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Tensão de Transmissão kW a transmitir Comprimento da LT em km Nível de Tensão a Usar 10000 365 99.3507674857 20000 365 113.5586852689 100 30 24.3495379833 567 24 24.9326593046 100 50 31.1126983722 100 60 33.9933817088 100 70 36.6483287477 100 80 39.1235223363 100 90 41.4511760991 100 100 43.6548966326 100 110 45.7525955548 300 20 21.5835585574 300 40 28.9991379182 300 60 34.8719084651 300 80 39.8892216018 300 100 44.3424176156 300 120 48.3874983854 300 140 52.1195740581 300 160 55.6017086068 500 100 45.0194402453 500 150 54.4472221514 1000 50 35.2171833059 1000 100 46.6690475583 1000 150 55.818903608 1000 200 63.6671029653 1500 50 37.3028149072 1500 100 48.2623041307 1500 150 57.1576766498 Pot.Transm. entre duas barras Cabo R (ohms) X (ohms) V Emis (kV) V Recep (kV) Dif. Ang.Emis./Recep. MW E-R MW R-E Mvar E-R Mvar R-E 954 16.104876 116.466 238 230 15 123.7559405873 -119.3353432648 15.2503407992 16.7181939333 795 19.17972 88.966336 238 230 15 160.9038536801 -152.1174907653 7.6785157077 33.0775805909 636 23.78644 90.86472 238 230 15 156.0842667414 -145.8536764883 0.6221471122 38.4589309636 477 31.7184 110.0232 238 230 15 128.008135233 -118.8286599183 -2.6448327956 34.4861377936 336 45.07836 115.2624 238 230 15 117.7034165632 -106.5366212854 -13.3318125957 41.8845732557 266 56.4748 108.5836 238 230 15 116.9075427185 -102.6022614078 -26.0915075995 53.5961458405 4/0 83.4732 111.8404 238 230 15 97.5123904694 -81.2496425914 -39.0775694936 60.8669848722 3/0 101.2204 114.3892 238 230 15 85.8174344803 -69.3550580638 -42.9870545133 61.5911903237 2/0 125.1744 116.9852 238 230 15 72.5357817593 -56.3552234544 -45.3937993123 60.5157879091 1/0 128.7852 126.6376 238 230 15 69.87740301 -54.8980284745 -41.2985957819 56.028176826 1 191.3724 119.2036 238 230 15 47.413631129 -33.1285661044 -44.4989925886 53.3969902997 2 239.74768 123.9 238 230 15 36.5102396951 -24.0194211244 -40.2261904294 46.6813620536 4 369.943924 131.06732 238 230 15 21.1074391373 -11.9945061301 -30.8188844565 34.0475027121 Cabo R (ohms/km) X (ohms/km) Compr. (km) R (total) X (total) 954 0.068241 0.4935 236 16.104876 116.466 795 0.08127 0.376976 236 19.17972 88.966336 636 0.10079 0.38502 236 23.78644 90.86472 477 0.1344 0.4662 236 31.7184 110.0232 336 0.19101 0.4884 236 45.07836 115.2624 266 0.2393 0.4601 236 56.4748 108.5836 4/0 0.3537 0.4739 236 83.4732 111.8404 3/0 0.4289 0.4847 236 101.2204 114.3892 2/0 0.5304 0.4957 236 125.1744 116.9852 1/0 0.5457 0.5366 236 128.7852 126.6376 1 0.8109 0.5051 236 191.3724 119.2036 2 1.01588 0.525 236 239.74768 123.9 4 1.567559 0.55537 236 369.943924 131.06732 954 MCM CENTRAIS ELÉTRICAS MATOGROSSENSES S.A. DIRETORIA DE PRODUÇÃO E TRANSMISSÃO DEPARTAMENTOS : DOS / PEE AUTOR: ENG. DIRCEU - DOS/PEE 1 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) PARA VARIOS NIVEIS DE TENSÃO TIPO DE CABO TENSÃO EM KV R (Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C ( nF/km) Mvar/KM SIL DA LT MVA (80o Celsius) # 954,0 MCM 13.8 0.068241 0.4935 80 3.5833333333 25.913673598 286.667 2073.094 8.4872745694 0.0006093513 0.485 24.14 # 954,0 MCM 34.5 0.068241 0.4935 80 0.5733333333 4.1461877757 45.867 331.695 8.4872745694 0.0038084459 3.031 60.35 # 954,0 MCM 69 0.068241 0.4935 80 0.1433333333 1.0365469439 11.467 82.924 8.4872745694 0.0152337837 12.123 120.71 # 954,0 MCM 138 0.068241 0.4935 80 0.0358333333 0.259136736 2.867 20.731 8.4872745694 0.0609351347 48.492 241.41 # 954,0 MCM 230 0.068241 0.4935 80 0.0129 0.093289225 1.032 7.463 8.4872745694 0.1692642629 134.700 402.36 # 954,0 MCM 345 0.068241 0.4935 80 0.0057333333 0.0414618778 0.459 3.317 8.4872745694 0.3808445916 303.075 603.53 # 954,0 MCM 500 0.068241 0.4935 80 0.00272964 0.01974 0.218 1.579 8.4872745694 0.7999256282 636.577 874.69 # 954,0 MCM 765 0.068241 0.4935 80 0.0011660643 0.0084326541 0.093 0.675 8.4872745694 1.872545903 1490.164 1338.27 # 954,0 MCM 1000 0.068241 0.4935 80 0.00068241 0.004935 0.055 0.395 8.4872745694 3.1997025127 2546.310 1749.37 2 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) EM FUNÇÃO DO COMPRIMENTO TIPO DE CABO TENSÃO EM KV R (Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C (nF/km) Mvar Efeito Ferranti ( R=0) # 954,0 MCM 230 0.068241 0.366976 200 0.0129 0.0693716446 2.58 13.874 11.4134711807 45.5244559595 1.032 Mvar MVA (80o Celsius) 45.524 402.36 3) CÁLCULO DA QUEDA DE TENSÃO EM FUNCÃO DA CARGA 3.1) LINHA COM COMPRIMENTO DE 40 KM R (pu) X ( pu) MW CARGA MVAR CARGA Z (PU) S (PU) ANG. F.POT. COS (Z - S) V EMISSOR TERMO B TERMO C V RECEPT. V RECEPT. PERDAS (MW) CONSUMO REATIVO LT 0.026 0.139 1 0.5 0.141 0.0111803399 26.5650511771 0.603 1.05 -1.1005965671 0.0000024894 0.999 0.0015039565 0.000 0.002 0.026 0.139 2 1 0.141 0.0223606798 26.5650511771 0.603 1.05 -1.0986931342 0.0000099577 0.998 0.0030105278 0.001 0.007 0.026 0.139 3 1.5 0.141 0.0335410197 26.5650511771 0.603 1.05 -1.0967897013 0.0000224048 0.997 0.0045197343 0.003 0.016 0.026 0.139 4 2 0.141 0.0447213595 26.5650511771 0.603 1.05 -1.0948862684 0.0000398307 0.997 0.006031597 0.005 0.028 0.026 0.139 5 2.5 0.141 0.0559016994 26.5650511771 0.603 1.05 -1.0929828355 0.0000622354 0.996 0.0075461369 0.008 0.043 0.026 0.139 6 3 0.141 0.0670820393 26.5650511771 0.603 1.05 -1.0910794026 0.000089619 0.995 0.0090633754 0.012 0.062 0.026 0.139 7 3.5 0.141 0.0782623792 26.5650511771 0.603 1.05 -1.0891759698 0.0001219815 0.994 0.0105833341 0.016 0.085 0.026 0.139 8 4 0.141 0.0894427191 26.5650511771 0.603 1.05 -1.0872725369 0.0001593227 0.993 0.0121060349 0.021 0.111 0.026 0.139 9 4.5 0.141 0.100623059 26.5650511771 0.603 1.05 -1.085369104 0.0002016428 0.992 0.0136314999 0.026 0.140 0.026 0.139 10 5 0.141 0.1118033989 26.5650511771 0.603 1.05 -1.0834656711 0.0002489418 0.991 0.0151597515 0.032 