Archivo:document.xls - Hoja: T.GeneradoresFecha: 04/20/2023 - Hora: 00:05:51
PÁGINA: 1 de 3
PROYECTO ELAB. POR:NOMBRE: REVISIÓN:UBICACIÓN: FECHA:CLIENTE:DOCUMENTO No.:
CÁLCULOS DE ALIMENTADORES Y CANALIZACIONES
DATOS DE LA CARGA DATOS DEL CIRCUITOTENSIÓN LONGITUD CONDUCTOR CONDUCTOR
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CÓDIGO DESCRIPCIÓN No
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OBSERVACIONES
1 TP-601A-P1 Transformador Elevador 13.8/115 Kv 50,000 kVA 13,800 3 2,091.8 0.85 - - 4 1.0% - 15.00 30.00 0 20 0 20 XLPE 4 654 1000 2 2 - 1000 2 TP-601B-P1 Transformador Elevador 13.8/115 Kv 50,000 kVA 13,800 3 2,091.8 0.85 - - 4 1.0% - 15.00 30.00 0 20 0 20 XLPE 4 654 1000 2 2 - 1000 3 TP-601C-P1 Transformador Elevador 13.8/115 Kv (FUTURO) 50,000 kVA 13,800 3 2,091.8 0.85 - - 4 1.0% - 15.00 30.00 0 20 0 20 XLPE 4 654 1000 2 2 - 1000 4 SW-601A-P Suiche A de 13.8Kv 50,000 kVA 13,800 3 2,091.8 0.85 - - 4 1.0% - 15.00 30.00 0 20 0 20 XLPE 4 654 1000 2 2 - 1000 5 SW-601B-P Suiche B de 13.8Kv 50,000 kVA 13,800 3 2,091.8 0.85 - - 4 1.0% - 15.00 30.00 0 20 0 20 XLPE 4 654 1000 2 2 - 1000 6 SW-601C-P Suiche C de 13.8Kv (FUTURO) 50,000 kVA 13,800 3 2,091.8 0.85 - - 4 1.0% - 15.00 30.00 0 20 0 20 XLPE 4 654 1000 2 2 - 1000 7 TP-602A-P1 Transformador Pad mounted A, Lado primario 400 kVA 13,800 3 16.7 0.85 - - 2 1.0% - 15.00 30.00 0 30 0 30 XLPE 1 21 2 2 3/0 - 2 8 TP-602B-P1 Transformador Pad mounted B, Lado primario 400 kVA 13,800 3 16.7 0.85 - - 2 1.0% - 15.00 30.00 0 30 0 30 XLPE 1 21 2 2 3/0 - 2 9 TP-602C-P1 Transformador Pad mounted, C Lado primario (FUTURO) 400 kVA 13,800 3 16.7 0.85 - - 2 1.0% - 15.00 30.00 0 30 0 30 XLPE 1 21 2 2 3/0 - 2
10 TP-602A-P2 Transformador Pad mounted A, Lado secundario 400 kVA 480 3 481.1 0.85 - - 2 1% - 0 10 0 10 XHHW 2 301 0.88 308 350 4 - - 35011 TP-602B-P2 Transformador Pad mounted B, Lado secundario 400 kVA 480 3 481.1 0.85 - - 2 1% - 0 10 0 10 XHHW 2 301 0.88 308 350 4 - - 35012 TP-602C-P2 Transformador Pad mounted C, Lado secundario (FUTURO) 400 kVA 480 3 481.1 0.85 - - 2 1% - 0 10 0 10 XHHW 2 301 0.88 308 350 4 - - 35013 PM-103A Bomba alimentación de gasoil del G1 15 HP 480 3 21.0 0.87 116 0.49 6 5% 15% 10 49 0 59 XHHW 1 26 0.80 32 10 12 - 12 1014 PM-103B Bomba alimentación de gasoil del G2 15 HP 480 3 21.0 0.87 116 0.49 6 5% 15% 10 46 0 56 XHHW 1 26 0.80 32 10 12 - 12 1015 PM-103C Bomba alimentación de gasoil del G3 15 HP 480 3 21.0 0.87 116 0.49 6 5% 15% 10 43 0 53 XHHW 1 26 0.80 32 10 12 - 12 10
NOTAS:(1)
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Se está indicando el tamaño mínimo para la tubería superficial, en bancadas serán de 2", 3, 4" y 6", para tubería superficial mínima de 21/2" se utilizará 3"; Reserva de Espacio = 15%
Archivo:document.xls - Hoja: SW-602Fecha: 04/20/2023 - Hora: 00:05:52
PÁGINA: 2 de 3
PROYECTO 7646 ELAB. POR: J.SNOMBRE: PLANTA DE GENERACION PALAVECINO REVISIÓN: J.R./E.SUBICACIÓN: BARQUSIMETO, EDO. LARA FECHA:CLIENTE: ENELBARDOCUMENTO No.:
CÁLCULOS DE ALIMENTADORES Y CANALIZACIONES
DATOS DE LA CARGA DATOS DEL CIRCUITOTENSIÓN LONGITUD CONDUCTOR CONDUCTOR
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CÓDIGO DESCRIPCIÓN No
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OBSERVACIONES
1 TP-604A-P1 Transformador Alimentador SW-601, Barra A, Lado Primario 5,000 kVA 24,000 3 120.3 0.85 - - 2 1.0% - 4.00 30.00 10 5 0 15 XLPE 1 150 1/0 1/0 1/0 - 1/02 TP-604B-P1 Transformador Alimentador SW-601, Barra B, Lado Primario 5,000 kVA 24,000 3 120.3 0.85 - - 2 1.0% - 4.00 30.00 10 5 0 15 XLPE 1 150 1/0 1/0 1/0 - 1/03 GD-601 Generador Diesel 3,125 kVA 4,160 3 433.7 0.80 - - 2 1.0% - 15.00 30.00 10 30 0 40 XLPE 1 542 750 2 3/0 - 750 4 TP-604A-P2 Transformador Alimentador SW-601, Barra A, Lado Secundario 5,000 kVA 4,160 3 693.9 0.85 - - 2 1.0% - 15.00 30.00 10 5 0 15 XLPE 2 434 500 6 1/0 - 500 5 TP-604B-P2 Transformador Alimentador SW-601, Barra B, Lado Secundario 5,000 kVA 4,160 3 693.9 0.85 - - 2 1.0% - 15.00 30.00 10 5 0 15 XLPE 2 434 500 6 1/0 - 500 6 TP-603A-P2 Transformador de tres arrollados del G1, Lado Secundario 1,250 kVA 690 3 1,045.9 0.85 - - 2 1% - 0 10 0 10 XHHW 3 436 0.88 471 750 6 - - 7507 TP-603B-P2 Transformador de tres arrollados del G2, Lado Secundario 1,250 kVA 690 3 1,045.9 0.85 - - 2 1% - 0 10 0 10 XHHW 3 436 0.88 471 750 6 - - 7508 TP-603C-P2 Transformador de tres arrollados del G3, Lado Secundario (RESPALDO) 1,250 kVA 690 3 1,045.9 0.85 - - 2 1% - 0 10 0 10 XHHW 3 436 0.88 471 750 6 - - 7509 CM-201A Compresor de gas del Generador 600 HP 4,160 3 76.0 0.89 494 0.17 6 5% 15% 15.00 30.00 10 70 0 80 XLPE 1 95 2 6 3/0 6 2
10 CM-201B Compresor de gas del Generador 600 HP 4,160 3 76.0 0.89 494 0.17 6 5% 15% 15.00 30.00 10 65 0 75 XLPE 1 95 2 6 3/0 6 211 CM-201C Compresor de gas del Generador 600 HP 4,160 3 76.0 0.89 494 0.17 6 5% 15% 15.00 30.00 10 60 0 70 XLPE 1 95 2 6 3/0 6 2
NOTAS:(1)
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Se está indicando el tamaño mínimo para la tubería superficial, en bancadas serán de 2", 3, 4" y 6", para tubería superficial mínima de 21/2" se utilizará 3"; Reserva de Espacio = 15%
Archivo:document.xls - Hoja: CCM-601Fecha: 04/20/2023 - Hora: 00:05:52
PÁGINA: 3 de 3
PROYECTO 7646 ELAB. POR: J.SNOMBRE: PLANTA DE GENERACION PALAVECINO REVISIÓN: J.R./E.SUBICACIÓN: BARQUSIMETO, EDO. LARA FECHA:CLIENTE: ENELBARDOCUMENTO No.:
CÁLCULOS DE ALIMENTADORES Y CANALIZACIONES
DATOS DE LA CARGA DATOS DEL CIRCUITOTENSIÓN LONGITUD CONDUCTOR CONDUCTOR
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CÓDIGO DESCRIPCIÓN No
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OBSERVACIONES
