.9 29.9 29. 27.7 22.1 187 - - EVMSU(L)1 12 1.1 1. C 9.2 24.7 2 21. 29. 242.8 2.4 - - EVMSU(L)1 1 1.1 1. C 7. 1 1 49.1 19.9 22. 219.8 - - EVMSU(L)1 14 1.1 1. C 9.7 8. 77. 7 44.2 28.8 27.9 - - EVMSU(L)1 1 1. 2 C 42.1 42.9 429.8 429.8 9.4 2.2 27.7 - - EVMSU(L)1 18 1. 2 C 8. 488.8 48. 48. 442. 4.2.1 - - EVMSU(L)1 2 1. 2 C. 41. 8.1 7.1 491. 4. 8. - - EVMSU(L)1 22 2.2 182TC 21.7 9.8 9.8 9.9 4.7 44.2 72.4 - - EVMSU(L)1 24 2.2 182TC 78.1 49. 4. 4. 89.9 48. 4. - - EVMSU(L)1 2 2.2 182TC 74. 72.1 98.8 98.2 9.1 24.9 44. - - EVMSU(L)1 27 2.2 182TC 72.8 71. 728. 72.1.7 44. 47 - - EVMSU(L)1 29 2.2 182TC 819. 784.1 78.8 778.9 712.9 87. 491.1 - - EVMSU(L) 2.7. C 7.2-9. 9. 7..9 2 1.4.9 4.7 - - EVMSU(L)..7 C 1. - 14. 14.2 1.7 9.8 92.8 91.9 7.4 1 - - EVMSU(L) 4.7 1 C 141.1-19.4 19.4 14. 127.7 12.7 122.7 11.7 81.4 - - EVMSU(L).7 1 C 17. - 17.8 172.2 17. 19.1 14.2 12. 127. 11.7 - - EVMSU(L) 1.1 1. C 211. - 28. 28. 21.8 191.9 18.4 18.7 12. 122 - - EVMSU(L) 7 1.1 1. C 24.1-242.8 242.8 24. 22.1 21. 214.9 178.8 142.7 - - EVMSU(L) 8 1. 2 C 28. - 277.2 277.2 29 24. 247.7 244.4 2.4 12.4 - - 2 EVMSU(L) 9 1. 2 C 1. - 1. 1. 1.8 287.1 278.9 27. 22.4 18.7 - - EVMSU(L) 1 1. 2 C 1.7-47.8 47.8 4. 19.9 1.8 24. 2.4 - - EVMSU(L) 11 2.2 182TC 8.8-8.9 8. 9.4 1 4.2 7. 28. 22.1 - - EVMSU(L) 12 2.2 182TC 421.9-41.7 41.7 42.9 8.9 71.4 7.8.1 244.4 - - EVMSU(L) 1 2.2 182TC 47-42.8 42.8 4.7 41.7 42.2 98..7 24.1 - - EVMSU(L) 14 2.2 182TC 492.1-48. 48. 47.1 44.2 4.1 429.1 28.8 - - EVMSU(L) 1 2.2 182TC 27.2-21.7 21.7. 479. 44.2 49. 81..1 - - EVMSU(L) 1.7 184TC 2.7-7.7 4. 7.4 11.8 49.1 49. 4.8 24.8 - - EVMSU(L) 17.7 184TC 97.8-9. 9. 7.9 44. 2.9 21 42.4 4. - - EVMSU(L) 19.7 184TC 8-9.4 9.4 8.1 7 87.9 82. 48. 8.2 - - EVMSU(L) 2.7 184TC 7.1-9. 9. 71. 9.8 18.8 1.2 8. 4. - - EVMSU(L) 21.7 184TC 78.2-71. 728. 7.1 9. 49. 4.7 4.1 42.8 - - EVMSU(L) 22.7 184TC 77. - 74.4 74.4 78.8 72.1 8.8 74.2 9.4 447.2 - - EVMSU(L) 2.7 184TC 88.7-8. 797.2 772. 74.9 711. 7.1 8 47. - - EVMSU(L) 2.7 1 C 9. - - 87.4 8.1 8. 8.7 7.8.9 47.9 EVMSU(L) 1.1 1. C 1.8 - - 11.1 129.1 128. 121.1 11.2 1.4 71.9 EVMSU(L) 4 1. 2 C 18.4 - - 17. 172.2 172.2 1.8 14.2 1 9.1 EVMSU(L) 2.2 182TC 22.4 - - 218.2 214.9 214.9 21.8 19. 