0.173 0.026 0.139 11 5.5 0.141 0.1229837388 26.5650511771 0.603 1.05 -1.0815622382 0.0003012195 0.990 0.0166908123 0.039 0.210 0.026 0.139 12 6 0.141 0.1341640786 26.5650511771 0.603 1.05 -1.0796588053 0.0003584761 0.989 0.0182247053 0.046 0.250 0.026 0.139 13 6.5 0.141 0.1453444185 26.5650511771 0.603 1.05 -1.0777553724 0.0004207116 0.989 0.0197614537 0.055 0.293 0.026 0.139 14 7 0.141 0.1565247584 26.5650511771 0.603 1.05 -1.0758519395 0.0004879258 0.988 0.0213010811 0.063 0.340 795 MCM CENTRAIS ELÉTRICAS MATOGROSSENSES S.A. DIRETORIA DE PRODUÇÃO E TRANSMISSÃO DEPARTAMENTOS : DOS / PEE AUTOR: ENG. DIRCEU - DOS/PEE 1 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) PARA VARIOS NIVEIS DE TENSÃO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C ( nf/km) MVAr/KM SIL DA LT MVA (80o Celsius) # 795,0 MCM 13.8 0.081 0.377 20 4.2674858223 19.7950010502 85.350 395.900 11.111 0.001 0.635 21.51 # 795,0 MCM 34.5 0.081 0.377 20 0.6827977316 3.167200168 13.656 63.344 11.111 0.005 3.968 53.78 # 795,0 MCM 69 0.081 0.377 20 0.1706994329 0.791800042 3.414 15.836 11.111 0.020 15.870 107.56 # 795,0 MCM 138 0.081 0.377 20 0.0426748582 0.1979500105 0.853 3.959 11.111 0.080 63.481 215.12 # 795,0 MCM 230 0.081 0.377 20 0.015362949 0.0712620038 0.307 1.425 11.111 0.222 176.336 358.53 # 795,0 MCM 345 0.081 0.377 20 0.0068279773 0.0316720017 0.137 0.633 11.111 0.499 396.755 537.80 # 795,0 MCM 500 0.081 0.377 20 0.0032508 0.01507904 0.065 0.302 11.111 1.047 833.345 779.42 # 795,0 MCM 765 0.081 0.377 20 0.0013886967 0.0064415567 0.028 0.129 11.111 2.451 1950.777 1192.52 # 795,0 MCM 1000 0.081 0.377 20 0.0008127 0.00376976 0.016 0.075 11.111 4.189 3333.379 1558.85 2 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) EM FUNÇÃO DO COMPRIMENTO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C (nF/km) Mvar Efeito Ferranti ( R=0) # 795,0 MCM 230 0.081 0.377 219 0.015362949 0.0712620038 3.364 15.606 11.111 48.527 1.039 Mvar MVA (80o Celsius) 48.527 358.5345171668 3) CÁLCULO DA QUEDA DE TENSÃO EM FUNCÃO DA CARGA 3.1) LINHA COM COMPRIMENTO DE 20 KM R (pu) X ( pu) MW CARGA MVAR CARGA Z (PU) S (PU) ANG. F.POT. COS ( Z - S) V EMISSOR TERMO B TERMO C V RECEPT. V RECEPT. PERDAS (MW) CONSUMO REATIVO LT 0.034 0.156 90 10 0.160 0.906 6.340 0.317 1.05 -1.0107264975 0.0209000636 0.946 0.145 2.759 12.797 0.034 0.156 6 0.01 0.160 0.060 0.095 0.212 1.05 -1.0984314043 0.0000917566 0.998 0.009 0.012 0.056 0.034 0.156 9 0.01 0.160 0.090 0.064 0.212 1.05 -1.0964127128 0.0002064521 0.997 0.014 0.027 0.126 0.034 0.156 12 0.01 0.160 0.120 0.048 0.212 1.05 -1.0943940213 0.0003670258 0.996 0.018 0.048 0.225 0.034 0.156 15 0.01 0.160 0.150 0.038 0.211 1.05 -1.0923753298 0.0005734776 0.995 0.023 0.076 0.351 0.034 0.156 18 0.01 0.160 0.180 0.032 0.211 1.05 -1.0903566383 0.0008258076 0.994 0.028 0.109 0.506 0.034 0.156 21 0.01 0.160 0.210 0.027 0.211 1.05 -1.0883379468 0.0011240159 0.993 0.032 0.148 0.688 0.034 0.156 24 0.01 0.160 0.240 0.024 0.211 1.05 -1.0863192553 0.0014681023 0.992 0.037 0.194 0.899 0.034 0.156 27 0.01 0.160 0.270 0.021 0.211 1.05 -1.0843005638 0.0018580669 0.991 0.041 0.245 1.138 0.034 0.156 39 0.01 0.160 0.390 0.015 0.211 1.05 -1.0762257978 0.0038767072 0.986 0.060 0.512 2.374 0.034 0.156 51 0.01 0.160 0.510 0.011 0.211 1.05 -1.0681510319 0.0066293985 0.981 0.079 0.875 4.059 0.034 0.156 63 0.01 0.160 0.630 0.009 0.211 1.05 -1.0600762659 0.0101161408 0.976 0.098 1.335 6.194 0.034 0.156 75 0.01 0.160 0.750 0.008 0.211 1.05 -1.0520014999 0.0143369342 0.970 0.118 1.893 8.779 0.034 0.156 80 0.01 0.160 0.800 0.007 0.211 1.05 -1.0486370141 0.0163122451 0.967 0.126 2.153 9.988 636 MCM CENTRAIS ELÉTRICAS MATOGROSSENSES S.A. DIRETORIA DE PRODUÇÃO E TRANSMISSÃO DEPARTAMENTOS : DOS / PEE AUTOR: ENG. DIRCEU - DOS/PEE 1 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) PARA VARIOS NIVEIS DE TENSÃO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C ( nf/km) MVAr/KM SIL DA LT MVA (80o Celsius) # 636,0 MCM 13.8 0.101 0.385 20 5.2924805713 20.2173913043 105.850 404.348 10.879 0.001 0.622 18.40 # 636,0 MCM 34.5 0.101 0.385 20 0.8467968914 3.2347826087 16.936 64.696 10.879 0.005 3.885 46.01 # 636,0 MCM 69 0.101 0.385 20 0.2116992229 0.8086956522 4.234 16.174 10.879 0.020 15.539 92.02 # 636,0 MCM 138 0.101 0.385 20 0.0529248057 0.202173913 1.058 4.043 10.879 0.078 62.155 184.05 # 636,0 MCM 230 0.101 0.385 20 0.0190529301 0.0727826087 0.381 1.456 10.879 0.217 172.652 306.75 # 636,0 MCM 345 0.101 0.385 20 0.0084679689 0.0323478261 0.169 0.647 10.879 0.488 388.466 460.12 # 636,0 MCM 500 0.101 0.385 20 0.0040316 0.0154008 0.081 0.308 10.879 1.025 815.934 666.84 # 636,0 MCM 765 0.101 0.385 20 0.0017222436 0.0065790081 0.034 0.132 10.879 2.400 1910.020 1020.26 # 636,0 MCM 1000 0.101 0.385 20 0.0010079 0.0038502 0.020 0.077 10.879 4.101 3263.737 1333.68 2 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) EM FUNÇÃO DO COMPRIMENTO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C (nF/km) Mvar Efeito Ferranti ( R=0) # 636,0 MCM 230 0.101 0.385 180 0.0190529301 0.0727826087 3.430 13.101 10.879 39.052 1.026 Mvar MVA (80o Celsius) 39.052 306.75 3) CÁLCULO DA QUEDA DE TENSÃO EM FUNCÃO DA CARGA 3.1) LINHA COM COMPRIMENTO DE 20 KM R (pu) X ( pu) MW CARGA MVAR CARGA Z (PU) S (PU) ANG. F.POT. COS (Z - S) V EMISSOR TERMO B TERMO C V RECEPT. V RECEPT. PERDAS (MW) CONSUMO REATIVO LT 0.034 0.131 90 10 0.135 0.906 6.340 0.359 1.05 -1.0145667675 0.0150383442 0.951 0.123 2.812 10.743 0.034 0.131 6 0.01 0.135 0.060 0.095 0.255 1.05 -1.0983583654 0.0000660222 0.998 0.008 0.012 0.047 0.034 0.131 9 0.01 0.135 0.090 0.064 0.254 1.05 -1.0963006489 0.0001485497 0.997 0.012 0.028 0.106 0.034 0.131 12 0.01 0.135 0.120 0.048 0.254 1.05 -1.0942429325 0.0002640882 0.996 0.016 0.049 0.189 0.034 0.131 15 0.01 0.135 0.150 