1 2,500 kVA 4,160 3 347.0 0.85 - - 2 1.0% - 15.00 30.00 10 75 0 85 XLPE 1 434 1 471 750 1/0 3/0 - 750 2 2,500 kVA 4,160 3 347.0 0.85 - - 2 1.0% - 15.00 30.00 10 115 0 125 XLPE 1 434 1 471 500 2/0 3/0 - 500 3 2,500 kVA 4,160 3 347.0 0.85 - - 2 1.0% - 15.00 30.00 10 150 0 160 XLPE 1 434 1 471 500 4/0 3/0 - 500 4 750 kVA 4,160 3 104.1 0.85 - - 2 1.0% - 15.00 30.00 10 12 0 22 XLPE 1 130 1 150 4/0 6 3/0 - 4/05 750 kVA 4,160 3 104.1 0.85 - - 2 1.0% - 15.00 30.00 10 12 0 22 XLPE 1 130 1 150 4/0 6 3/0 - 4/06 400 kVA 480 3 481.1 0.85 - - 2 3% - 10 90 0 100 XHHW 2 301 0.88 308 500 3/0 - - 5007 400 kVA 480 3 481.1 0.85 - - 2 3% - 10 125 0 135 XHHW 2 301 0.88 308 500 250 - - 5008 400 kVA 480 3 481.1 0.85 - - 2 3% - 10 160 0 170 XHHW 2 301 0.88 308 350 350 - - 3509 400 kVA 480 3 481.1 0.85 - - 2 1% - 0 5 0 5 XHHW 2 301 0.88 308 350 8 - - 350
10 400 kVA 480 3 481.1 0.85 - - 2 1% - 0 5 0 5 XHHW 2 301 0.88 308 350 8 - - 35011 400 kVA 480 3 481.1 0.85 - - 2 1% - 0 5 0 5 XHHW 2 301 0.88 308 350 8 - - 35012 750 kVA 480 3 902.1 0.85 - - 2 1% - 10 5 0 15 XHHW 3 376 0.88 378 500 1/0 - - 50013 750 kVA 480 3 902.1 0.85 - - 2 1% - 10 5 0 15 XHHW 3 376 0.88 378 500 1/0 - - 50014 12 kVA 480 3 14.4 0.85 - - 2 5% - 10 170 0 180 XHHW 1 18 0.96 29 12 10 - - 1015 6 kVA 480 3 7.2 0.85 - - 2 5% - 10 205 0 215 XHHW 1 9 0.96 29 12 12 - - 1216 AIRE ACONDICIONADO 20 TON. 37 kVA 208 3 103.9 0.80 - - 2 2% - 0 0 30 30 XHHW 1 130 0.88 150 1/0 2 - - 1/017 AIRE ACONDICIONADO 7.5 TON. 15 kVA 208 3 40.2 0.85 - - 2 2% - 0 0 30 30 XHHW 1 50 0.96 53 8 6 - - 618 7 kVA 480 3 8.4 0.85 - - 2 5% - 10 55 0 65 XHHW 1 11 0.96 29 12 12 - - 1219 10 kVA 480 3 12.0 0.85 - - 2 5% - 10 30 0 40 XHHW 1 15 0.96 29 12 12 - - 1220 50 kVA 480 3 60.1 0.90 - - 2 2% - 10 50 0 60 XHHW 1 75 0.95 91 4 4 - - 421 300 kVA 208 3 832.7 0.90 - - 2 2% - 0 0 16 16 XHHW 2 520 0.88 541 1000 3/0 - - 100022 75 kVA 480 3 90.2 0.85 - - 2 2% - 10 50 0 60 XHHW 1 113 0.93 121 2 4 - - 223 37 kVA 208 3 103.9 0.80 - - 2 2% - 0 30 0 30 XHHW 1 130 0.88 150 1/0 2 - - 1/024 15 kVA 480 3 18.0 0.85 - - 2 2% - 10 30 0 40 XHHW 1 23 0.96 29 12 12 - - 1225 15 kVA 208 3 41.6 0.85 - - 2 2% - 0 0 10 10 XHHW 1 52 0.96 53 8 12 - - 826 30 kVA 480 3 36.1 0.90 - - 2 2% - 10 30 0 40 XHHW 1 45 0.96 53 8 10 - - 827 225 kVA 208 3 624.5 0.90 - - 2 2% - 0 17 0 17 XHHW 2 390 0.88 471 750 1/0 - - 75028 5 kVA 480 3 6.0 0.90 - - 2 2% - 10 90 0 100 XHHW 1 8 0.96 29 12 12 - - 829 5 HP 208 3 13.9 0.90 - - 2 2% - 0 0 10 10 XHHW 1 17 0.96 29 12 12 - - 1230 10 HP 480 3 12.0 1.00 - - 2 2% - 25 0 0 25 XHHW 1 15 0.96 29 12 12 - - 1231 20 HP 480 3 27.0 0.85 145 0.46 6 5% 15% 10 80 0 90 XHHW 1 34 0.80 44 8 12 - 10 832 20 HP 480 3 27.0 0.85 145 0.46 6 5% 15% 10 77 0 87 XHHW 1 34 0.80 44 8 12 - 10 833 20 HP 480 3 27.0 0.85 145 0.46 6 5% 15% 10 75 0 85 XHHW 1 34 0.80 44 8 12 - 10 834 3 HP 480 3 4.8 0.85 32 0.67 6 5% 15% 10 70 0 80 XHHW 1 6 0.80 24 12 12 - 12 1235 3 HP 480 3 4.8 0.85 32 0.67 6 5% 15% 10 65 0 75 XHHW 1 6 0.80 24 12 12 - 12 1236 3 HP 480 3 4.8 0.85 32 0.67 6 5% 15% 10 60 0 70 XHHW 1 6 0.80 24 12 12 - 12 1237 5 HP 480 3 7.6 0.85 46 0.62 6 5% 15% 10 70 0 80 XHHW 1 10 0.80 24 12 12 - 12 1238 5 HP 480 3 7.6 0.85 46 0.62 6 5% 15% 10 65 0 75 XHHW 1 10 0.80 24 12 12 - 12 1239 5 HP 480 3 7.6 0.85 46 0.62 6 5% 15% 10 60 0 70 XHHW 1 10 0.80 24 12 12 - 12 1240 15 HP 480 3 21.0 0.85 116 0.49 6 5% 15% 10 49 0 59 XHHW 1 26 0.80 32 10 12 - 12 1041 15 HP 480 3 21.0 0.85 116 0.49 6 5% 15% 10 46 0 56 XHHW 1 26 0.80 32 10 12 - 12 1042 15 HP 480 3 21.0 0.85 116 0.49 6 5% 15% 10 43 0 53 XHHW 1 26 0.80 32 10 12 - 12 1043 15 HP 480 3 21.0 0.85 116 0.49 6 5% 15% 10 40 0 50 XHHW 1 26 0.80 32 10 12 - 12 1044 3 HP 480 3 4.8 0.85 32 0.67 6 5% 15% 10 52 0 62 XHHW 1 6 0.80 24 12 12 - 12 1245 76 HP 480 3 96.0 0.85 543 0.31 6 5% 15% 10 40 0 50 XHHW 1 120 0.71 121 1/0 8 - 8 1/046 76 HP 480 3 96.0 0.85 543 0.31 6 5% 15% 10 40 0 50 XHHW 1 120 0.71 121 1/0 8 - 8 1/047 50 HP 480 3 65.0 0.85 363 0.35 6 5% 15% 10 12 0 22 XHHW 1 81 0.72 93 2 12 - 12 248 10 HP 480 3 14.0 0.85 81 0.53 6 5% 15% 10 55 0 65 XHHW 1 18 0.80 24 12 12 - 12 1249 10 HP 480 3 14.0 0.85 81 0.53 6 5% 15% 10 37 0 47 XHHW 1 18 0.80 24 12 12 - 12 1250 15 HP 480 3 21.0 0.85 116 0.49 6 5% 15% 10 45 0 55 XHHW 1 26 0.80 32 10 12 - 12 1051 5 HP 480 3 7.6 0.85 46 0.62 6 5% 15% 10 40 0 50 XHHW 1 10 0.80 24 12 12 - 12 1252 200 HP 480 3 240.0 0.85 1,450 0.23 6 5% 15% 10 50 0 60 XHHW 1 300 0.62 330 250 2 - 2 250
NOTAS:(1)
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Se está indicando el tamaño mínimo para la tubería superficial, en bancadas serán de 2", 3, 4" y 6", para tubería superficial mínima de 21/2" se utilizará 3"; Reserva de Espacio = 15%
Archivo:document.xls - Hoja: BASE (INGLES)Fecha: 04/20/2023 - Hora: 00:05:52
PÁGINA: 4 de 25
PROJECT NUMBER : 7587 BY: J. VerdePROJECT: VALCOR REV. 3
CONVALVENLOCATION: PUERTO LA CRUZ, ANZOATEGUI STATE DATE: 16-Jan-2002CLIENT: PDVSADOCUMENT No.:
FEEDERS SIZE CALCULATION
LOAD DATA CIRCUIT DATAVOLTAGE ROUTING LENGHT CONDUCTOR
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REMARKS
1 PA/B/C-EM46031 PUMPAROUND AIR COOLER FAN 40 HP 480 3 52.0 0.85 290 0.37 6 5.0% 1.2811 20% 0.9189 - - 10 183 15 208 XHHW-2 1 65 1 73 4 4 - 6 1 4 8 71.23% 0.2007 3.77% 5 14 157.66 158.37 29.22 ### 1 1 1/22 PA/B/C-EM46041 STRIPPER WATER AIR COOLER FAN 5 HP 480 3 7.6 0.86 46 0.62 6 5.0% 6.5115 20% 4.3032 - - 10 255 15 280 XHHW-2 1 10 1 24 12 12 - 10 1 10 12 23.75% 0.9766 2.68% 5 14 47.08 158.37 12.57 ### 1 1 1/23 PA/B/C-EM46042 STRIPPER WATER AIR COOLER FAN 5 HP 480 3 7.6 0.86 46 0.62 6 5.0% 6.5115 20% 4.3032 - - 10 255 15 280 XHHW-2 1 10 1 24 12 12 - 10 1 10 12 23.75% 0.9766 2.68% 5 14 47.08 158.37 12.57 ### 1 1 1/24 PA/B/C-GM4601A FEED PUMP 30 HP 480 3 40.0 0.84 218 0.40 6 5.0% 1.2241 20% 0.8984 - - 10 270 3 283 XHHW-2 1 50 1 56 6 4 - 6 1 4 10 56.39% 0.2718 3.92% 5 14 157.66 158.37 15.90 ### 1 1 1/25 PA/B/C-GM4602A STRIPPER WATER PUMP 20 HP 480 3 27.0 0.87 145 0.46 6 5.0% 1.9078 20% 1.4210 - - 10 256 3 269 XHHW-2 1 34 1 44 8 6 - 6 1 6 10 45.00% 0.4041 3.94% 5 14 114.14 158.37 15.90 ### 1 1 1/26 PA/B/C-GM4603A PUMPAROUND PUMP 50 HP 480 3 65.0 0.85 363 0.35 6 5.0% 0.7351 20% 0.5265 - - 10 277 3 290 XHHW-2 1 81 1 93 2 2 - 2 1 2 8 69.89% 0.1820 4.27% 5 14 221.69 158.37 29.22 ### 1 1 1/27 PA/B/C-GM4604 CAUSTIC INJECTION PUMP 0.33 HP 120 3 5.8 0.63 38 6 5.0% 3.5427 20% 2.1802 - - 10 279 3 292 XHHW-2 1 7 1 24 12 10 - 12 1 10 12 18.12% 0.7711 6.46% 5 14 47.08 158.37 12.57 ### 1 1 1/28 PA/B/C-EM46032 PUMPAROUND AIR COOLER FAN 40 HP 480 3 52.0 0.85 290 0.37 6 5.0% 1.2811 20% 0.9189 - - 10 183 15 208 XHHW-2 1 65 1 73 4 4 - 6 1 4 8 71.23% 0.2007 3.77% 5 14 157.66 158.37 29.22 ### 1 1 1/29 PA/B/C-GM4601B FEED PUMP 30 HP 480 3 40.0 0.84 218 0.40 6 5.0% 1.2241 20% 0.8984 - - 10 270 3 283 XHHW-2 1 50 1 56 6 4 - 6 1 4 10 56.39% 0.2718 3.92% 5 14 157.66 158.37 15.90 ### 1 1 1/2