17. 12.1 EVMSU(L) 2.2 182TC 272. - - 2.8 2.8 27. 242.8 229.7 2.1 144.4 EVMSU(L) 7.7 184TC 2 1. - -.8.2.2 282.2 29 24. 17. EVMSU(L) 8.7 184TC 2.2 - - 1 44. 42.8 2.2.8 27.4 191.9 EVMSU(L) 9.7 184TC 47. - - 9.7 87.1 8.8.2 4.1.2 21. EVMSU(L) 1.7 184TC 42.8 - - 4.4 429.8 428.8 4. 8. 4. 29. EVMSU(L) 11.7 184TC 498 - - 482. 472.4 471.8 44.9 421.9 7. 24.1 EVMSU(L) 12. 7. 21TC 4. - - 24.9 1.1 14.4 484. 4. 4.9 288.7 EVMSU(L) 1. 7. 21TC 88. - - 7. 1 7.4 24. 498.7 44.4 11.7 EVMSU(L) 14. 7. 21TC.9 - - 1..7.4 7.1 47.8 EVMSU(L) 1. 7. 21TC 79.1 - -.2 4. 4. 7. 1..2 EVMSU(L) 1. 7. 21TC 724.4 - - 98.8 89 8 4. 1.8 4.8 84.2 EVMSU(L) 17. 7. 21TC 79.7 - - 744.8 71.7 729 8.7 1.9 8.2 48.1 EVMSU(L) 19 7. 1 21TC 8.2 - - 8.1 81.9 814. 7.4 728.7 4.8 4 Model also available in 14TC/14TC frame EBARA International Corporation, Fluid andling Division 9 rev. 2/17
SELECTION CART EVMSU(L)1-1-2 1 1 2 Maximum Q=Capacity Pump Type Motor working gpm 7.9 1. 1.2 19.8 2.8 2.4 1.7 42. 44.9 2.8 8.1.1 79. 92. 1.7 11.2 12.1 pressure m³/h 1.8 2.4. 4..4. 7.2 9. 1.2 12. 1.2 1 18 21 24 2.4 Three phase kw P Frame Size (PSI) =Total manometric head in feet EVMSU(L)1 1.7 1 C 2. 2. 2. 2.1 1. 1.2.9.2 47.2 4. 42.7 9.7 4.9 24. - - EVMSU(L)1 2 1. 2 C 1 1. 14.7 14.2 12. 12 11.8 1.7 94.8 92. 8. 79.7 9.2 48. - - EVMSU(L)1 2.2 182TC 17. 17. 1.8 1.8 14.2 12. 12.7 1.9 142.1 19.1 128. 119.4 14 72.8 - - EVMSU(L)1 4.7 184TC 21. 21. 21. 28. 2.1 2.4 2.4 21.8 19. 18.4 17. 19.1 17.8 97.1 - - EVMSU(L)1.7 184TC 22. 22. 2.8 2.8 2.9 24. 24. 21 2.2 21. 21. 198. 172.2 121.4 - - 2 EVMSU(L)1.7 184TC 1 1. 1. 1. 8.4.8.1 1.8 28.8 277.2 2.9 29. 28. 14 - - EVMSU(L)1 7. 7. 184TC 7. 7 4.2 4.2 7. 7. 7. 2. 1.4 24.8 298. 278.9 242.8 17. - - EVMSU(L)1 8. 7. 184TC 419.9 419.9 419.9 41.7 41.1 48. 4.8 42.2 77.4 7.7 41.9 18. 277.2 19. - - EVMSU(L)1 9. 7. 184TC 472.4 472.4 472.4 49 42. 49. 49. 42.4 42.2 417 84.8 8. 11.7 218.2 - - EVMSU(L)1 1 7. 1 21TC 24.9 24.9 21.7 21.7 11.8 1. 8. 47.4 4. 427. 98. 4. 242.8 - - EVMSU(L)1 11 7. 1 21TC 77.4 77.4 74.1 74.1 4. 1.7 1.1 2.7 9.8 47.1 48 81.2 27.4 - - EVMSU(L)1 12 7. 1 21TC 29.9 2. 2. 1.8 12. 1.2. 