0.038 0.254 1.05 -1.092185216 0.0004126377 0.995 0.019 0.077 0.295 0.034 0.131 18 0.01 0.135 0.180 0.032 0.254 1.05 -1.0901274996 0.0005941982 0.994 0.023 0.111 0.424 0.034 0.131 21 0.01 0.135 0.210 0.027 0.254 1.05 -1.0880697831 0.0008087697 0.993 0.027 0.151 0.578 0.034 0.131 24 0.01 0.135 0.240 0.024 0.254 1.05 -1.0860120667 0.0010563522 0.992 0.031 0.198 0.755 0.034 0.131 27 0.01 0.135 0.270 0.021 0.254 1.05 -1.0839543502 0.0013369457 0.991 0.035 0.250 0.955 0.034 0.131 39 0.01 0.135 0.390 0.015 0.253 1.05 -1.0757234845 0.0027894296 0.986 0.051 0.522 1.993 0.034 0.131 51 0.01 0.135 0.510 0.011 0.253 1.05 -1.0674926187 0.0047700896 0.982 0.067 0.892 3.408 0.034 0.131 63 0.01 0.135 0.630 0.009 0.253 1.05 -1.0592617529 0.0072789256 0.977 0.083 1.361 5.200 0.034 0.131 75 0.01 0.135 0.750 0.008 0.253 1.05 -1.0510308871 0.0103159375 0.971 0.100 1.929 7.369 0.034 0.131 80 0.01 0.135 0.800 0.007 0.253 1.05 -1.0476013597 0.0117372444 0.969 0.106 2.195 8.385 556 MCM CENTRAIS ELÉTRICAS MATOGROSSENSES S.A. DIRETORIA DE PRODUÇÃO E TRANSMISSÃO DEPARTAMENTOS : DOS / PEE AUTOR: ENG. DIRCEU - DOS/PEE 1 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) PARA VARIOS NIVEIS DE TENSÃO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C ( nf/km) MVAr/KM SIL DA LT MVA (80o Celsius) # 556,0 MCM 13.8 0.116 0.465 20 6.0701533291 24.4381432472 121.403 488.763 9.000 0.001 0.514 17.45 # 556,0 MCM 34.5 0.116 0.465 20 0.9712245327 3.9101029196 19.424 78.202 9.000 0.004 3.214 43.62 # 556,0 MCM 69 0.116 0.465 20 0.2428061332 0.9775257299 4.856 19.551 9.000 0.016 12.855 87.24 # 556,0 MCM 138 0.116 0.465 20 0.0607015333 0.2443814325 1.214 4.888 9.000 0.065 51.420 174.49 # 556,0 MCM 230 0.116 0.465 20 0.021852552 0.0879773157 0.437 1.760 9.000 0.179 142.833 290.81 # 556,0 MCM 345 0.116 0.465 20 0.0097122453 0.0391010292 0.194 0.782 9.000 0.404 321.374 436.22 # 556,0 MCM 500 0.116 0.465 20 0.004624 0.018616 0.092 0.372 9.000 0.848 675.013 632.20 # 556,0 MCM 765 0.116 0.465 20 0.0019753086 0.0079524969 0.040 0.159 9.000 1.986 1580.137 967.26 # 556,0 MCM 1000 0.116 0.465 20 0.001156 0.004654 0.023 0.093 9.000 3.393 2700.051 1264.40 2 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) EM FUNÇÃO DO COMPRIMENTO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C (nF/km) Mvar Efeito Ferranti ( R=0) # 556,0 MCM 138 0.116 0.465 200 0.0607015333 0.2443814325 12.140 48.876 9.000 12.923 1.032 Mvar MVA (80o Celsius) 12.923 174.49 3) CÁLCULO DA QUEDA DE TENSÃO EM FUNCÃO DA CARGA 3.1) LINHA COM COMPRIMENTO DE 20 KM R (pu) X ( pu) MW CARGA MVAR CARGA Z (PU) S (PU) ANG. F.POT. COS ( Z - S) V EMISSOR TERMO B TERMO C V RECEPT. V RECEPT. PERDAS (MW) CONSUMO REATIVO LT 0.121 0.489 4 2 0.504 0.045 26.565 0.650 1.05 -1.0732372401 0.0005072557 0.986 0.022 0.024 0.098 0.121 0.489 6 0.01 0.504 0.060 0.095 0.243 1.05 -1.0878338794 0.0009130628 0.993 0.029 0.044 0.176 0.121 0.489 9 0.01 0.504 0.090 0.064 0.242 1.05 -1.0805496954 0.0020543881 0.989 0.044 0.098 0.396 0.121 0.489 12 0.01 0.504 0.120 0.048 0.242 1.05 -1.0732655114 0.0036522435 0.985 0.058 0.175 0.704 0.121 0.489 15 0.01 0.504 0.150 0.038 0.242 1.05 -1.0659813275 0.005706629 0.981 0.073 0.273 1.100 0.121 0.489 18 0.01 0.504 0.180 0.032 0.242 1.05 -1.0586971435 0.0082175446 0.976 0.088 0.393 1.584 0.121 0.489 21 0.01 0.504 0.210 0.027 0.242 1.05 -1.0514129595 0.0111849904 0.971 0.104 0.535 2.155 0.121 0.489 24 0.01 0.504 0.240 0.024 0.241 1.05 -1.0441287755 0.0146089663 0.966 0.119 0.699 2.815 0.121 0.489 27 0.01 0.504 0.270 0.021 0.241 1.05 -1.0368445915 0.0184894723 0.960 0.135 0.885 3.563 0.121 0.489 39 0.01 0.504 0.390 0.015 0.241 1.05 -1.0077078555 0.0385767974 0.935 0.200 1.847 7.434 0.121 0.489 51 0.01 0.504 0.510 0.011 0.241 1.05 -0.9785711195 0.0659686044 0.902 0.271 3.158 12.713 0.121 0.489 63 0.01 0.504 0.630 0.009 0.241 1.05 -0.9494343835 0.1006648933 0.859 0.352 4.818 19.399 0.121 0.489 75 0.01 0.504 0.750 0.008 0.241 1.05 -0.9202976476 0.1426656641 0.793 0.454 6.829 27.493 0.121 0.489 80 0.01 0.504 0.800 0.007 0.241 1.05 -0.9081573409 0.1623218219 0.749 0.512 7.770 31.281 477 MCM CENTRAIS ELÉTRICAS MATOGROSSENSES S.A. DIRETORIA DE PRODUÇÃO E TRANSMISSÃO DEPARTAMENTOS : DOS / PEE AUTOR: ENG. DIRCEU - DOS/PEE 1 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) PARA VARIOS NIVEIS DE TENSÃO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C ( nf/km) MVAr/KM SIL DA LT MVA (80o Celsius) # 477,0 MCM 13.8 0.1344 0.4662 11 7.0573408948 24.4801512287 77.631 269.282 8.984 0.001 0.513 16.01 # 477,0 MCM 34.5 0.1344 0.4662 20 1.1291745432 3.9168241966 22.583 78.336 8.984 0.004 3.208 40.04 # 477,0 MCM 69 0.1344 0.4662 20 0.2822936358 0.9792060491 5.646 19.584 8.984 0.016 12.833 80.07 # 477,0 MCM 138 0.1344 0.4662 20 0.0705734089 0.2448015123 1.411 4.896 8.984 0.065 51.332 160.15 # 477,0 MCM 230 0.1344 0.4662 20 0.0254064272 0.0881285444 0.508 1.763 8.984 0.179 142.588 266.91 # 477,0 MCM 345 0.1344 0.4662 20 0.0112917454 0.039168242 0.226 0.783 8.984 0.403 320.822 400.36 # 477,0 MCM 500 0.1344 0.4662 20 0.005376 0.018648 0.108 0.373 8.984 0.847 673.854 580.24 # 477,0 MCM 765 0.1344 0.4662 20 0.0022965526 0.0079661669 0.046 0.159 8.984 1.982 1577.426 887.76 # 477,0 MCM 1000 0.1344 0.4662 20 0.001344 0.004662 0.027 0.093 8.984 3.387 2695.418 1160.47 2 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) EM FUNÇÃO DO COMPRIMENTO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C (nF/km) Mvar Efeito Ferranti ( R=0) # 477,0 MCM 138 0.1344 0.4662 75 0.0705734089 0.2448015123 5.293 18.360 8.984 4.838 1.004 Mvar MVA (80o Celsius) 4.838 160.15 3) CÁLCULO DA QUEDA DE TENSÃO EM FUNCÃO DA CARGA 3.1) LINHA COM COMPRIMENTO DE 20 KM R (pu) X ( pu) MW CARGA MVAR CARGA Z (PU) S (PU) ANG. F.POT. COS (Z - S) V EMISSOR TERMO B TERMO C V RECEPT. V RECEPT. PERDAS (MW) CONSUMO REATIVO LT 0.053 0.184 90 10 0.191 0.906 6.340 0.381 1.05 -0.9705056711 0.0299389933 0.921 0.179 4.340 15.055 0.053 0.184 6 0.01 0.191 0.060 0.095 0.279 1.05 -1.096111673 0.0001314398 0.997 0.011 0.019 0.066 0.053 0.184 9 0.01 0.191 0.090 0.064 0.278 1.05 -1.0929358696 0.0002957392 0.996 0.016 0.043 0.149 0.053 0.184 12 0.01 0.191 0.120 0.048 0.278 1.05 -1.0897600662 0.0005257583 0.994 0.022 0.076 0.264 0.053 0.184 15 0.01 0.191 0.150 0.038 0.278 1.05 -1.0865842628 0.0008214971 0.992 0.028 0.119 0.413 0.053 0.184 18 0.01 0.191 0.180 0.032 0.278 1.05 -1.0834084594 0.0011829557 0.991 0.033 0.171 0.595 0.053 0.184 21 0.01 0.191 0.210 0.027 0.277 1.05 -1.080232656 0.001610134 0.989 0.039 0.233 0.810 0.053 0.184 24 0.01 0.191 0.240 0.024 0.277 1.05 -1.0770568526 0.0021030321 0.987 0.044 0.305 1.058 0.053 0.184 27 0.01 0.191 0.270 0.021 0.277 1.05 -1.0738810491 0.0026616499 0.986 0.050 0.386 1.338 0.053 0.184 39 0.01 0.191 0.390 0.015 0.277 1.05 -1.0611778355 0.0055533185 0.978 0.073 0.805 2.793 0.053 0.184 51 0.01 0.191 0.510 0.011 0.277 1.05 -1.0484746219 0.009496503 0.970 0.096 1.377 4.775 0.053 0.184 63 0.01 0.191 0.630 0.009 0.277 1.05 -1.0357714083 0.0144912033 0.962 0.119 2.101 7.287 0.053 0.184 75 0.01 0.191 0.750 0.008 0.277 1.05 -1.0230681947 0.0205374195 0.953 0.143 2.977 10.328 0.053 0.184 80 0.01 0.191 0.800 0.007 0.277 1.05 -1.017775189 0.0233670195 0.948 0.153 3.388 11.750 336 MCM CENTRAIS ELÉTRICAS MATOGROSSENSES S.A. DIRETORIA DE PRODUÇÃO E TRANSMISSÃO DEPARTAMENTOS : DOS / PEE AUTOR: ENG. DIRCEU - DOS/PEE 1 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) PARA VARIOS NIVEIS DE TENSÃO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C ( nf/km) MVAr/KM SIL DA LT MVA (80o Celsius) # 336,0 MCM 13.8 0.19101 0.4884 20 10.0299306868 25.6458727158 200.599 512.917 8.576 0.001 0.490 12.67 # 336,0 MCM 34.5 0.19101 0.4884 20 1.6047889099 4.1033396345 32.096 82.067 8.576 0.004 3.062 31.67 # 336,0 MCM 69 0.19101 0.4884 20 0.4011972275 1.0258349086 8.024 20.517 8.576 0.015 12.250 63.34 # 336,0 MCM 138 0.19101 0.4884 20 0.1002993069 0.2564587272 2.006 5.129 8.576 0.062 48.998 126.68 # 336,0 MCM 230 0.19101 0.4884 20 0.0361077505 0.0923251418 0.722 1.847 8.576 0.171 136.106 211.14 # 336,0 MCM 345 0.19101 0.4884 20 0.0160478891 0.0410333963 0.321 0.821 8.576 0.385 306.239 316.71 # 336,0 MCM 500 0.19101 0.4884 20 0.0076404 0.019536 0.153 0.391 8.576 0.808 643.225 458.99 # 336,0 MCM 765 0.19101 0.4884 20 0.0032638729 0.0083455081 0.065 0.167 8.576 1.892 1505.725 702.26 # 336,0 MCM 1000 0.19101 0.4884 20 0.0019101 0.004884 0.038 0.098 8.576 3.233 2572.899 917.99 2 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) EM FUNÇÃO DO COMPRIMENTO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C (nF/km) Mvar Efeito Ferranti ( R=0) # 336,0 MCM 34.5 0.19101 0.4884 26.5 1.6047889099 4.1033396345 42.527 108.739 8.576 0.102 1.001 Mvar MVA (80o Celsius) 0.102 31.67 3) CÁLCULO DA QUEDA DE TENSÃO EM FUNCÃO DA CARGA 3.1) LINHA COM COMPRIMENTO DE 20 KM R (pu) X ( pu) MW CARGA MVAR CARGA Z (PU) S (PU) ANG. F.POT. COS ( Z - S) V EMISSOR TERMO B TERMO C V RECEPT. V RECEPT. PERDAS (MW) CONSUMO REATIVO LT 0.425 1.087 8 1.5 1.168 0.081 10.620 0.530 1.05 -1.0018354001 0.009031597 0.948 0.095 0.282 0.720 0.425 1.087 19.699 1.915 1.168 0.198 5.552 0.453 1.05 -0.8933056497 0.0534013212 0.863 0.255 1.666 4.259 0.425 1.087 13.997 2.613 1.168 0.142 10.574 0.529 1.05 -0.9266234388 0.0276392466 0.900 0.176 0.862 2.205 0.425 1.087 17.712 3.348 1.168 0.180 10.704 0.531 1.05 -0.879041388 0.0442955931 0.862 0.232 1.382 3.533 0.425 1.087 9.893 3.218 1.168 0.104 18.019 0.634 1.05 -0.9483721648 0.0147541494 0.919 0.126 0.460 1.177 0.425 1.087 9.72 4.384 1.168 0.107 24.277 0.715 1.05 -0.9244857774 0.015499973 0.906 0.131 0.484 1.236 0.425 1.087 11.167 3.823 1.168 0.118 18.899 0.646 1.05 -0.9243789505 0.0189925579 0.904 0.145 0.592 1.515 0.425 1.087 14.6 1.49 1.168 0.147 5.827 0.457 1.05 -0.9459173611 0.0293619058 0.909 0.180 0.916 2.342 0.425 1.087 15.4 5.421 1.168 0.163 19.393 0.653 1.05 -0.8536228471 0.036337317 0.854 0.213 1.134 2.898 0.425 1.087 12.679 3.996 1.168 0.133 17.493 0.627 1.05 -0.907756462 0.0240922187 0.892 0.166 0.752 1.922 0.425 1.087 7.992 1.598 1.168 0.082 11.307 0.540 1.05 -0.9997721686 0.0090555451 0.947 0.096 0.282 0.722 0.425 1.087 13.716 0.3 1.168 0.137 1.253 0.385 1.05 -0.9793158811 0.025659095 0.928 0.164 0.800 2.047 0.425 1.087 19.332 3.564 1.168 0.197 10.446 0.527 1.05 -0.8605651672 0.052680224 0.845 0.259 1.643 4.202 0.425 1.087 19.418 1.552 1.168 0.195 4.570 0.437 1.05 -0.9035900769 0.0517312735 0.870 0.249 1.614 4.126 266 MCM CENTRAIS ELÉTRICAS MATOGROSSENSES S.A. DIRETORIA DE PRODUÇÃO E TRANSMISSÃO DEPARTAMENTOS : DOS / PEE AUTOR: ENG. DIRCEU - DOS/PEE 1 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) PARA VARIOS NIVEIS DE TENSÃO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C ( nf/km) MVAr/KM SIL DA LT MVA (80o Celsius) # 266,0 MCM 13.8 0.239 0.460 20 12.5656374711 24.1598403697 251.313 483.197 9.103 0.001 0.520 11.00 # 266,0 MCM 34.5 0.239 0.460 20 2.0105019954 3.8655744591 40.210 77.311 9.103 0.004 3.251 27.49 # 266,0 MCM 69 0.239 0.460 20 0.5026254988 0.9663936148 10.053 19.328 9.103 0.016 13.003 54.98 # 266,0 MCM 138 0.239 0.460 20 0.1256563747 0.2415984037 2.513 4.832 9.103 0.065 52.012 109.95 # 266,0 MCM 230 0.239 0.460 20 0.0452362949 0.0869754253 0.905 1.740 9.103 0.182 144.478 183.25 # 266,0 MCM 345 0.239 0.460 20 0.02010502 0.0386557446 0.402 0.773 9.103 0.408 325.076 274.88 # 266,0 MCM 500 0.239 0.460 20 0.009572 0.018404 0.191 0.368 9.103 0.858 682.788 398.37 # 266,0 MCM 765 0.239 0.460 20 0.0040890256 0.0078619334 0.082 0.157 9.103 2.008 1598.339 609.51 # 266,0 MCM 1000 0.239 0.460 20 0.002393 0.004601 0.048 0.092 9.103 