10 PA/B/C-GM4602B STRIPPER WATER PUMP 20 HP 480 3 27.0 0.87 145 0.46 6 5.0% 1.9078 20% 1.4210 - - 10 256 3 269 XHHW-2 1 34 1 44 8 6 - 6 1 6 10 45.00% 0.4041 3.94% 5 14 114.14 158.37 15.90 ### 1 1 1/211 PA/B/C-GM4603B PUMPAROUND PUMP 50 HP 480 3 65.0 0.85 363 0.35 6 5.0% 0.7351 20% 0.5265 - - 10 277 3 290 XHHW-2 1 81 1 93 2 2 - 2 1 2 8 69.89% 0.1820 4.27% 5 14 221.69 158.37 29.22 ### 1 1 1/212 PA/B/C-GM4606 SLOP OIL PUMP 7.5 HP 480 3 11.0 0.85 64 0.56 6 5.0% 4.4511 20% 3.0843 - - 10 270 3 283 XHHW-2 1 14 1 24 12 10 - 10 1 10 12 34.38% 0.9738 3.87% 5 14 47.08 158.37 12.57 ### 1 1 1/213 PA/B/C-EM47021 REGENERATOR CONDENSER FAN 30 HP 480 3 40.0 0.84 218 0.40 6 5.0% 1.5964 20% 1.1716 - - 10 183 24 217 XHHW-2 1 50 1 56 6 6 - 6 1 6 10 71.43% 0.3175 4.58% 5 14 114.14 158.37 15.90 ### 1 1 1/214 PA/B/C-EM47022 REGENERATOR CONDENSER FAN 30 HP 480 3 40.0 0.84 218 0.40 6 5.0% 1.5964 20% 1.1716 - - 10 183 24 217 XHHW-2 1 50 1 56 6 6 - 6 1 6 10 71.43% 0.3175 4.58% 5 14 114.14 158.37 15.90 ### 1 1 1/215 PA/B/C-EM47041 LEAN AMINE AIR COOLER FAN 30 HP 480 3 40.0 0.84 218 0.40 6 5.0% 1.5328 20% 1.1250 - - 10 201 15 226 XHHW-2 1 50 1 56 6 6 - 6 1 6 10 71.43% 0.3306 4.77% 5 14 114.14 158.37 15.90 ### 1 1 1/216 PA/B/C-EM47042 LEAN AMINE AIR COOLER FAN 30 HP 480 3 40.0 0.84 218 0.40 6 5.0% 1.5328 20% 1.1250 - - 10 201 15 226 XHHW-2 1 50 1 56 6 6 - 6 1 6 10 71.43% 0.3306 4.77% 5 14 114.14 158.37 15.90 ### 1 1 1/217 PA/B/C-EM47043 LEAN AMINE AIR COOLER FAN 30 HP 480 3 40.0 0.84 218 0.40 6 5.0% 1.5328 20% 1.1250 - - 10 201 15 226 XHHW-2 1 50 1 56 6 6 - 6 1 6 10 71.43% 0.3306 4.77% 5 14 114.14 158.37 15.90 ### 1 1 1/218 PA/B/C-GM4701A REFLUX PUMP 10 HP 480 3 14.0 0.85 81 0.53 6 5.0% 3.2882 20% 2.2733 - - 10 288 3 301 XHHW-2 1 18 1 24 12 8 - 8 1 8 12 31.82% 0.6899 3.49% 5 14 84.54 158.37 12.57 ### 1 1 1/219 PA/B/C-GM4706A REGENERATOR FEED PUMP 75 HP 480 3 96.0 0.86 543 0.31 6 5.0% 0.6973 20% 0.4931 - - 10 194 3 207 XHHW-2 1 120 1 121 1/0 2 - 2 1 1/0 6 79.34% 0.0891 3.09% 5 14 353.00 0.00 37.39 ### 1 1 1/220 PA/B/C-EM47044 LEAN AMINE AIR COOLER FAN 30 HP 480 3 40.0 0.84 218 0.40 6 5.0% 1.5328 20% 1.1250 - - 10 201 15 226 XHHW-2 1 50 1 56 6 6 - 6 1 6 10 71.43% 0.3306 4.77% 5 14 114.14 158.37 15.90 ### 1 1 1/221 PA/B/C-GM4701B REFLUX PUMP 10 HP 480 3 14.0 0.85 81 0.53 6 5.0% 3.3102 20% 2.2885 - - 10 286 3 299 XHHW-2 1 18 1 24 12 8 - 8 1 8 12 31.82% 0.6853 3.46% 5 14 84.54 158.37 12.57 ### 1 1 1/222 PA/B/C-GM4703 AMINE MARKUP PUMP 75 HP 480 3 96.0 0.86 543 0.31 6 5.0% 0.5488 20% 0.3881 - - 10 250 3 263 XHHW-2 1 120 1 121 1/0 1/0 - 1/0 1 1/0 6 79.34% 0.1132 3.92% 5 14 353.00 0.00 37.39 ### 1 1 1/223 PA/B/C-GM4704 HYDROCARBON SLOP PUMP 7.5 HP 480 3 11.0 0.85 64 0.56 6 5.0% 4.7896 20% 3.3188 - - 10 250 3 263 XHHW-2 1 14 1 24 12 10 - 10 1 10 12 34.38% 0.9050 3.59% 5 14 47.08 158.37 12.57 ### 1 1 1/224 PA/B/C-GM4706B REGENERATOR FEED PUMP 75 HP 480 3 96.0 0.86 543 0.31 6 5.0% 0.6776 20% 0.4792 - - 10 200 3 213 XHHW-2 1 120 1 121 1/0 2 - 2 1 1/0 6 79.34% 0.0917 3.17% 5 14 353.00 0.00 37.39 ### 1 1 1/225 PA/B/C-GM4802 AMINE CONDENSATE PUMP 7.5 HP 480 3 11.0 0.85 64 0.56 6 5.0% 7.1981 20% 4.9877 - - 10 162 3 175 XHHW-2 1 14 1 24 12 12 - 12 1 12 12 45.83% 0.9923 3.94% 5 14 35.11 158.37 12.57 ### 1 1 1/226 PA/B/C-GM4804 COMMON SPARE PUMP 7.5 HP 480 3 11.0 0.85 64 0.56 6 5.0% 7.0373 20% 4.8762 - - 10 166 3 179 XHHW-2 1 14 1 24 12 12 - 12 1 12 12 45.83% 1.0150 4.03% 5 14 35.11 158.37 12.57 ### 1 1 1/227 PA/B/C-GM4805A SULFUR PIT PUMP 10 HP 480 3 14.0 0.85 81 0.53 6 5.0% 6.8732 20% 4.7519 - - 10 131 3 144 XHHW-2 1 18 1 24 12 12 - 12 1 12 12 58.33% 0.8219 4.15% 5 14 35.11 158.37 12.57 ### 1 1 1/228 PA/B/C-GM4891A SULFUR TRANSFER PUMP 15 HP 480 3 21.0 0.87 116 0.49 6 5.0% 3.5097 20% 2.5415 - - 10 175 3 188 XHHW-2 1 26 1 32 10 10 - 10 1 10 10 65.63% 0.6611 5.01% 5 14 47.08 158.37 15.90 ### 1 1 1/229 PA/B/C-GM4951B INCINERATOR AIR BLOWER 100 HP 480 3 124.0 0.86 725 0.28 6 5.0% 1.0159 20% 0.6950 - - 10 97 3 110 XHHW-2 1 155 1 175 4/0 4 - 6 1 4/0 6 70.86% 0.0287 1.28% 5 14 618.36 0.00 37.39 ### 1 2 30 PA/B/C-GM4803 SWS CONDENSATE PUMP 7.5 HP 480 3 11.0 0.85 64 0.56 6 5.0% 7.1168 20% 4.9313 - - 10 164 3 177 XHHW-2 1 14 1 24 12 12 - 12 1 12 12 45.83% 1.0036 3.98% 5 14 35.11 158.37 12.57 ### 1 1 1/231 PA/B/C-GM4805B SULFUR PIT PUMP 10 HP 480 3 14.0 0.85 81 0.53 6 5.0% 6.8732 20% 4.7519 - - 10 131 3 144 XHHW-2 1 18 1 24 12 12 - 12 1 12 12 58.33% 0.8219 4.15% 5 14 35.11 158.37 12.57 ### 1 1 1/232 PA/B/C-GM4891B SULFUR TRANSFER PUMP 15 HP 480 3 21.0 0.87 116 0.49 6 5.0% 3.5097 20% 2.5415 - - 10 175 3 188 XHHW-2 1 26 1 32 10 10 - 10 1 10 10 65.63% 0.6611 5.01% 5 14 47.08 158.37 15.90 ### 1 1 1/233 PA/B/C-EM4902 TEMPERED WATER AIR COOLER 5 HP 480 3 7.6 0.86 46 0.62 6 5.0% 12.2363 20% 8.0866 - - 10 119 20 149 XHHW-2 1 10 1 24 12 12 - 12 1 12 12 31.67% 0.8569 2.35% 5 14 35.11 158.37 12.57 ### 1 1 1/234 PA/B/C-GM4901A SOLVENT CIRCULATION PUMP 150 HP 480 3 180.0 0.85 1,085 0.25 6 5.0% 0.4872 20% 0.3233 - - 10 145 3 158 XHHW-2 1 225 1 228 350 1/0 - 1/0 1 350 2 78.95% 0.0303 1.97% 5 14 999.87 0.00 43.24 ### 1 2 1/235 PA/B/C-GM4901B SOLVENT CIRCULATION PUMP 150 HP 480 3 180.0 0.85 1,085 0.25 6 5.0% 0.4999 20% 0.3317 - - 10 141 3 154 XHHW-2 1 225 1 228 350 1/0 - 1/0 1 350 2 78.95% 0.0296 1.92% 5 14 999.87 0.00 43.24 ### 1 2 1/236 PA/B/C-GM4901C SOLVENT CIRCULATION PUMP 150 HP 480 3 180.0 0.85 1,085 0.25 6 5.0% 0.5132 20% 0.3406 - - 10 137 3 150 XHHW-2 1 225 1 228 350 1/0 - 1/0 1 350 2 78.95% 0.0288 1.87% 5 14 999.87 0.00 43.24 ### 1 2 1/237 PA/B/C-GM4902A CATALYST MAKE-UP PUMP 