7.9.1 12.8 478 41.7 292 - - EVMSU(L)1 14 11 1 21TC 74.9 7 71. 728. 718. 714. 711.9 74.1 2.7 48. 98.4 7.4 484.9 9.9 - - EVMSU(L)1 1 11 1 21TC 787.4 787.4 784.1 78.8 77.7 7.7 74.4 74. 71 717.8 41.1 97.4 19.7 4.2 - - EVMSU(L)1 1 11 1 21TC 89.9 84 8. 8. 82. 81.9 81. 84. 77.2 741. 8.7 7.1 4.1 88. - - EVMSU(L)1 1 1. 2 C 71.2 - - - 8.2 7. 7..9. 2.7.4 9.1 7.1 1.8 4. 9.7 2. - EVMSU(L)1 2.7 184TC 14.1 - - - 17.8 17.8 17.8 1 12.7 11.7 128.4 12.7 124. 119.7 11.8 14 92. - EVMSU(L)1. 7. 184TC 214. - - - 28. 2.7 2.7 2.4 198. 197. 191.9 19 187 178.8 17. 1.8 19.4 - EVMSU(L)1 4 7. 1 21TC 2 28.1 - - - 277.2 27. 274.1 272. 2.7 24.1 27. 2. 248.7 29.4 227.1 28. 18.2 - EVMSU(L)1 7. 1 21TC 7. - - - 47.8 44. 41.2 41.2 1.4 29. 21 1.7 1.9 299. 28.9 2.8 21. - EVMSU(L)1 11 1 21TC 429.2 - - - 41.7 41.4 41.1 4.8 97 9.1 8.2 8. 7.1 9.1 4.7 1. 277.2 - EVMSU(L)1 7 11 1 21TC.7 - - - 48. 482. 479 47.7 4.9 41 449. 44.4 4.2 419 97.4 4.7 24.2 - EVMSU(L)1 8 1 2 2TC 72.2 - - - 4. 1.2 47.9 44. 1. 2.8 1..7 497.4 478.8 44.2 41.1 7. - EVMSU(L)1 9 1 2 2TC 4.8 - - - 2.4 2.1 1.7 1. 97.1 92.7 77.9 7 9. 8.7 11 48.2 41.8 - EVMSU(L)1 1 1 2 2TC 71. - - - 92. 89 8.7 79.1 2.7 8. 42.1.4 21.8 98. 7.7 21 4.1 - EVMSU(L)1 11 18. 2 284TSC 78.8 - - - 71.2 77.9 74. 747.9 71. 724.4 7. 9.8 8.9 8.4 24. 7.1 9.4 - EVMSU(L)1 12 18. 2 284TSC 88.4 - - - 8.1 82.8 82. 81.9 797.2 79.2 77. 7.1 74.1 718. 81. 24.. - EVMSU(L)2 1 2.2 182TC 91.9 - - 8. 84. 81. 8.4 77.8 7.1 7. 8. 2. 4.8 48.2 4.8 EVMSU(L)2 2.7 184TC 12.4 - - 1.8 12. 149. 149.2 14 14 144.4 19.4 14. 129. 12 17.7 EVMSU(L)2. 7. 184TC 242.8 - - 22.9 229.7 224.8 22.1 219.8 219.8 214.9 21 21.8 19. 18.7 1.8 2 EVMSU(L)2 4 7. 1 21TC 24.8 - - 11.7.8.2 298.4 29. 29. 287.1 278.9 29 29.2 24.1 214.9 EVMSU(L)2 11 1 21TC 4.8 - - 9.4 8.9 74 74 7. 7..9 47.8 7.9 2.2.8 29 EVMSU(L)2 11 1 21TC 48. - - 4.9 49. 449. 44.2 442.9 49. 429.8 419.9 4. 87.1 7. 2.2 EVMSU(L)2 7 1 2 2TC 7. - - 44. 8.1 24.9 21.7 1.1 11.8 2 488.8 472.4 42.8 429.8 77. EVMSU(L)2 8 1 2 2TC 49. - - 2.4 1..4 97.1 87. 87. 74.1 7.7 8.1 18.4 492.1 429.8 EVMSU(L)2 9 18. 2 284TSC 71. - - 98.8 89 7.9 72. 2.7 9.4 4. 2. 7 8.7 4. 48. EVMSU(L)2 1 18. 2 284TSC 81.4 - - 777. 77.7 748 744.8 74.9 71. 718. 98.8 7.9 4. 1. 8.1 Model also available in 14TC/14TC frame EBARA International Corporation, Fluid andling Division 1 rev. 2/17