3.432 2731.154 796.74 2 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) EM FUNÇÃO DO COMPRIMENTO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C (nF/km) Mvar Efeito Ferranti ( R=0) # 266,0 MCM 138 0.239 0.460 67 0.1256563747 0.2415984037 8.419 16.187 9.103 4.379 1.004 Mvar MVA (80o Celsius) 4.379 109.95 3) CÁLCULO DA QUEDA DE TENSÃO EM FUNCÃO DA CARGA 3.1) LINHA COM COMPRIMENTO DE 20 KM R (pu) X ( pu) MW CARGA MVAR CARGA Z (PU) S (PU) ANG. F.POT. COS (Z - S) V EMISSOR TERMO B TERMO C V RECEPT. V RECEPT. PERDAS (MW) CONSUMO REATIVO LT 0.084 0.162 2 0.01 0.182 0.020 0.286 0.466 1.05 -1.099100035 0.0000133164 0.998 0.003 0.003 0.006 0.084 0.162 6 0.01 0.182 0.060 0.095 0.463 1.05 -1.0923648533 0.0001198447 0.995 0.010 0.030 0.058 0.084 0.162 10 0.01 0.182 0.100 0.057 0.462 1.05 -1.0856296716 0.0003329015 0.992 0.018 0.084 0.162 0.084 0.162 14 0.01 0.182 0.140 0.041 0.462 1.05 -1.0788944899 0.0006524866 0.989 0.025 0.165 0.317 0.084 0.162 18 0.01 0.182 0.180 0.032 0.462 1.05 -1.0721593082 0.0010786001 0.986 0.032 0.273 0.524 0.084 0.162 22 0.01 0.182 0.220 0.026 0.462 1.05 -1.0654241265 0.0016112419 0.982 0.039 0.407 0.783 0.084 0.162 26 0.01 0.182 0.260 0.022 0.462 1.05 -1.0586889449 0.0022504122 0.979 0.046 0.569 1.094 0.084 0.162 30 0.01 0.182 0.300 0.019 0.462 1.05 -1.0519537632 0.0029961107 0.975 0.053 0.758 1.457 0.084 0.162 34 0.01 0.182 0.340 0.017 0.462 1.05 -1.0452185815 0.0038483377 0.972 0.061 0.973 1.871 0.084 0.162 38 0.01 0.182 0.380 0.015 0.462 1.05 -1.0384833998 0.004807093 0.968 0.068 1.216 2.337 0.084 0.162 42 0.01 0.182 0.420 0.014 0.462 1.05 -1.0317482181 0.0058723767 0.964 0.076 1.485 2.855 0.084 0.162 46 0.01 0.182 0.460 0.012 0.462 1.05 -1.0250130364 0.0070441888 0.961 0.083 1.781 3.425 0.084 0.162 54 0.01 0.182 0.540 0.011 0.462 1.05 -1.0115426731 0.0097073981 0.953 0.098 2.455 4.720 0.084 0.162 58 0.01 0.182 0.580 0.010 0.462 1.05 -1.0048074914 0.0111987952 0.949 0.106 2.832 5.445 4|0 AWG CENTRAIS ELÉTRICAS MATOGROSSENSES S.A. DIRETORIA DE PRODUÇÃO E TRANSMISSÃO DEPARTAMENTOS : DOS / PEE AUTOR: ENG. DIRCEU - DOS/PEE 1 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) PARA VARIOS NIVEIS DE TENSÃO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C ( nf/km) MVAr/KM SIL DA LT MVA (80o Celsius) # 4/0 13.8 0.354 0.474 20 18.572778828 24.8844780508 371.456 497.690 8.838 0.001 0.505 8.13 # 4/0 34.5 0.354 0.474 20 2.9716446125 3.9815164881 59.433 79.630 8.838 0.004 3.156 20.32 # 4/0 69 0.354 0.474 20 0.7429111531 0.995379122 14.858 19.908 8.838 0.016 12.624 40.63 # 4/0 138 0.354 0.474 20 0.1857277883 0.2488447805 3.715 4.977 8.838 0.063 50.497 81.27 # 4/0 230 0.354 0.474 20 0.0668620038 0.089584121 1.337 1.792 8.838 0.176 140.271 135.45 # 4/0 345 0.354 0.474 20 0.0297164461 0.0398151649 0.594 0.796 8.838 0.397 315.609 203.17 # 4/0 500 0.354 0.474 20 0.014148 0.018956 0.283 0.379 8.838 0.833 662.906 294.45 # 4/0 765 0.354 0.474 20 0.0060438293 0.0080977402 0.121 0.162 8.838 1.950 1551.796 450.51 # 4/0 1000 0.354 0.474 20 0.003537 0.004739 0.071 0.095 8.838 3.332 2651.622 588.90 2 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) EM FUNÇÃO DO COMPRIMENTO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C (nF/km) Mvar Efeito Ferranti ( R=0) # 4/0 34.5 0.3537 0.47386 10 2.9716446125 3.9811804243 29.716 39.812 8.839 0.040 1.000 Mvar MVA (80o Celsius) 0.040 20.32 3) CÁLCULO DA QUEDA DE TENSÃO EM FUNCÃO DA CARGA 3.1) LINHA COM COMPRIMENTO DE 20 KM R (pu) X ( pu) MW CARGA MVAR CARGA Z (PU) S (PU) ANG. F.POT. COS ( Z - S) V EMISSOR TERMO B TERMO C V RECEPT. V RECEPT. PERDAS (MW) CONSUMO REATIVO LT 0.297 0.398 6 0.01 0.497 0.060 0.095 0.599 1.05 -1.066760641 0.0008884994 0.983 0.029 0.107 0.143 0.297 0.398 6 0.01 0.497 0.060 0.095 0.599 1.05 -1.066760641 0.0008884994 0.983 0.029 0.107 0.143 0.297 0.398 9 0.01 0.497 0.090 0.064 0.599 1.05 -1.0489307734 0.0019991205 0.974 0.044 0.241 0.322 0.297 0.398 12 0.01 0.497 0.120 0.048 0.599 1.05 -1.0311009057 0.00355399 0.965 0.059 0.428 0.573 0.297 0.398 15 0.01 0.497 0.150 0.038 0.599 1.05 -1.013271038 0.0055531081 0.956 0.074 0.669 0.896 0.297 0.398 18 0.01 0.497 0.180 0.032 0.599 1.05 -0.9954411703 0.0079964745 0.946 0.090 0.963 1.290 0.297 0.398 21 0.01 0.497 0.210 0.027 0.599 1.05 -0.9776113027 0.0108840894 0.936 0.106 1.310 1.756 0.297 0.398 24 0.01 0.497 0.240 0.024 0.598 1.05 -0.959781435 0.0142159528 0.925 0.123 1.712 2.293 0.297 0.398 27 0.01 0.497 0.270 0.021 0.598 1.05 -0.9419515673 0.0179920646 0.914 0.140 2.166 2.902 0.297 0.398 39 0.01 0.497 0.390 0.015 0.598 1.05 -0.8706320966 0.0375389962 0.863 0.214 4.520 6.055 0.297 0.398 51 0.01 0.497 0.510 0.011 0.598 1.05 -0.7993126259 0.064193903 0.796 0.303 7.729 10.355 0.297 0.398 63 0.01 0.497 0.630 0.009 0.598 1.05 -0.7279931552 0.097956785 0.687 0.434 11.794 15.801 0.297 0.398 75 0.01 0.497 0.750 0.008 0.598 1.05 -0.6566736845 0.1388276421 0.000 0.000 16.716 22.394 0.297 0.398 80 0.01 0.497 0.800 0.007 0.598 1.05 -0.6269572384 0.1579550058 0.000 0.000 19.019 25.480 3|0 AWG CENTRAIS ELÉTRICAS MATOGROSSENSES S.A. DIRETORIA DE PRODUÇÃO E TRANSMISSÃO DEPARTAMENTOS : DOS / PEE AUTOR: ENG. DIRCEU - DOS/PEE 1 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) PARA VARIOS NIVEIS DE TENSÃO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C ( nf/km) MVAr/KM SIL DA LT MVA (80o Celsius) # 3/0 13.8 0.429 0.485 20 22.5215290905 25.4515858013 450.431 509.032 8.641 0.001 0.494 7.17 # 3/0 34.5 0.429 0.485 20 3.6034446545 4.0722537282 72.069 81.445 8.641 0.004 3.086 17.93 # 3/0 69 0.429 0.485 20 0.9008611636 1.0180634321 18.017 20.361 8.641 0.016 12.343 35.85 # 3/0 138 0.429 0.485 20 0.2252152909 0.254515858 4.504 5.090 8.641 0.062 49.372 71.71 # 3/0 230 0.429 0.485 20 0.0810775047 0.0916257089 1.622 1.833 8.641 0.172 137.145 119.51 # 3/0 