1 HP 480 3 1.8 0.76 15 0.73 6 5.0% 64.1500 20% 30.7920 - - 10 107 3 120 XHHW-2 1 2 1 24 12 12 - 12 1 12 12 7.50% 0.6158 0.40% 5 14 35.11 158.37 12.57 ### 1 1 1/238 PA/B/C-GM4902B CATALYST MAKE-UP PUMP 1 HP 480 3 1.8 0.76 15 0.73 6 5.0% 63.0984 20% 30.2872 - - 10 109 3 122 XHHW-2 1 2 1 24 12 12 - 12 1 12 12 7.50% 0.6261 0.41% 5 14 35.11 158.37 12.57 ### 1 1 1/239 PA/B/C-GM4903 MULTIPURPOSE PUMP 1 HP 480 3 1.8 0.76 15 0.73 6 5.0% 66.9392 20% 32.1308 - - 10 102 3 115 XHHW-2 1 2 1 24 12 12 - 12 1 12 12 7.50% 0.5902 0.38% 5 14 35.11 158.37 12.57 ### 1 1 1/240 PA/B/C-GM4904 BLOW-DOWN PUMP 7.5 HP 480 3 11.0 0.85 64 0.56 6 5.0% 10.2412 20% 7.0963 - - 10 110 3 123 XHHW-2 1 14 1 24 12 12 - 12 1 12 12 45.83% 0.6974 2.77% 5 14 35.11 158.37 12.57 ### 1 1 1/241 PA/B/C-GM4905 TEMPERED WATER PUMP 7.5 HP 480 3 11.0 0.85 64 0.56 6 5.0% 8.5113 20% 5.8976 - - 10 135 3 148 XHHW-2 1 14 1 24 12 12 - 12 1 12 12 45.83% 0.8392 3.33% 5 14 35.11 158.37 12.57 ### 1 1 1/242 PA/B/C-GM4951A INCINERATOR AIR BLOWER 100 HP 480 3 124.0 0.86 725 0.28 6 5.0% 1.0542 20% 0.7212 - - 10 93 3 106 XHHW-2 1 155 1 175 4/0 4 - 6 1 4/0 6 70.86% 0.0276 1.24% 5 14 618.36 0.00 37.39 ### 1 2 43 PA/B/C-M4901 CATALYST DRUM MIXER 1 HP 480 3 1.8 0.76 15 0.73 6 5.0% 70.6239 20% 33.8995 - - 10 96 3 109 XHHW-2 1 2 1 24 12 12 - 12 1 12 12 7.50% 0.5594 0.36% 5 14 35.11 158.37 12.57 ### 1 1 1/244 PA/B/C-GM4702A-SH SPACE HEATER 1 kVA 120 1 8.3 0.85 - - 6 5.0% 1.8653 - - - - 10 180 3 193 XHHW-2 1 10 0.80 24 12 6 - - 2 6 12 13.89% 0.5702 3.96% - - 76.09 0.00 12.57 88.66 1 3/445 PA/B/C-GM4702B-SH SPACE HEATER 1 kVA 120 1 8.3 0.85 - - 6 5.0% 1.8090 - - - - 10 186 3 199 XHHW-2 1 10 0.80 24 12 6 - - 2 6 12 13.89% 0.5879 4.08% - - 76.09 0.00 12.57 88.66 1 3/446 PA/B/C-GM4801A-SH SPACE HEATER 1 kVA 120 1 8.3 0.85 - - 6 5.0% 2.4000 - - - - 10 137 3 150 XHHW-2 1 10 0.80 24 12 8 - - 2 8 12 18.94% 0.6863 4.77% - - 56.36 0.00 12.57 68.93 1 3/447 PA/B/C-GM4801B-SH SPACE HEATER 1 kVA 120 1 8.3 0.85 - - 6 5.0% 2.3377 - - - - 10 141 3 154 XHHW-2 1 10 0.80 24 12 8 - - 2 8 12 18.94% 0.7046 4.89% - - 56.36 0.00 12.57 68.93 1 3/448 PA/B/C-GM4801C-SH SPACE HEATER 1 kVA 120 1 8.3 0.85 - - 6 5.0% 2.2785 - - - - 10 145 3 158 XHHW-2 1 10 0.80 24 12 6 - - 2 6 12 13.89% 0.4668 3.24% - - 76.09 0.00 12.57 88.66 1 3/449 PA/B/C-UPS532SRG0301B UPS FOR DCS, ESD, BMS, CCS IN SCR-B (BYP) 60 kVA 480 3 72.2 0.85 - - 6 5.0% 5.6471 - - - - 12 21 1 34 XHHW-2 1 90 0.72 93 2 10 - - #N/A 2 8 77.60% 0.0214 0.56% - - 221.69 0.00 29.22 250.92 1 1 1/250 PA/B/C-UPS532SRG0302B UPS FOR F & G IN SCR-B (BYP) 7 kVA 480 3 8.4 0.85 - - 6 5.0% 48.4034 - - - - 12 21 1 34 XHHW-2 1 11 0.80 24 12 12 - - 3 12 12 35.08% 0.1936 0.59% - - 35.11 0.00 12.57 47.67 1 3/451 PA/B/C-47WO01/02 WELDING RECEPTACLE UNIT 47 55 kVA 480 3 66.2 0.85 - - 6 5.0% 0.8989 - - - - 10 220 3 233 XHHW-2 1 83 0.72 93 2 2 - - #N/A 2 8 71.13% 0.1464 3.50% - - 221.69 0.00 29.22 250.92 1 1 1/252 PA/B/C-48WO01/02 WELDING RECEPTACLE UNIT 48 55 kVA 480 3 66.2 0.85 - - 6 5.0% 1.5631 - - - - 10 121 3 134 XHHW-2 1 83 0.72 93 2 6 - - #N/A 2 8 71.13% 0.0842 2.01% - - 221.69 0.00 29.22 250.92 1 1 1/253 PA/B/C-CATHODPROD-1 CATHODIC PROTECTION RECTIFIER (EAST) 1.5 kVA 480 3 1.8 0.85 - - 6 5.0% 35.3917 - - - - 10 204 3 217 XHHW-2 1 2 0.80 24 12 12 - - 3 12 12 7.52% 1.2358 0.80% - - 35.11 0.00 12.57 47.67 1 3/454 PA/B/C-CATHODPROD-2 CATHODIC PROTECTION RECTIFIER (WEST) 1.5 kVA 480 3 1.8 0.85 - - 6 5.0% 56.4706 - - - - 10 123 3 136 XHHW-2 1 2 0.80 24 12 12 - - 3 12 12 7.52% 0.7745 0.50% - - 35.11 0.00 12.57 47.67 1 3/455 PA/B/C-IPP471D01 LIGHTING PROCESS AREA UNIT 47 30 kVA 480 3 36.1 0.85 - - 6 5.0% 1.8373 - - - - 10 196 3 209 XHHW-2 1 45 0.75 56 6 6 - - #N/A 6 10 64.44% 0.3087 4.02% - - 114.14 0.00 15.90 130.04 1 1 56 PA/B/C-IPP471D02 AUXILIARY SERVICE UNIT 47 30 kVA 480 3 36.1 0.85 - - 6 5.0% 1.8373 - - - - 10 196 3 209 XHHW-2 1 45 0.75 56 6 6 - - #N/A 6 10 64.44% 0.3087 4.02% - - 114.14 0.00 15.90 130.04 1 1 57 PA/B/C-IPP481D01 LIGTHING PROCESS AREA UNIT 48 30 kVA 480 3 36.1 0.85 - - 6 5.0% 2.9091 - - - - 10 119 3 132 XHHW-2 1 45 0.75 56 6 8 - - #N/A 6 10 64.44% 0.1950 2.54% - - 114.14 0.00 15.90 130.04 1 1 58 PA/B/C-IPP481D02 AUXILIARY SERVICE UNIT 48 30 kVA 480 3 36.1 0.85 - - 6 5.0% 2.9091 - - - - 10 119 3 132 XHHW-2 1 45 0.75 56 6 8 - - #N/A 6 10 64.44% 0.1950 2.54% - - 114.14 0.00 15.90 130.04 1 1 59 PA/B/C-IPP531D03 LIGHTING FOR SATELITE CONTROL ROOM "B" 15 kVA 480 3 18.0 0.85 - - 6 5.0% 22.5882 - - - - 12 21 1 34 XHHW-2 1 23 0.80 24 12 12 - - 3 12 12 75.18% 0.1936 1.26% - - 35.11 0.00 12.57 47.67 1 3/460 PA/B/C-IPP531D04 OUTLETS FOR SATELITE CONTROL ROOM "B" 15 kVA 480 3 18.0 0.85 - - 6 5.0% 22.5882 - - - - 12 21 1 34 XHHW-2 1 23 0.80 24 12 12 - - 3 12 12 75.18% 0.1936 1.26% - - 35.11 0.00 12.57 47.67 1 3/461 PA/B/C-PPL532D02 HVAC POWER DISTRIB. PANEL FOR SCR "B" 100 kVA 480 3 120.3 0.85 - - 6 5.0% 3.3882 - - - - 12 21 1 34 XHHW-2 1 150 0.68 154 3/0 8 - - 1 3/0 6 78.10% 0.0104 0.45% - - 511.23 0.00 37.39 548.62 1 2 62 PA/B/C-PPL532D03 HVAC POWER DIST. PANEL FOR OP. BLDG. "B" 35 kVA 480 3 42.1 0.85 - - 6 5.0% 5.7744 - - - - 10 46 1 57 XHHW-2 1 53 0.75 56 6 12 - - #N/A 6 10 75.18% 0.0842 1.28% - - 114.14 0.00 15.90 130.04 1 1 63 PA/B/C-UPS532SRG0301N UPS FOR DCS, ESD, BMS, CCS IN SCR-B (NOR) 60 kVA 480 3 72.2 0.85 - - 6 5.0% 5.6471 - - - - 12 21 1 34 XHHW-2 1 90 0.72 93 2 10 - - #N/A 2 8 77.60% 0.0214 0.56% - - 221.69 0.00 29.22 250.92 1 1 1/264 PA/B/C-UPS532SRG0302N UPS FOR F & G IN SCR-B (NOR) 7 kVA 480 3 8.4 0.85 - - 6 5.0% 48.4034 - - - - 12 21 1 34 XHHW-2 1 11 0.80 24 12 12 - - 3 12 12 35.08% 0.1936 0.59% - - 35.11 0.00 12.57 47.67 1 3/465 PX/X-UPS-HOLD UPS FOR DCS Remote I/O, AREAS 46 & 47 ### 120 1 1.7 1.00 - - 2 5.0% 8.2949 - - - - 20 196 1 217 XHHW-2 1 2 0.96 29 12 12 - - 2 12 12 5.77% 2.8478 3.96% - - 23.40 0.00 12.57 35.97 1 3/466 PX/X-UPS-HOLD UPS FOR UNITS 46 AND 47 MINOR INSTR. ### 120 1 2.5 1.00 - - 2 5.0% 5.5300 - - - - 20 196 1 217 XHHW-2 1 3 0.96 29 12 10 - - 2 10 12 6.49% 1.7087 3.56% - - 31.39 0.00 12.57 