EVMSU1 1/2P - P EVMSU1 2 - EVMSU1 29 Nominal Speed: RPM # ANSI Compatible 1 1 /4'' 4-Bolt p [PSI] 48 29 9 8 7 Q[l/min] 29/ P 27/ P 2/ P 24/ P 1 2 4 28 24 2 22/ P 22 2/2 P 18/2 P 1 1/2 P 174 4 14/1. P 12 1/1. P 11 12/1. P 11/1. P 1/1 P 9/1 P 8 2 8/1 P 7/.7 P 8 1 /.7 P /. P 4/. P /. P 4 2/. P 2 4 8 1 12 14 P2 [P].14.11.8. 1 1. 2 2.. % SINGLE IMPELLER P Q[m/h] 4 [%] 2. 1 NPS 1 2 4 8 1 12 14 NPS 2 4 8 1 12 14 1 EBARA International Corporation, Fluid andling Division 11 rev. 1/17
EVMSU 1/2P - P EVMSU 2 - EVMSU 2 Nominal Speed: RPM # ANSI Compatible 1 1 /4'' 4-Bolt p [PSI] 48 9 8 Q[l/min] 2/ P 22/ P 2 4 8 1 28 24 29 7 21/ P 2/ P 19/ P 2 17/ P 22 1/ P 1/ P 14/ P 1 1/ P 174 4 12/ P 11/ P 12 1/2 P 11 9/2 P 8/2 P 7/1. P 8 2 /1. P /1 P 8 1 4/1 P /.7 P 4 2/. P P2 [P] 1 1 2 2 1 2 4 Q[m/h].2 7 %.2 [%] SINGLE IMPELLER P.1.1 NPS 1 1 1 2 2 1 4 NPS 2 1 1 2 2 EBARA International Corporation, Fluid andling Division 12 rev. 1/17
EVMSU 1P - 1P EVMSU 2 - EVMSU 19 Nominal Speed: RPM # ANSI Compatible 1 1 /4'' 4-Bolt Q[l/min] p [PSI] 48 9 8 2 4 8 1 12 14 1 2 28 19/1 P 17/7. P 24 29 7 1/7. P 1/7. P 14/7. P 2 1/7. P 22 12/7. P 11/ P 1 1/ P 174 4 9/ P 12 8/ P 11 7/ P / P 8 2 / P 4/2 P 8 1 /1. P 2/1 P 4 P2 [P] 1 1 2 2 4 4..4 1 2 4 % 7 8 9 1 Q[m/h] 7 [%] NPS..2 1 1 SINGLE IMPELLER P 1 1 2 2 4 4 1 8 NPS 4 1 1 2 2 4 4 EBARA International Corporation, Fluid andling Division 1 rev. 1/17
EVMSU1 1P - 1P EVMSU1 1 - EVMSU1 1 Nominal Speed: RPM # ANSI Compatible 2'' 8-Bolt Q[l/min] p [PSI] 48 9 8 1 1 2 2 4 28 1/1 P 1/1 P 24 29 7 14/1 P 12/1 P 11/1 P 2 22 1/1 P 9/7. P 1 174 4 8/7. P 7/7. P 12 11 / P / P 8 2 4/ P 8 1 / P 2/2 P 4 1/1 P P2 [P] 1 2 4 7 8 9 1. 1. 2 4 8 1 12 % SINGLE IMPELLER P 14 1 18 2 Q[m/h] 8 [%] 4 NPS 2 1 1 2 4 7 8 9 2 8 NPS 4 1 2 4 7 8 9 EBARA International Corporation, Fluid andling Division 14 rev. 1/17