345 0.429 0.485 20 0.0360344465 0.0407225373 0.721 0.814 8.641 0.388 308.577 179.27 # 3/0 500 0.429 0.485 20 0.017156 0.019388 0.343 0.388 8.641 0.814 648.135 259.81 # 3/0 765 0.429 0.485 20 0.0073288052 0.0082822846 0.147 0.166 8.641 1.907 1517.219 397.51 # 3/0 1000 0.429 0.485 20 0.004289 0.004847 0.086 0.097 8.641 3.258 2592.539 519.62 2 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) EM FUNÇÃO DO COMPRIMENTO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C (nF/km) Mvar Efeito Ferranti ( R=0) # 3/0 34.5 0.42873 0.46967 54 3.6020163831 3.9459777358 194.509 213.083 8.918 0.216 1.002 Mvar MVA (80o Celsius) 0.216 17.93 3) CÁLCULO DA QUEDA DE TENSÃO EM FUNCÃO DA CARGA 3.1) LINHA COM COMPRIMENTO DE 20 KM R (pu) X ( pu) MW CARGA MVAR CARGA Z (PU) S (PU) ANG. F.POT. COS ( Z - S) V EMISSOR TERMO B TERMO C V RECEPT. V RECEPT. PERDAS (MW) CONSUMO REATIVO LT 1.945 2.131 3 0.01 2.885 0.030 0.191 0.677 1.05 -0.9853685036 0.007 0.941 0.088 0.175 0.192 1.945 2.131 6 0.01 2.885 0.060 0.095 0.675 1.05 -0.8686631728 0.030 0.867 0.190 0.700 0.767 1.945 2.131 9 0.01 2.885 0.090 0.064 0.675 1.05 -0.751957842 0.067 0.759 0.326 1.576 1.726 1.945 2.131 12 0.01 2.885 0.120 0.048 0.675 1.05 -0.6352525112 0.120 0.000 0.000 2.801 3.068 1.945 2.131 15 0.01 2.885 0.150 0.038 0.675 1.05 -0.5185471803 0.187 0.000 0.000 4.376 4.794 1.945 2.131 18 0.01 2.885 0.180 0.032 0.675 1.05 -0.4018418495 0.270 0.000 0.000 6.302 6.904 1.945 2.131 21 0.01 2.885 0.210 0.027 0.675 1.05 -0.2851365187 0.367 0.000 0.000 8.578 9.397 1.945 2.131 24 0.01 2.885 0.240 0.024 0.674 1.05 -0.1684311879 0.479 0.000 0.000 11.204 12.274 1.945 2.131 27 0.01 2.885 0.270 0.021 0.674 1.05 -0.0517258571 0.607 0.000 0.000 14.180 15.534 1.945 2.131 39 0.01 2.885 0.390 0.015 0.674 1.05 0.4150954662 1.266 0.000 0.000 29.585 32.410 1.945 2.131 51 0.01 2.885 0.510 0.011 0.674 1.05 0.8819167894 2.165 0.000 0.000 50.592 55.423 1.945 2.131 63 0.01 2.885 0.630 0.009 0.674 1.05 1.3487381127 3.304 0.000 0.000 77.201 84.573 1.945 2.131 75 0.01 2.885 0.750 0.008 0.674 1.05 1.8155594359 4.682 0.000 0.000 109.411 119.859 1.945 2.131 80 0.01 2.885 0.800 0.007 0.674 1.05 2.0100683206 5.327 0.000 0.000 124.486 136.373 2|0 AWG CENTRAIS ELÉTRICAS MATOGROSSENSES S.A. DIRETORIA DE PRODUÇÃO E TRANSMISSÃO DEPARTAMENTOS : DOS / PEE AUTOR: ENG. DIRCEU - DOS/PEE 1 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) PARA VARIOS NIVEIS DE TENSÃO TIPO DE CABO TENSÃO EM KV R ( Ohms/km) DA LT X ( Ohms/km) DA LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C ( nf/km) MVAr/KM SIL DA LT MVA (80o Celsius) # 2/0 13.8 0.530 0.496 20 27.8512917454 26.0291955472 557.026 520.584 8.450 0.001 0.483 6.45 # 2/0 34.5 0.530 0.496 20 4.4562066793 4.1646712875 89.124 83.293 8.450 0.004 3.017 16.13 # 2/0 69 0.530 0.496 20 1.1140516698 1.0411678219 22.281 20.823 8.450 0.015 12.069 32.27 # 2/0 138 0.530 0.496 20 0.2785129175 0.2602919555 5.570 5.206 8.450 0.061 48.277 64.54 # 2/0 230 0.530 0.496 20 0.1002646503 0.093705104 2.005 1.874 8.450 0.169 134.102 107.56 # 2/0 345 0.530 0.496 20 0.0445620668 0.0416467129 0.891 0.833 8.450 0.379 301.729 161.34 # 2/0 500 0.530 0.496 20 0.021216 0.019828 0.424 0.397 8.450 0.796 633.752 233.83 # 2/0 765 0.530 0.496 20 0.0090631808 0.0084702465 0.181 0.169 8.450 1.864 1483.550 357.76 # 477,0 MCM 1000 0.530 0.496 20 0.005304 0.004957 0.106 0.099 8.450 3.186 2535.009 467.65 2 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) EM FUNÇÃO DO COMPRIMENTO TIPO DE CABO TENSÃO EM KV R ( Ohms/km) DA LT X ( Ohms/km) DA LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C (nF/km) Mvar Efeito Ferranti ( R=0) # 2/0 34.5 0.53 0.48086 50 4.4528460407 4.0399915984 222.642 202.000 8.710 0.195 1.002 Mvar MVA (80o Celsius) 0.195 16.13 3) CÁLCULO DA QUEDA DE TENSÃO EM FUNCÃO DA CARGA 3.1) LINHA COM COMPRIMENTO DE 20 KM R (pu) X ( pu) MW DA CARGA MVAR DA CARGA Z (PU) S (PU) ANG. F.POT. COS (ANG. Z - ANG.S) V EMISSOR TERMO B TERMO C V RECEPT. V RECEPT. PERDAS (MW) CONSUMO REATIVO LT 2.226 2.020 3 0.01 3.006 0.030 0.191 0.743 1.05 -0.9685106196 0.0081336986 0.933 0.092 0.200 0.182 2.226 2.020 6 0.01 3.006 0.060 0.095 0.742 1.05 -0.8349252384 0.0325345234 0.846 0.203 0.802 0.727 2.226 2.020 9 0.01 3.006 0.090 0.064 0.741 1.05 -0.7013398572 0.0732025646 0.710 0.363 1.803 1.636 2.226 2.020 12 0.01 3.006 0.120 0.048 0.741 1.05 -0.567754476 0.1301378223 0.000 0.000 3.206 2.909 2.226 2.020 15 0.01 3.006 0.150 0.038 0.741 1.05 -0.4341690947 0.2033402965 0.000 0.000 5.009 4.545 2.226 2.020 18 0.01 3.006 0.180 0.032 0.741 1.05 -0.3005837135 0.2928099872 0.000 0.000 7.214 6.545 2.226 2.020 21 0.01 3.006 0.210 0.027 0.741 1.05 -0.1669983323 0.3985468944 0.000 0.000 9.819 8.908 2.226 2.020 24 0.01 3.006 0.240 0.024 0.741 1.05 -0.0334129511 0.5205510181 0.000 0.000 12.824 11.635 2.226 2.020 27 0.01 3.006 0.270 0.021 0.741 1.05 0.1001724302 0.6588223582 0.000 0.000 16.231 14.726 2.226 2.020 39 0.01 3.006 0.390 0.015 0.741 1.05 0.6345139551 1.3745798838 0.000 0.000 33.864 30.724 2.226 2.020 51 0.01 3.006 0.510 0.011 0.741 1.05 1.1688554799 2.3506128732 0.000 0.000 57.909 52.540 2.226 2.020 63 0.01 3.006 0.630 0.009 0.741 1.05 1.7031970048 3.5869213264 0.000 0.000 88.367 80.174 2.226 2.020 75 0.01 3.006 0.750 0.008 0.741 1.05 2.2375385297 5.0835052435 0.000 0.000 125.236 113.625 2.226 2.020 80 0.01 3.006 0.800 0.007 0.741 1.05 2.4601808318 5.7838992868 0.000 0.000 142.491 129.280 1|0 AWG CENTRAIS ELÉTRICAS MATOGROSSENSES S.A. DIRETORIA DE PRODUÇÃO E TRANSMISSÃO DEPARTAMENTOS : DOS / PEE AUTOR: ENG. DIRCEU - DOS/PEE 1 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) PARA VARIOS NIVEIS DE TENSÃO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C ( nf/km) MVAr/KM SIL DA LT MVA (80o Celsius) # 1/0 13.8 0.546 0.537 20 28.6546943919 28.1768536022 573.094 