43.95 1 3/467 PX/X-UPS-HOLD UPS FOR DCS Remote I/O, AREAS 48 & 49 ### 120 1 2.5 1.00 - - 2 5.0% 8.1633 - - - - 20 126 1 147 XHHW-2 1 3 0.96 29 12 12 - - 2 12 12 8.65% 1.9291 4.02% - - 23.40 0.00 12.57 35.97 1 3/468 PX/X-UPS-HOLD UPS FOR No. 1 SRU H2S / SO2 Analyzer ### 120 1 3.3 1.00 - - 2 5.0% 4.5000 - - - - 20 179 1 200 XHHW-2 1 4 0.96 29 12 10 - - 2 10 12 8.65% 1.5748 4.37% - - 31.39 0.00 12.57 43.95 1 3/469 PX/X-UPS-HOLD UPS FOR No. 2 SRU H2S / SO2 Analyzer ### 120 1 3.3 1.00 - - 2 5.0% 5.2023 - - - - 20 152 1 173 XHHW-2 1 4 0.96 29 12 10 - - 2 10 12 8.65% 1.3622 3.78% - - 31.39 0.00 12.57 43.95 1 3/470 PX/X-UPS-HOLD UPS FOR SRU Air Blower-A L/P ### 120 1 2.5 1.00 - - 2 5.0% 7.5949 - - - - 20 137 1 158 XHHW-2 1 3 0.96 29 12 12 - - 2 12 12 8.65% 2.0735 4.32% - - 23.40 0.00 12.57 35.97 1 3/471 PX/X-UPS-HOLD UPS FOR SRU Air Blower-B L/P ### 120 1 2.5 1.00 - - 2 5.0% 7.4074 - - - - 20 141 1 162 XHHW-2 1 3 0.96 29 12 12 - - 2 12 12 8.65% 2.1260 4.43% - - 23.40 0.00 12.57 35.97 1 3/472 PX/X-UPS-HOLD UPS FOR SRU Air Blower-C L/P ### 120 1 2.5 1.00 - - 2 5.0% 7.2289 - - - - 20 145 1 166 XHHW-2 1 3 0.96 29 12 12 - - 2 12 12 8.65% 2.1785 4.54% - - 23.40 0.00 12.57 35.97 1 3/473 PX/X-UPS-HOLD UPS FOR No. 1 SRU BMS L/P ### 120 1 2.5 1.00 - - 2 5.0% 6.0000 - - - - 20 179 1 200 XHHW-2 1 3 0.96 29 12 10 - - 2 10 12 6.49% 1.5748 3.28% - - 31.39 0.00 12.57 43.95 1 3/474 PX/X-UPS-HOLD UPS FOR No. 2 SRU BMS L/P ### 120 1 2.5 1.00 - - 2 5.0% 6.9364 - - - - 20 152 1 173 XHHW-2 1 3 0.96 29 12 12 - - 2 12 12 8.65% 2.2703 4.73% - - 23.40 0.00 12.57 35.97 1 3/475 PX/X-UPS-HOLD UPS FOR UNIT 48 MINOR INSTR. ### 120 1 2.5 1.00 - - 2 5.0% 8.1633 - - - - 20 126 1 147 XHHW-2 1 3 0.96 29 12 12 - - 2 12 12 8.65% 1.9291 4.02% - - 23.40 0.00 12.57 35.97 1 3/476 PX/X-UPS-HOLD UPS FOR M-4971, Acid Gas Flare, L/P & Ignitor ### 120 1 4.2 1.00 - - 2 5.0% 6.7290 - - - - 20 86 1 107 XHHW-2 1 5 0.96 29 12 12 - - 2 12 12 14.41% 1.4042 4.88% - - 23.40 0.00 12.57 35.97 1 3/477 PX/X-UPS-HOLD UPS FOR AT-49309, B-4951 02 Analyzer ### 120 1 6.7 1.00 - - 2 5.0% 4.2056 - - - - 20 86 1 107 XHHW-2 1 8 0.96 29 12 10 - - 2 10 12 17.30% 0.8425 4.68% - - 31.39 0.00 12.57 43.95 1 3/478 PX/X-UPS-HOLD UPS FOR B-4951 BMS L/P ### 120 1 2.5 1.00 - - 2 5.0% 11.2150 - - - - 20 86 1 107 XHHW-2 1 3 0.96 29 12 12 - - 2 12 12 8.65% 1.4042 2.93% - - 23.40 0.00 12.57 35.97 1 3/4
-
NOTES:(1)
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The minimum size is indicated for above ground conduit. For under ground conduit it will be of 2", 4" and 6". For above ground raceways, size 3" will be considered instead of 2 1/2". Reserves of Space = 15%
MOTDAT
Page 5
POTENCIA TENSIÓN (V) COS Ø EFI. COS Ø F FACTOR VEL. ANG.
MÍNIMA NOMINAL NOMINAL SERVICIO A % A arranque DE DEM. RPM
0.00001 1/6 115 120 4.40 0.610 40% 29 0.00 0.00 1,800
0.18 1/4 115 120 5.80 0.630 44% 38 0.00 0.80 1,800
0.26 1/3 115 120 7.20 0.650 46% 47 1,800
0.34 1/2 460 480 1.00 0.750 62% 7 0.650 0.78 0.80 1,800
0.51 3/4 460 480 1.40 0.680 74% 9 0.640 0.78 0.80 1,800
0.76 1 460 480 1.80 0.760 68% 15 0.730 0.78 0.80 1,800
1.05 1 1/2 460 480 2.60 0.760 71% 20 0.677 0.78 0.80 1,800
1.55 2 460 480 3.40 0.769 72% 25 0.649 0.78 0.80 1,800
2.05 3 460 480 4.80 0.840 70% 32 0.667 0.68 0.80 1,800
3.05 5 460 480 7.60 0.859 72% 46 0.619 0.67 0.80 1,800
5.20 7 1/2 460 480 11.00 0.846 75% 64 0.561 0.56 0.80 1,800
7.80 10 460 480 14.00 0.852 78% 81 0.532 0.53 0.80 1,800
10.40 15 460 480 21.00 0.867 77% 116 0.493 0.53 0.80 1,800
15.60 20 460 480 27.00 0.870 80% 145 0.461 0.48 0.80 1,800
20.80 25 460 480 34.00 0.838 82% 183 0.420 0.40 0.80 1,800
26.00 30 460 480 40.00 0.839 84% 218 0.401 0.38 0.87 1,800
31.20 40 460 480 52.00 0.845 85% 290 0.372 0.37 0.87 1,800
41.60 50 460 480 65.00 0.848 85% 363 0.350 0.38 0.87 1,800
52.00 60 460 480 77.00 0.844 86% 435 0.329 0.33 0.87 1,800
62.40 75 460 480 96.00 0.856 85% 543 0.310 0.38 0.87 1,800
78.00 100 460 480 124.00 0.858 88% 725 0.280 0.39 0.87 1,800
104.00 125 460 480 156.00 0.850 88% 908 0.257 0.40 0.91 1,800
130.00 150 460 480 180.00 0.853 91% 1,085 0.247 0.40 0.91 1,800
In Iarr
MOTDAT
Page 6
POTENCIA TENSIÓN (V) COS Ø EFI. COS Ø F FACTOR VEL. ANG.
MÍNIMA NOMINAL NOMINAL SERVICIO A % A arranque DE DEM. RPM
In Iarr
156.00 200 460 480 240.00 0.857 87% 1,450 0.228 1,800
201.00 200 4,000 4,160 28.00 0.818 94% 182 0.217 1,200
208.00 250 4,000 4,160 34.00 0.852 93% 221 0.212 0.28 0.91 3,600
260.00 300 4,000 4,160 41.00 0.854 92% 267 0.203 0.27 0.91 3,600
312.00 350 4,000 4,160 46.00 0.864 95% 299 0.195 0.27 0.91 3,600
364.00 400 4,000 4,160 52.00 0.883 94% 338 0.193 0.25 0.91 3,600
416.00 450 4,000 4,160 59.00 0.866 95% 384 0.183 0.23 0.91 3,600
468.00 500 4,000 4,160 64.00 0.883 95% 416 0.181 0.22 0.91 3,600
520.00 600 4,000 4,160 76.00 0.886 96% 494 0.173 0.21 0.91 3,600
624.00 700 4,000 4,160 90.00 0.877 95% 585 0.164 0.20 0.91 3,600
728.00 800 4,000 4,160 104.00 0.885 94% 676 0.159 0.19 0.91 3,600
832.00 900 4,000 4,160 114.00 0.900 94% 741 0.156 0.19 0.91 3,600
936.00 1,000 4,000 4,160 126.00 0.900 95% 819 0.152 0.18 0.91 3,600
1,040.00 1,250 4,000 4,160 156.00 0.907 95% 1,014 0.144 0.18 0.91 3,600
1,300.00 1,500 4,000 4,160 185.00 0.916 95% 1,203 0.138 0.18 0.91 3,600
1,560.00 1,750 4,000 4,160 223.00 0.891 95% 1,450 0.128 0.18 0.91 3,600
1,820.00 2,000 4,000 4,160 254.00 0.894 95% 1,651 0.124 0.18 0.91 3,600
2,080.00 2,250 4,000 4,160 274.00 0.930 95% 1,781 0.124 0.18 0.91 3,600
2,340.00 2,500 4,000 4,160 305.00 0.930 95% 1,983 0.121 0.18 0.91 3,600
2,600.00 3,500 4,000 4,160 441.00 0.900 95% 2,867 0.112 0.18 0.91 3,600
3,640.00 4,000 4,000 4,160 504.00 0.900 95% 3,276 0.103 0.18 0.91 3,600
4,160.00 4,500 4,000 4,160 580.00 0.880 95% 3,770 0.095 0.18 0.91 3,6004,680.00 6,000 4,000 4,160 734.00 0.931 95% 4,771 0.095 0.18 0.91 3,6006,060.00 8,000 13,200 13,800 296.00 0.932 95% 1,924 0.088 0.18 0.91 3,6008,080.00 9,000 13,200 13,800 333.00 0.932 95% 2,165 0.085 0.18 0.91 3,600
MOTDAT
Page 7
POTENCIA TENSIÓN (V) COS Ø EFI. COS Ø F FACTOR VEL. ANG.