EVMSU1 2P - 2P EVMSU1 1 - EVMSU1 12 Nominal Speed: RPM # ANSI Compatible 2'' 8-Bolt Q[l/min] p [PSI] 48 9 8 1 2 4 28 12/2 P 11/2 P 24 29 7 1/2 P 9/2 P 2 22 8/2 P 7/1 P 1 174 4 /1 P 12 /1 P 11 4/1 P 8 2 /7. P 8 1 2/ P 4 1/2 P 2 4 8 1 12 1 1 2 2 2. P2 % [P] 2 Q[m/h] 8 [%] 1. 1 NPS 2 1 SINGLE IMPELLER P 2 4 8 1 12 4 2 8 NPS 4 2 4 8 1 12 EBARA International Corporation, Fluid andling Division 1 rev. 1/17
EVMSU2 P - 2P EVMSU2 1 - EVMSU2 1 Nominal Speed: RPM # ANSI Compatible 2'' 8-Bolt Q[l/min] p [PSI] 48 9 8 1 2 4 28 1/2 P 24 29 7 9/2 P 8/2 P 2 22 7/2 P /1 P 1 174 4 /1 P 12 11 2 4/1 P /7. P 8 8 1 2/ P 1/ P 4 2 4 8 1 12 14 1 1 2 2 P2 % [P] 2. 4 Q[m/h] 8 [%] 2 1. NPS 2 1 SINGLE IMPELLER P 2 4 8 1 12 14 2 4 8 1 12 14 4 2 12 8 NPS 4 EBARA International Corporation, Fluid andling Division 1 rev. 1/17
EVMU(G)(L) EVMU2 P - 4P EVMU2 1 EVMU2 4- EVMU2 EVMU2 1-1 Nominal Speed: 4 RPM Nominal Speed: 4 RPM 1# ANSI Compatible 2 1 /2'' 4-Bolt # ANSI Compatible 2 1 /2'' 8-Bolt (m) 4 11 (ft) 1 EVMU2 1-1 4P 274 9 EVMU2 9 4P 244 8 EVMU2 8- P 21 7 EVMU2 7 P 18 EVMU2 2P 12 EVMU2 2P 122 4 EVMU2 4-1P 2 91 EVMU2 1P EVMU2-2 1P 1 4. 1 2 EVMU2 2-2 7.P 1 1 EVMU2 1 P NPS 2 4 8 1 12 14 1 18 2 US GPM NPS (ft) 1. NPS (m) eff. % 8 7 4 2 1 9 14 18 2 27 2 41 4 Q m /h 2 4 8 1 12 14 1 18 2 US GPM Water Temperature: 2 C (8 F) EBARA International Corporation, Fluid andling Division 17 rev. 1/17
EVMU(G)(L) EVMU4 7.P - P EVMU4 1-1 EVMU4 EVMU4 4-1 EVMU4 7-2 Nominal Speed: 4 RPM Nominal Speed: 4 RPM 1# ANSI Compatible '' 4-Bolt # ANSI Compatible '' 8-Bolt 274 (m) 244 9 (ft) 8 EVMU4 7-2 P EVMU4 P 21 7 18 EVMU4 4P 12 EVMU4 4-1 P 122 4 EVMU4 2P 2 91 EVMU4-2 2P 1 4. EVMU4 2-1 1P 1 2 1 EVMU4 1 1P EVMU4 1-1 7.P NPS 1 NPS (ft) 1. NPS (m) 1 1 2 2 US GPM eff. % 9 8 7 4 2 1 11 1 4 4 7 8 Q m /h 1 1 2 2 US GPM Water Temperature: 2 C (8 F) EBARA International Corporation, Fluid andling Division 18 rev. 1/17
EVMU(G)(L) EVMU4 1P - P EVMU4 1-1 EVMU4 4 Nominal Speed: 4 RPM # ANSI Compatible 4'' 8-Bolt 18 (m) (ft) EVMU4 4 P 12 EVMU4 4-2 4P 122 4 EVMU4 4P EVMU4-2 P 91 EVMU4 2 2P EVMU4 2-1 2P 1 2 2 EVMU4 1 1P 1 4. 1 EVMU4 1-1 1P NPS 1 1. NPS (m) 1 1 2 2 4 4 US GPM eff. % 9 8 7 4 2 1 11 1 4 4 7 8 8 91 12 Q m /h 1 1 2 2 4 4 US GPM Water Temperature: 2 C (8 F) EBARA International Corporation, Fluid andling Division 19 rev. 1/17