563.537 7.806 0.001 0.446 5.50 # 1/0 34.5 0.546 0.537 20 4.5847511027 4.5082965763 91.695 90.166 7.806 0.004 2.787 13.74 # 1/0 69 0.546 0.537 20 1.1461877757 1.1270741441 22.924 22.541 7.806 0.014 11.149 27.49 # 1/0 138 0.546 0.537 20 0.2865469439 0.281768536 5.731 5.635 7.806 0.056 44.597 54.98 # 1/0 230 0.546 0.537 20 0.1031568998 0.101436673 2.063 2.029 7.806 0.156 123.881 91.63 # 1/0 345 0.546 0.537 20 0.045847511 0.0450829658 0.917 0.902 7.806 0.350 278.731 137.44 # 1/0 500 0.546 0.537 20 0.021828 0.021464 0.437 0.429 7.806 0.736 585.447 199.19 # 1/0 765 0.546 0.537 20 0.0093246187 0.009169123 0.186 0.183 7.806 1.722 1370.473 304.75 # 1/0 1000 0.546 0.537 20 0.005457 0.005366 0.109 0.107 7.806 2.943 2341.789 398.37 2 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) EM FUNÇÃO DO COMPRIMENTO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C (nF/km) Mvar Efeito Ferranti ( R=0) # 1/0 34.5 0.65368 0.49145 35 5.4919554715 4.1289645033 192.218 144.514 8.523 0.134 1.001 Mvar MVA (80o Celsius) 0.134 13.74 3) CÁLCULO DA QUEDA DE TENSÃO EM FUNCÃO DA CARGA 3.1) LINHA COM COMPRIMENTO DE 20 KM R (pu) X ( pu) MW CARGA MVAR CARGA Z (PU) S (PU) ANG. F.POT. COS ( Z - S) V EMISSOR TERMO B TERMO C V RECEPT. V RECEPT. PERDAS (MW) CONSUMO REATIVO LT 1.922 1.445 3 1.5 2.405 0.034 26.565 0.984 1.05 -0.9438148078 0.007 0.921 0.083 0.216 0.163 1.922 1.445 6 0.01 2.405 0.060 0.095 0.800 1.05 -0.8715488427 0.021 0.875 0.157 0.692 0.520 1.922 1.445 9 0.01 2.405 0.090 0.064 0.800 1.05 -0.7562177778 0.047 0.786 0.262 1.557 1.171 1.922 1.445 12 0.01 2.405 0.120 0.048 0.800 1.05 -0.6408867129 0.083 0.621 0.443 2.768 2.081 1.922 1.445 15 0.01 2.405 0.150 0.038 0.800 1.05 -0.525555648 0.130 0.000 0.000 4.325 3.252 1.922 1.445 18 0.01 2.405 0.180 0.032 0.800 1.05 -0.4102245831 0.187 0.000 0.000 6.228 4.682 1.922 1.445 21 0.01 2.405 0.210 0.027 0.800 1.05 -0.2948935182 0.255 0.000 0.000 8.477 6.373 1.922 1.445 24 0.01 2.405 0.240 0.024 0.800 1.05 -0.1795624533 0.333 0.000 0.000 11.072 8.324 1.922 1.445 27 0.01 2.405 0.270 0.021 0.800 1.05 -0.0642313884 0.422 0.000 0.000 14.013 10.535 1.922 1.445 39 0.01 2.405 0.390 0.015 0.799 1.05 0.3970928712 0.880 0.000 0.000 29.236 21.981 1.922 1.445 51 0.01 2.405 0.510 0.011 0.799 1.05 0.8584171309 1.504 0.000 0.000 49.996 37.588 1.922 1.445 63 0.01 2.405 0.630 0.009 0.799 1.05 1.3197413905 2.295 0.000 0.000 76.292 57.358 1.922 1.445 75 0.01 2.405 0.750 0.008 0.799 1.05 1.7810656501 3.253 0.000 0.000 108.123 81.289 1.922 1.445 80 0.01 2.405 0.800 0.007 0.799 1.05 1.9732840916 3.701 0.000 0.000 123.020 92.489 1 CENTRAIS ELÉTRICAS MATOGROSSENSES S.A. DIRETORIA DE PRODUÇÃO E TRANSMISSÃO DEPARTAMENTOS : DOS / PEE AUTOR: ENG. DIRCEU - DOS/PEE 1 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) PARA VARIOS NIVEIS DE TENSÃO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C ( nf/km) MVAr/KM SIL DA LT MVA (80o Celsius) # 1 13.8 0.81 0.51 20 42.5803402647 26.52278933 851.607 530.456 8.292 0.001 0.474 4.78 # 1 34.5 0.81 0.51 20 6.8128544423 4.2436462928 136.257 84.873 8.292 0.004 2.961 11.95 # 1 69 0.81 0.51 20 1.7032136106 1.0609115732 34.064 21.218 8.292 0.015 11.845 23.90 # 1 138 0.81 0.51 20 0.4258034026 0.2652278933 8.516 5.305 8.292 0.060 47.378 47.80 # 1 230 0.81 0.51 20 0.153289225 0.0954820416 3.066 1.910 8.292 0.165 131.606 79.67 # 1 345 0.81 0.51 20 0.0681285444 0.0424364629 1.363 0.849 8.292 0.372 296.114 119.51 # 1 500 0.81 0.51 20 0.032436 0.020204 0.649 0.404 8.292 0.782 621.958 173.21 # 1 765 0.81 0.51 20 0.0138562092 0.0086308685 0.277 0.173 8.292 1.830 1455.941 265.00 # 1 1000 0.81 0.51 20 0.008109 0.005051 0.162 0.101 8.292 3.126 2487.832 346.41 2 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) EM FUNÇÃO DO COMPRIMENTO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C (nF/km) Mvar Efeito Ferranti ( R=0) # 1 13.8 0.8109 0.5051 15 42.5803402647 26.52278933 638.705 397.84 8.29 0.01 1.00 Mvar Mvar MVA (80o Celsius) 0.009 0.01 4.78 3) CÁLCULO DA QUEDA DE TENSÃO EM FUNCÃO DA CARGA 3.1) LINHA COM COMPRIMENTO DE 20 KM R (pu) X ( pu) MW CARGA MVAR CARGA Z (PU) S (PU) ANG. F.POT. COS (Z - S) V EMISSOR TERMO B TERMO C V RECEPT. V RECEPT. PERDAS (MW) CONSUMO REATIVO LT 6.387 3.978 3 0.01 7.525 0.030 0.191 0.851 1.05 -0.72 0.05 0.76 0.28 0.57 0.36 6.387 3.978 6 0.01 7.525 0.060 0.095 0.850 1.05 -0.34 0.20 0.00 0.00 2.30 1.43 6.387 3.978 9 0.01 7.525 0.090 0.064 0.849 1.05 0.05 0.46 0.00 0.00 5.17 3.22 6.387 3.978 12 0.01 7.525 0.120 0.048 0.849 1.05 0.43 0.82 0.00 0.00 9.20 5.73 6.387 3.978 15 0.01 7.525 0.150 0.038 0.849 1.05 0.81 1.27 0.00 0.00 14.37 8.95 6.387 3.978 18 0.01 7.525 0.180 0.032 0.849 1.05 1.20 1.83 0.00 0.00 20.69 12.89 6.387 3.978 21 0.01 7.525 0.210 0.027 0.849 1.05 1.58 2.50 0.00 0.00 28.17 17.54 6.387 3.978 24 0.01 7.525 0.240 0.024 0.849 1.05 1.96 3.26 0.00 0.00 36.79 22.92 6.387 3.978 27 0.01 7.525 0.270 0.021 0.849 1.05 2.35 4.13 0.00 0.00 46.56 29.00 6.387 3.978 39 0.01 7.525 0.390 0.015 0.849 1.05 3.88 8.61 0.00 0.00 97.15 60.51 6.387 3.978 51 0.01 7.525 0.510 0.011 0.849 1.05 5.41 14.73 0.00 0.00 166.13 103.48 6.387 3.978 63 0.01 7.525 0.630 0.009 0.849 1.05 6.95 22.47 0.00 0.00 253.50 157.90 6.387 3.978 75 0.01 7.525 0.750 0.008 0.849 1.05 8.48 31.85 0.00 0.00 359.27 223.79 6.387 3.978 80 0.01 7.525 0.800 0.007 0.849 1.05 9.12 36.24 0.00 0.00 408.77 254.62 2 CENTRAIS ELÉTRICAS MATOGROSSENSES S.A. DIRETORIA DE PRODUÇÃO E TRANSMISSÃO DEPARTAMENTOS : DOS / PEE AUTOR: ENG. DIRCEU - DOS/PEE 1 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) PARA VARIOS NIVEIS DE TENSÃO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C ( nf/km) MVAr/KM SIL DA LT MVA (80o Celsius) # 2 13.8 1.016 0.525 20 53.3438353287 27.5677378702 1066.877 551.355 7.978 0.001 0.456 4.30 # 2 34.5 1.016 0.525 20 8.5350136526 