MÍNIMA NOMINAL NOMINAL SERVICIO A % A arranque DE DEM. RPM
In Iarr
DATOS DE CABLES DE COBRE EN DUCTOS SUBTERRÁNEOS
RHO=90, FC=100%, Tcond. = 90 °C, Tde la tierra = 20 °CCALIBRE CAPACIDAD AWG o 1 DUCTO 2 DUCTOS (1) 3 DUCTOS 4 DUCTOS (2) 6 DUCTOS
MCM A Mínima Nominal Fred. Mínima A Fred. Mínima Nominal Fred. Mínima Nominal Fred.12 1 30 1 29 0.96 1 28 0.93 1 26 0.87 1 24 0.8010 31 40 30 39 0.96 28 37 0.93 27 35 0.87 25 32 0.808 41 55 39 53 0.96 38 51 0.93 35 48 0.87 33 44 0.806 56 75 54 71 0.95 52 67 0.89 49 63 0.84 45 56 0.754 76 95 72 91 0.95 68 86 0.91 64 81 0.85 57 73 0.772 96 130 91 121 0.93 87 112 0.86 81 105 0.81 74 93 0.721 - 150 - 132 0.88 - 128 0.85 - 120 0.80 - 106 0.71
1/0 131 170 122 150 0.88 113 146 0.86 106 137 0.81 94 121 0.712/0 171 195 150 172 0.88 147 166 0.85 138 156 0.80 122 136 0.703/0 196 225 172 198 0.88 167 189 0.84 157 178 0.79 137 154 0.684/0 226 260 199 229 0.88 190 215 0.83 178 202 0.78 155 175 0.67250 261 290 229 255 0.88 216 236 0.81 203 222 0.76 176 192 0.66300 - 320 - 282 0.88 - 260 0.81 - 244 0.76 - 210 0.66350 291 350 256 308 0.88 237 283 0.81 222 266 0.76 193 228 0.65400 351 380 309 334 0.88 284 302 0.79 267 284 0.75 229 243 0.64500 381 430 335 378 0.88 303 341 0.79 284 321 0.75 244 273 0.63600 - 475 - 418 0.88 - 371 0.78 - 349 0.73 - 296 0.62700 - 520 - 458 0.88 - 402 0.77 - 378 0.73 - 319 0.61750 431 535 379 471 0.88 342 417 0.78 321 392 0.73 274 330 0.621000 536 615 471 541 0.88 418 472 0.77 393 444 0.72 331 372 0.60
NOTAS: (1) NOTA 310,15(b)(5) - 1 DEL CEN(2) NOTA 310,15(b)(5) - 2 DEL CEN(3) Las capacidades mínima (en rojo) son para evitar que se seleccione un calibre menor cuando la capacidad de la carga es ligeramente mayor al del calibre inmediato inferior
TABLA 4 DEL CEN CONDUCTORES DE PUESTA A TIERRADIMENSIONES Y ÁREA PORCENTUAL DE LAS TUBERÍAS TABLA 250-95 DEL CENTUBO DE PVC-RIGIDO, SCH. 40 CALIBRE MÍNIMO CARACTERÍSTICAS
DÁMETRO TAMAÑO CAP. DEL CALIBRE CALIBRE2 COND. > 2 COND. INTERIOR COMERCIAL INTERRUP. CABLE (Cu)CAB. (Cu)
31% 40% Mínima mm Pulgadas De 4 a 6 80 A AWG/ MCM56 73 - 15.2 1/2 De 7 a 9 70 20 12 12101 131 12 20.4 3/4 De 10 a 20 50 21 10 10166 214 137 26.1 1 De 21 a 30 45 30 10 8397 513 225 40.4 1 1/2 De 31 a 40 40 31 10 6658 849 538 52 2 41 y más 35 40 10 4939 1,212 892 62.1 2 1/2 50 10 2
TABLA 310-16 DEL CEN (EXTRAPOL.) NO MAS DE TRES CABLES ACTIVOS POR DUCTO
Mínima (3)
FACTORES DE AJUSTE DE CAPACIDAD DE CORRIENTE
ÁREA - mm2 Número de conductores activos
Porcentaje del valor dado por las tablas
AWG/ MCM
1,455 1,877 1,272 77.3 3 60 10 1/02,508 3,237 1,971 101.5 4 61 8 2/03,952 5,099 3,398 127.4 5 70 8 3/05,714 7,373 5,354 153.2 6 90 8 4/0
100 8 250101 6 350125 6 400150 6 500175 6 750176 6200 6201 2225 2250 2300 2350 2351 2400 2 Calibre # 3 según tabla 250-95 del CEN
- 1- 1- 1
401 1/0800 1/0
1,000 2/01,200 3/01,600 4/02,000 2502,500 3503,000 4004,000 5005,000 7006,000 800
CODIGO ELECTRICO NACIONAL ALCAVETABLA 310-16 DEL CEN TABLA 5 TABLA 3/B-9 TABLA 9 DEL CENTcond. = 90 °C THWN-2, 90 °C XHHW-2, 90 °C XHHW, (XLP-90 °C)
CAPACIDADCALIBRE DIÁMETRO ÁREA DIÁMETRO ÁREA DIÁMETRO ÁREA CALIBRE CALIBRE IMPEDANCIA AWG o CABLE TOTAL CABLE TOTAL CABLE TOTAL AWG o AWG o RESISTENCIA
Mínima Nominal MCM mm mm mm MCM MCM Ohms/1000'1 30 12 3.30 8.55 3.86 11.7 4.0 12.6 12 1000 0.015
31 40 10 4.16 13.59 4.47 15.7 4.5 15.9 10 750 0.01941.6 55 8 5.48 23.59 5.99 28.2 6.1 29.2 8 700 0.02155.6 75 6 6.45 32.67 6.96 38.0 6.9 37.4 6 600 0.02375.6 95 4 8.23 53.20 8.18 52.6 8.1 51.5 4 500 0.02795.6 130 2 9.75 74.66 9.70 73.9 9.6 72.4 2 400 0.033
- 150 1 11.33 100.82 11.22 98.9 11.0 95.0 1 350 0.038130.6 170 1/0 12.34 119.60 12.24 117.7 12.1 115.0 1/0 300 0.044170.6 195 2/0 13.51 143.35 13.41 141.2 13.2 136.8 2/0 250 0.052195.6 225 3/0 14.83 172.73 14.73 170.4 14.4 162.9 3/0 4/0 0.062225.6 260 4/0 16.30 208.67 16.20 206.1 15.8 196.1 4/0 3/0 0.077260.6 290 250 18.06 256.17 17.90 251.6 17.5 240.5 250 2/0 0.100
- 320 300 19.45 297.12 19.30 292.6 18.8 277.6 300 1/0 0.120290.6 350 350 20.75 338.16 20.60 333.3 20.0 314.2 350 1 0.150350.6 380 400 21.94 378.06 21.79 372.9 - - 400 2 0.190380.6 430 500 24.10 456.17 23.95 450.5 23.6 437.4 500 4 0.310
- 475 600 26.69 559.48 26.74 561.6 26.0 530.9 600 6 0.490- 520 700 28.50 637.94 28.55 640.2 - - 700 8 0.780
430.6 535 750 29.36 677.02 29.41 679.3 28.5 637.9 750 10 1.200535.6 615 1000 33.27 869.35 33.32 872.0 33.8 897.3 1000 12 2.000
CONDUCTORES DE PUESTA A TIERRA
CARACTERÍSTICAS
CALIBRE ÁREACAB. (Cu) DIÁMETRO TOTAL
TIPO mmXHHW 4 12.6XHHW 4.5 15.9XHHW 6.1 29.2XHHW 6.9 37.4
"A" DESNUDO 5.89 27.2"A" DESNUDO 7.42 43.2
mm2 mm2 mm2
mm2
"A" DESNUDO 9.35 68.7"A" DESNUDO 10.5 86.6"A" DESNUDO 11.8 109.4"A" DESNUDO 13.3 138.9"A" DESNUDO 14.6 167.4"A" DESNUDO 17.2 232.4"A" DESNUDO 18.4 265.9"A" DESNUDO 20.7 336.5"A" DESNUDO 25.4 506.7
Calibre # 3 según tabla 250-95 del CEN
IMPEDANCIA IMPEDANCIA IMPEDANCIA EFECTIVA (r.cosø + x.senø) Ohms/kmREACTANCIA RESISTENCIA REACTANCIA cos ø= cos ø= cos ø= cos ø= cos ø= cos ø= cos ø= cos ø=
Ohms/1000' Ohms/km Ohms/km 0.2 0.25 0.3 0.35 0.4 0.45 0.5 0.550.046 0.0492 0.1509 0.1577 0.1584 0.1587 0.1586 0.1580 0.1569 0.1553 0.15310.048 0.0623 0.1575 0.1668 0.1681 0.1689 0.1693 0.1693 0.1687 0.1675 0.16580.048 0.0689 0.1575 0.1681 0.1697 0.1709 0.1716 0.1719 0.1716 0.1708 0.16940.048 0.0755 0.1575 0.1694 0.1713 0.1729 0.1739 0.1745 0.1746 0.1741 0.17300.048 0.0886 0.1575 0.1720 0.1746 0.1768 0.1785 0.1798 0.1805 0.1807 0.18020.049 0.1083 0.1608 0.1792 0.1827 0.1858 0.1885 0.1906 0.1923 0.1934 0.19380.050 0.1247 0.1640 0.1857 0.1900 0.1939 0.1973 0.2002 0.2026 0.2044 0.20560.051 0.1444 0.1673 0.1928 0.1981 0.2029 0.2073 0.2111 0.2144 0.2171 0.21910.052 0.1706 0.1706 0.2013 0.2078 0.2139 0.2195 0.2246 0.2291 0.2330 0.23630.051 0.2034 0.1673 0.2046 0.2129 0.2206 0.2279 0.2347 0.2410 0.2466 0.25160.052 0.2526 0.1706 0.2177 0.2283 0.2385 0.2482 0.2574 0.2660 0.2741 0.28140.054 0.3281 0.1772 0.2392 0.2536 0.2674 0.2808 0.2936 0.3059 0.3175 0.32840.055 0.3937 0.1804 0.2555 0.2731 0.2902 0.3068 0.3229 0.3383 0.3531 0.36720.057 0.4921 0.1870 - - - - - - - -0.057 0.6234 0.1870 0.3079 0.3369 0.3654 0.3934 0.4207 0.4475 0.4736 0.49900.060 1.0171 0.1969 0.3963 0.4449 0.4929 0.5404 0.5872 0.6335 0.6790 0.72380.064 1.6076 0.2100 0.5273 0.6052 0.6826 0.7594 0.8355 0.9109 0.9856 1.05950.065 2.5591 0.2133 0.7208 0.8462 0.9711 1.0954 1.2191 1.3420 1.4642 1.58560.063 3.9370 0.2067 0.9899 1.1844 1.3783 1.5716 1.7642 1.9562 2.1475 2.33800.068 6.5617 0.2231 1.5309 1.8564 2.1813 2.5056 2.8291 3.1520 3.4740 3.7952
IMPEDANCIA EFECTIVA (r.cosø + x.senø) Ohms/km CALIBREcos ø= cos ø= cos ø= cos ø= cos ø= cos ø= cos ø= cos ø= cos ø= AWG o
0.6 0.65 0.7 0.75 0.8 0.85 0.9 0.95 1 MCM0.1503 0.1467 0.1422 0.1367 0.1299 0.1213 0.1101 0.0939 0.0492 10000.1634 0.1602 0.1561 0.1509 0.1444 0.1359 0.1247 0.1084 0.0623 7500.1673 0.1645 0.1607 0.1558 0.1496 0.1415 0.1307 0.1146 0.0689 7000.1713 0.1687 0.1653 0.1608 0.1549 0.1471 0.1366 0.1209 0.0755 6000.1791 0.1773 0.1745 0.1706 0.1654 0.1583 0.1484 0.1333 0.0886 5000.1936 0.1925 0.1906 0.1875 0.1831 0.1767 0.1675 0.1531 0.1083 4000.2060 0.2057 0.2044 0.2020 0.1982 0.1924 0.1837 0.1697 0.1247 3500.2205 0.2210 0.2205 0.2189 0.2159 0.2108 0.2029 0.1894 0.1444 3000.2388 0.2405 0.2413 0.2408 0.2388 0.2349 0.2279 0.2153 0.1706 2500.2559 0.2594 0.2619 0.2632 0.2631 0.2610 0.2560 0.2455 0.2034 4/00.2881 0.2939 0.2987 0.3023 0.3045 0.3046 0.3017 0.2933 0.2526 3/00.3386 0.3479 0.3562 0.3632 0.3688 0.3722 0.3725 0.3670 0.3281 2/00.3806 0.3930 0.4045 0.4146 0.4232 0.4297 0.4330 0.4304 0.3937 1/0
- - - - - - - - - 10.5236 0.5473 0.5699 0.5912 0.6109 0.6284 0.6425 0.6506 0.6234 20.7677 0.8107 0.8525 0.8930 0.9318 0.9682 1.0012 1.0277 1.0171 41.1325 1.2045 1.2753 1.3446 1.4121 1.4771 1.5384 1.5928 1.6076 61.7060 1.8254 1.9436 2.0603 2.1752 2.2875 2.3961 2.4977 2.5591 82.5276 2.7161 2.9035 3.0895 3.2736 3.4553 3.6334 3.8047 3.9370 104.1155 4.4346 4.7525 5.0688 5.3832 5.6950 6.0028 6.3033 6.5617 12
TRES CABLES MONOPOLARES DE COBRE CON PANTALLA, GENKENE O EPR DE 5 kVINSTALACIÓN EN DUCTOS SUBTERRÁNEOSTABLA AT-4 DE CABEL, FACTOR DE CARGA = 100%CALIBRE CAPACIDAD
1 DUCTO2 DUCTOS 3 DUCTOS 4 DUCTOS 6 DUCTOS 9 DUCTOS
Mínima Nominal Mínima Nominal Mínima Nominal Mínima Nominal Mínima
6 90 - 84 - 77 - 71 - 64 -4 117 84.0 108 77.5 99 71.0 91 64.5 82 59.52 151 108.5 139 99.5 127 91.0 116 82.5 104 75.5
1/0 198 139.5 181 127.5 164 116.0 149 104.5 134 95.52/0 225 181.5 205 164.5 185 149.5 168 134.5 151 122.53/0 256 205.5 233 185.5 210 168.5 190 151.5 170 137.54/0 292 233.5 265 210.5 237 190.5 215 170.5 192 155.5250 320 265.0 290 237.5 259 215.0 234 192.5 209 174.5300 353 290.0 319 259.5 284 234.5 256 209.5 228 189.5350 386 319.0 348 284.5 309 256.5 278 228.5 247 207.5400 412 348.0 371 309.5 329 278.5 296 247.5 262 224.5500 465 371.0 417 329.5 368 296.0 330 262.5 292 237.5750 565 417.0 502 368.5 439 330.5 391 292.5 343 264.5
1000 706 502.5 585 439.5 463 391.5 413 343.5 363 307.5
TRES CABLES MONOPOLARES DE COBRE CON PANTALLA, GENKENE O EPR DE 15 kVINSTALACIÓN EN DUCTOS SUBTERRÁNEOSTABLA AT-10 DE CABEL, FACTOR DE CARGA = 100%CALIBRE CAPACIDAD
1 DUCTO2 DUCTOS 3 DUCTOS 4 DUCTOS 6 DUCTOS 9 DUCTOS
Mínima Nominal Mínima Nominal Mínima Nominal Mínima Nominal Mínima
2 155 - 142 - 128 - 117 - 105 -1/0 201 142.0 183 128.5 165 117.0 149 105.5 133 95.52/0 228 183.5 207 165.5 186 149.5 168 133.5 150 121.53/0 260 207.5 235 186.5 210 168.5 190 150.5 169 136.54/0 295 235.5 267 210.5 238 190.0 214 169.5 190 153.5
AWG o MCM
AWG o MCM
250 323 267.0 291 238.5 259 214.5 233 190.5 207 172.5300 355 291.5 320 259.5 284 233.5 255 207.5 226 187.5350 387 320.0 348 284.5 308 255.5 276 226.5 244 204.5400 413 348.0 370 308.5 327 276.5 293 244.5 259 220.5500 465 370.5 416 327.5 366 293.5 327 259.5 288 233.5750 565 416.0 502 366.5 439 327.5 391 288.5 343 259.5
1000 706 502.5 596 439.5 555 391.5 498 343.5 434 307.5
TABLA 310-69 DEL CEN CAPACIDAD DE CORRIENTE EN CABLES MONOPOLARES INSTALADOS AL AIRE LIBRETcond. = 90 °C, Tamb = 40 °CCALIBRE CAPACIDAD CAPACIDAD
AWG o 2001-5000 V 5001-15000 VMCM Mínima Nominal Mínima Nominal
2 1 190 1 1951 191 225 196 225
1/0 226 260 226 2602/0 261 300 261 3003/0 301 345 301 3454/0 346 400 346 400250 401 445 401 445300 - - - -350 446 550 446 550400 - - - -500 551 695 551 685600 - - - -700 - - - -750 696 900 686 885
1000 901 1075 886 1060
EXELENE 5 kV TABLAS No. 4.02/4.03/4.04 DE ICONELCAPACIDAD CALIBRE DIÁMETRO ÁREA CALIBRE CALIBRE IMPEDANCIA DE CABLES EXELENE DE 5, 15 kV Y 35 kV.
9 DUCTOS EXTERNO TOTAL RESISTENCIA REACTANCIA 0.01 0.05 0.1
Nominal mm Ohms/km Ohms/km Nominal Nominal Nominal
59 6 15.21 181.7 6 1000 0.0611 0.2411 0.2417 0.2439 0.246075 4 16.42 211.8 4 750 0.0611 0.2411 0.2417 0.2439 0.246095 2 17.96 253.3 2 500 0.0899 0.2568 0.2577 0.2610 0.2645
122 1/0 20.21 320.8 1/0 400 0.1117 0.2653 0.2664 0.2706 0.2751137 2/0 21.35 358 2/0 350 0.1274 0.2703 0.2716 0.2763 0.2817155 3/0 23.67 440 3/0 300 0.1484 0.2761 0.2776 0.2832 0.2896174 4/0 25.17 497.6 4/0 250 0.1777 0.2829 0.2847 0.2914 0.2993189 250 26.37 546.1 250 4/0 0.2098 0.2905 0.2926 0.3006 0.3100207 300 27.77 605.7 300 3/0 0.2643 0.2993 0.3019 0.3121 0.3242224 350 29.07 663.7 350 2/0 0.3330 0.3080 0.3113 0.3243 0.3398237 400 30.27 719.6 400 1/0 0.4196 0.3167 0.3209 0.3373 0.3571264 500 32.91 850.6 500 2 0.6671 0.3384 0.3451 0.3713 0.4034307 750 41.91 1380 750 4 1.0604 0.3559 0.3665 0.4085 0.4602326 1000 41 1320 1000 6 1.6858 0.3733 0.3901 0.4571 0.5400
NOTA:
EXELENE 15 kVCAPACIDAD CALIBRE DIÁMETRO ÁREA CALIBRE
9 DUCTOS EXTERNO TOTAL
Nominal mm
95 2 23.58 436.7 2121 1/0 25.63 515.9 1/0136 2/0 26.77 562.8 2/0153 3/0 28.07 618.8 3/0172 4/0 29.57 686.7 4/0
AWG o MCM
AWG o MCM
AWG o MCMmm2
Se está asumiendo que la variación de la reactancia entre los cables de 5, 15 y 35 kV es del orden de las milesimas y por eso se consideran iguales. Debe calcularse para hacer un cálculo mas preciso.