4.4108380592 170.700 88.217 7.978 0.004 2.849 10.76 # 2 69 1.016 0.525 20 2.1337534131 1.1027095148 42.675 22.054 7.978 0.014 11.396 21.51 # 2 138 1.016 0.525 20 0.5334383533 0.2756773787 10.669 5.514 7.978 0.057 45.582 43.02 # 2 230 1.016 0.525 20 0.1920378072 0.0992438563 3.841 1.985 7.978 0.159 126.618 71.71 # 2 345 1.016 0.525 20 0.0853501365 0.0441083806 1.707 0.882 7.978 0.358 284.890 107.56 # 2 500 1.016 0.525 20 0.0406352 0.021 0.813 0.420 7.978 0.752 598.383 155.88 # 2 765 1.016 0.525 20 0.0173587936 0.0089709086 0.347 0.179 7.978 1.760 1400.754 238.50 # 2 1000 1.016 0.525 20 0.0101588 0.00525 0.203 0.105 7.978 3.008 2393.531 311.77 2 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) EM FUNÇÃO DO COMPRIMENTO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C (nF/km) Mvar Efeito Ferranti ( R=0) # 2 34.5 1.016 0.525 55 8.5350136526 4.4108380592 469.426 242.596 7.978 0.197 1.002 Mvar MVA (80o Celsius) 0.197 10.76 3) CÁLCULO DA QUEDA DE TENSÃO EM FUNCÃO DA CARGA 3.1) LINHA COM COMPRIMENTO DE 20 KM R (pu) X ( pu) MW CARGA MVAR CARGA Z (PU) S (PU) ANG. F.POT. COS ( Z - S) V EMISSOR TERMO B TERMO C V RECEPT. V RECEPT. PERDAS (MW) CONSUMO REATIVO LT 4.694 2.426 3 0.01 5.284 0.030 0.191 0.890 1.05 -0.8203593573 0.0251294852 0.844 0.179 0.422 0.218 4.694 2.426 6 0.01 5.284 0.060 0.095 0.889 1.05 -0.5387039067 0.1005171032 0.000 0.000 1.690 0.873 4.694 2.426 9 0.01 5.284 0.090 0.064 0.889 1.05 -0.2570484562 0.2261631333 0.000 0.000 3.802 1.965 4.694 2.426 12 0.01 5.284 0.120 0.048 0.889 1.05 0.0246069943 0.4020675753 0.000 0.000 6.760 3.493 4.694 2.426 15 0.01 5.284 0.150 0.038 0.889 1.05 0.3062624449 0.6282304294 0.000 0.000 10.562 5.458 4.694 2.426 18 0.01 5.284 0.180 0.032 0.889 1.05 0.5879178954 0.9046516954 0.000 0.000 15.209 7.860 4.694 2.426 21 0.01 5.284 0.210 0.027 0.889 1.05 0.8695733459 1.2313313735 0.000 0.000 20.702 10.698 4.694 2.426 24 0.01 5.284 0.240 0.024 0.889 1.05 1.1512287965 1.6082694636 0.000 0.000 27.039 13.974 4.694 2.426 27 0.01 5.284 0.270 0.021 0.889 1.05 1.432884247 2.0354659657 0.000 0.000 34.221 17.685 4.694 2.426 39 0.01 5.284 0.390 0.015 0.888 1.05 2.5595060491 4.2468360942 0.000 0.000 71.400 36.899 4.694 2.426 51 0.01 5.284 0.510 0.011 0.888 1.05 3.6861278513 7.2623408149 0.000 0.000 122.098 63.099 4.694 2.426 63 0.01 5.284 0.630 0.009 0.888 1.05 4.8127496534 11.0819801278 0.000 0.000 186.315 96.286 4.694 2.426 75 0.01 5.284 0.750 0.008 0.888 1.05 5.9393714556 15.7057540329 0.000 0.000 264.052 136.460 4.694 2.426 80 0.01 5.284 0.800 0.007 0.888 1.05 6.4087972065 17.8696578834 0.000 0.000 300.432 155.262 4 CENTRAIS ELÉTRICAS MATOGROSSENSES S.A. DIRETORIA DE PRODUÇÃO E TRANSMISSÃO DEPARTAMENTOS : DOS / PEE 1 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) PARA VARIOS NIVEIS DE TENSÃO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C ( nf/km) MVAr/KM SIL DA LT MVA (80o Celsius) # 4 13.8 1.568 0.555 20 82.3124868725 29.1624658685 1646.250 583.249 7.542 0.001 0.431 3.35 # 4 34.5 1.568 0.555 20 13.1699978996 4.665994539 263.400 93.320 7.542 0.003 2.693 8.37 # 4 69 1.568 0.555 20 3.2924994749 1.1664986347 65.850 23.330 7.542 0.014 10.772 16.73 # 4 138 1.568 0.555 20 0.8231248687 0.2916246587 16.462 5.832 7.542 0.054 43.090 33.46 # 4 230 1.568 0.555 20 0.2963249527 0.1049848771 5.926 2.100 7.542 0.150 119.694 55.77 # 4 345 1.568 0.555 20 0.131699979 0.0466599454 2.634 0.933 7.542 0.338 269.311 83.66 # 4 500 1.568 0.555 20 0.06270236 0.0222148 1.254 0.444 7.542 0.711 565.661 121.24 # 4 765 1.568 0.555 20 0.0267855782 0.0094898543 0.536 0.190 7.542 1.664 1324.155 185.50 # 4 1000 1.568 0.555 20 0.01567559 0.0055537 0.314 0.111 7.542 2.843 2262.643 242.49 2 ) CÁLCULO DA IMPEDÂNCIA % DA LT ( BASE 100 MVA ) EM FUNÇÃO DO COMPRIMENTO TIPO DE CABO TENSÃO KV R ( Ohms/km) LT X ( Ohms/km) LT KM DA LT R (% / km) X ( % / km ) R (% ) X ( % ) C (nF/km) Mvar Efeito Ferranti ( R=0) # 4 34.5 1.568 0.555 8 13.1699978996 4.665994539 105.360 37.328 7.542 0.027 1.000 Mvar MVA (80o Celsius) 0.027 8.37 3) CÁLCULO DA QUEDA DE TENSÃO EM FUNCÃO DA CARGA 3.1) LINHA COM COMPRIMENTO DE 20 KM R (pu) X ( pu) MW CARGA MVAR CARGA Z (PU) S (PU) ANG. F.POT. COS (Z - S) V EMISSOR TERMO B TERMO C V RECEPT. V RECEPT. PERDAS (MW) CONSUMO REATIVO LT 1.054 0.373 3 0.01 1.118 0.030 0.191 0.944 1.05 -1.0392093542 0.0011244817 0.970 0.033 0.095 0.033595534 1.054 0.373 6 0.01 1.118 0.060 0.095 0.943 1.05 -0.9759933643 0.0044978894 0.938 0.068 0.379 0.134381016 1.054 0.373 9 0.01 1.118 0.090 0.064 0.943 1.05 -0.9127773743 0.0101202354 0.904 0.106 0.853 0.3023568194 1.054 0.373 12 0.01 1.118 0.120 0.048 0.943 1.05 -0.8495613844 0.0179915199 0.865 0.148 1.517 0.5375229442 1.054 0.373 15 0.01 1.118 0.150 0.038 0.943 1.05 -0.7863453945 0.0281117429 0.822 0.194 2.371 0.8398793903 1.054 0.373 18 0.01 1.118 0.180 0.032 0.943 1.05 -0.7231294046 0.0404809042 0.771 0.249 3.414 1.2094261578 1.054 0.373 21 0.01 1.118 0.210 0.027 0.943 1.05 -0.6599134147 0.055099004 0.706 0.317 4.646 1.6461632466 1.054 0.373 24 0.01 1.118 0.240 0.024 0.943 1.05 -0.5966974247 0.0719660422 0.600 0.426 6.069 2.1500906568 1.054 0.373 27 0.01 1.118 0.270 0.021 0.943 1.05 -0.5334814348 0.0910820189 0.000 0.000 7.681 2.7212083884 1.054 0.373 39 0.01 1.118 0.390 0.015 0.943 1.05 -0.2806174752 0.1900353097 0.000 0.000 16.025 5.6775825283 1.054 0.373 51 0.01 1.118 0.510 0.011 0.943 1.05 -0.0277535155 0.3249716154 0.000 0.000 27.404 9.70900181 1.054 0.373 63 0.01 1.118 0.630 0.009 0.943 1.05 0.2251104442 0.495890936 0.000 0.000 41.817 14.8154662334 1.054 0.373 75 0.01 1.118 0.750 0.008 0.943 1.05 0.4779744039 0.7027932715 0.000 0.000 59.265 20.9969757986 1.054 0.373 80 0.01 1.118 0.800 0.007 0.943 1.05 0.5833343871 0.7996225649 0.000 0.000 67.430 23.8898924128
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