AWG o MCM
AWG o MCMmm2
187 250 30.77 743.6 250204 300 32.6 834.7 300220 350 33.9 902.6 350233 400 35.1 967.6 400259 500 37.3 1093 500307 750 41.91 1380 750370 1000 41 1320 1000
0 1000TABLA DE BURNDYCONDUCTOR DE COBRE TRENZADO CONCENTRICO TIPO BAREA DEL CONDUCTORCALIBRE
MÍNIMA NOMINALCM CM
1.0000 26,250 626,513 41,740 442,157 66,370 267,034 105,500 1/0
106,555 133,100 2/0134,431 167,800 3/0169,478 211,600 4/0213,716 250,000 250252,500 300,000 300303,000 350,000 350353,500 400,000 400404,000 500,000 500505,000 600,000 600606,000 750,000 750
AWG o MCM
IMPEDANCIA DE CABLES EXELENE DE 5, 15 kV Y 35 kV.0.15 0.2 0.25 cos ø= 0.75 cos ø= 0.8 cos ø= 0.85 cos ø= 0.9 cos ø=
Nominal Nominal Nominal Máxima Nominal Máxima Nominal Máxima Nominal Máxima Nominal Máxima
0.2475 0.2484 0.2487 0.2052 0.2053 0.1935 0.1935 0.1789 0.1789 0.1600 0.1601 0.13330.2475 0.2484 0.2487 0.2372 0.2053 0.2259 0.1935 0.2116 0.1789 0.1928 0.1601 0.16550.2674 0.2696 0.2711 0.2592 0.2373 0.2485 0.2260 0.2347 0.2117 0.2161 0.1928 0.18890.2791 0.2823 0.2848 0.2743 0.2593 0.2641 0.2485 0.2506 0.2347 0.2324 0.2162 0.20540.2864 0.2903 0.2936 0.2939 0.2743 0.2843 0.2641 0.2715 0.2507 0.2539 0.2325 0.22710.2952 0.3002 0.3044 0.3203 0.2939 0.3118 0.2844 0.3000 0.2716 0.2832 0.2539 0.25710.3064 0.3127 0.3183 0.3494 0.3204 0.3421 0.3119 0.3313 0.3001 0.3154 0.2832 0.29000.3187 0.3266 0.3337 0.3961 0.3495 0.3910 0.3421 0.3823 0.3314 0.3683 0.3154 0.34450.3356 0.3461 0.3559 0.4534 0.3962 0.4512 0.3910 0.4452 0.3823 0.4339 0.3683 0.41250.3545 0.3684 0.3815 0.5241 0.4535 0.5257 0.4512 0.5234 0.4453 0.5156 0.4340 0.49750.3761 0.3942 0.4115 0.7241 0.5242 0.7367 0.5257 0.7452 0.5235 0.7478 0.5157 0.73940.4346 0.4650 0.4944 1.0307 0.7242 1.0618 0.7367 1.0888 0.7453 1.1094 0.7479 1.11850.5109 0.5608 0.6097 1.5112 1.0307 1.5726 1.0619 1.6295 1.0888 1.6799 1.1095 1.71800.6219 0.7029 0.7829 1.5113 1.5113 1.5726 1.5726 1.6296 1.6296 1.6799 1.6799 1.7181
Se está asumiendo que la variación de la reactancia entre los cables de 5, 15 y 35 kV es del orden de las milesimas y por eso se consideran iguales. Debe calcularse para hacer un cálculo mas preciso.
CALIBRE0.95 cos ø= 1
Nominal Máxima Nominal
0.1333 0.0611 0.0611 10000.1333 0.0899 0.0611 7500.1656 0.1117 0.0899 5000.1890 0.1274 0.1117 4000.2054 0.1484 0.1274 3500.2272 0.1777 0.1484 3000.2572 0.2098 0.1777 2500.2900 0.2643 0.2098 4/00.3445 0.3330 0.2643 3/00.4125 0.4196 0.3330 2/00.4975 0.6671 0.4196 1/00.7394 1.0604 0.6671 21.1185 1.6857 1.0604 41.7181 1.6858 1.6858 6
AWG o MCM
TRES CABLES MONOPOLARES DE COBRE CON PANTALLA, GENKENE DE 25 y 35 kV, 90° C.INSTALACIÓN EN DUCTOS SUBTERRÁNEOSTABLA AT-30 DE CABEL, FACTOR DE CARGA = 100%CALIBRE CAPACIDAD
1 DUCTO2 DUCTOS 3 DUCTOS 4 DUCTOS
Mínima Nominal Mínima Nominal Mínima Nominal
1/0 170 - 155 - 140 - 1252/0 195 155.5 175 140.5 155 125.5 1404/0 250 175.5 225 155.5 200 140.5 180250 275 225.5 248 200.5 220 180.5 198350 330 248.0 295 220.5 260 198.0 233500 390 295.5 350 260.5 310 233.0 278750 475 350.5 423 310.5 370 278.0 333
TABLA 310-69 DEL CEN CAPACIDAD DE CORRIENTE EN CABLES MONOPOLARES INSTALADOS AL AIRE LIBRETcond. = 90 °C, Tamb = 40 °CCALIBRE CAPACIDAD
AWG o 15001-35000 VMCM Mínima Nominal
2 - -1 1 225
1/0 226 2602/0 261 3003/0 301 3454/0 346 395250 396 440300 - -350 441 545400 - -500 546 680600 - -700 - -750 681 870
1000 871 1040
AWG o MCM
GENKENE 35 kVCAPACIDAD CALIBRE DIÁMETRO ÁREA CALIBRE
6 DUCTOS 9 DUCTOS EXTERNO TOTAL
Mínima Nominal Mínima Nominal mm
- 110 - 86 1/0 34.7 946 1/0110.5 125 86.9 101 2/0 35.8 1,007 2/0125.5 160 101.3 128 4/0 38.4 1,158 4/0160.5 175 128.5 139 250 40.1 1,263 250175.5 205 139.7 162 350 42.6 1,425 350205.5 245 162.1 194 500 47.3 1,757 500245.5 295 194.1 235 750 52.1 2,132 750
AWG o MCM
AWG o MCMmm2
TABLA No. 7.1.0301 DE CABELCONDUCTOR DE COBRE TRENZADO CONCENTRICO TIPO BAREA DEL CONDUCTOR CALIBRE
MÍNIMA NOMINAL
CM CM
1.0000 105,500 1/0106,555 133,100 2/0134,431 211,600 4/0213,716 250,000 250252,500 350,000 350353,500 500,000 500505,000 750,000 750
AWG o MCM
Factor de Disminución de Capacidad de Cables en BancadasNúmeros de Columnas
1 2 3 4 5 6 7 8 9 10
1 1.00 0.88 0.80 0.74 0.65 0.64 0.62 0.59 0.58 0.57
2 0.87 0.73 0.64 0.57 0.52 0.48 0.45 0.43 0.42 0.41
3 0.76 0.60 0.53 0.47 0.43 0.40 0.38 0.36 0.35 0.34
Datos tomados de la Tabla 5 del Procedimiento 440 265 1501 de Tecnofluor
Variación de la Tabla colocando la configuración de la bancada
2x1 2x2 2x3 3x1 3x2 3x3 4x1 4x2 4x3 5x1 5x2 5x3 6x1 6x2 6x3 7x2 7x3 8x2 8x3 9x2 9x3 10x2 10x30.88 0.73 0.60 0.80 0.64 0.53 0.74 0.57 0.47 0.65 0.52 0.43 0.64 0.48 0.40 0.45 0.38 0.43 0.36 0.42 0.35 0.41 0.34
Números
de Filas
CABLE DE CONTROL PVC-PVCTABLA No 3.03 DE ICONEL
CARACTERÍSTICASCalibre 14 AWG
Diametro Áreamm mm2
- 0 02 10.6 88.23 11.2 98.54 12.3 118.85 14.2 158.46 15.5 188.77 15.5 188.78 16.8 221.79 18.0 254.5
10 19.6 301.7
CONDUCTORES
POR CABLE
Página 25 de 25
PROYECTONOMBRE: PUERTO LA CRUZ REFINERY VALCOR PROJECTUBICACIÓN: PUERTO LA CRUZ, ANZOÁTEGUI STATECLIENTE: PDVSADOCUMENTO No.: S/N
ALIMENTADORES Y CANALIZACIONESTAG DESDE HASTA CAPACIDAD TENSION CORRIENTE FACTOR POR FACTOR DE CAPACIDAD DE No. COND. CALIBRE DEL TIPO DE LONGITUD IMPEDANCIA DEL CABLE CAIDA DE
CABLE EQUIPO UBICACIÓN EQUIPO UBICACIÓN KVA KW HP KV F. DE P. EFICIENCIA NOMINAL TEMPERATURA SOBRECARGA CORRIENTE POR FASE ALIMENTADOR CABLE KM ARCOS (FP) SEN (ARCOS (FP)) INDUCTANCIA RESISTENCIA AC TENSIÓNA A X (OHM/Km) R (OHM/Km) (% V)
XFR- 0.900 #DIV/0! 0.88 1.20 #DIV/0! 1 0.45 0.44 #DIV/0!0.900 #DIV/0! 0.88 1.20 #DIV/0! 1 0.45 0.44 #DIV/0!0.900 #DIV/0! 0.88 1.20 #DIV/0! 1 0.45 0.44 #DIV/0!0.900 #DIV/0! 0.88 1.20 #DIV/0! 1 0.45 0.44 #DIV/0!0.900 #DIV/0! 0.88 1.20 #DIV/0! 1 0.45 0.44 #DIV/0!0.900 #DIV/0! 0.88 1.20 #DIV/0! 1 0.45 0.44 #DIV/0!0.900 #DIV/0! 0.88 1.20 #DIV/0! 1 0.45 0.44 #DIV/0!0.900 #DIV/0! 0.88 1.20 #DIV/0! 1 0.45 0.44 #DIV/0!0.900 #DIV/0! 0.88 1.20 #DIV/0! 1 0.45 0.44 #DIV/0!0.900 #DIV/0! 0.88 1.20 #DIV/0! 1 0.45 0.44 #DIV/0!0.900 #DIV/0! 0.88 1.20 #DIV/0! 1 0.45 0.44 #DIV/0!0.900 #DIV/0! 0.88 1.20 #DIV/0! 1 0.45 0.44 #DIV/0!