Heat Transfer Handbook part 143 pps

BOOKCOMP, Inc. — John Wiley & Sons / Page 1419 / 2nd Proofs / Heat Transfer Handbook / Bejan AUTHOR INDEX 1419 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 [1419], (19) Lines: 3092 to 3272 ——— 0.0pt PgVar ——— Normal Page PgEnds: T E X [1419], (19) Ryalov, A N, 1075, 1124 Rymaszewski, E J, 1026 Ryzhik, I M, 278, 387 Sabag, A, 1016, 1022 Sabersky, R H, 1050, 1051, 1109 Saboya,FEM,418, 437 Sagoo, M S, 1379, 1398 Sahin, A Z, 234, 260 Said,MNA,1062, 1124 Said, S A, 1062, 1087, 1105, 1124 Saito, A, 1385, 1399 Sahota, M, 122, 144 Salev’yev, R Z, 1098, 1107 Salim, M M, 1054, 1124 Sammakia, B, 526, 529, 532, 534, 552, 556, 558, 569 Samuels, M, 809, 906 San, J Y, 1099, 1124 Sano, Y, 1100, 1126 Santiago, J G, 1008, 1027 Santini, R, 1381, 1398 Sarofim, A F, 627, 628, 631 Sastri,VMK,1099, 1100, 1121, 1123, 1305 Sathe, S B, 1009, 1010, 1025 Sato, H, 50, 148 Sato, K, 1092, 1124, 1386, 1397 Sauer, Jr, H J, 973, 1025 Saunders, E A D, 780, 795, 823, 825, 827, 832, 859, 867, 879–83, 885, 909 Savija, I, 362, 290 Savin, I K, 733, 790 Savin, V K, 997, 1023 Savkar, S D, 1098, 1124 Saxena, S C, 1387, 1398 Sayers, W A, 294, 195, 389 Sayles, R S, 340, 390 Scarola, L S, 1097, 1106 Schankula, M H, 326, 337–39, 388 Schatzes, M, 1333, 1356 Scheiber, J D, 120, 140, 143 Scheidigger, A E, 1132, 1133, 1179 Schey, J A, 1234, 1245, 1254, 1305 Schindler, D L, 809, 900 Schlager, L M, 762, 795, 1072, 1124 Schlichting, H, 397, 423, 438 Schl ¨ under, E U, 234, 260, 569, 700, 716, 908, 996, 997, 1025, 1026, 1068, 1114 Schmeckenbecher, A F, 1043, 1122 Schmidt, E, 584, 633 Schmidt, R, 50, 147 Schmidt, T E, 874, 909 Schmittle, K V, 1043, 1124 Schnabel, W, 1280, 1385 Schneider, G E, 239, 260, 272, 281, 283, 285, 288, 289, 294, 301, 390, 391, 393 Schneider, P J, 164, 260 Scholz, F, 1051, 1112 Schorr, A W, 549, 550, 569 Schroeder, J, 616, 629, 632, 633 Schubert, G, 1166, 1178 Schuh, H, 535, 570 Schulenberg, F J, 875, 909 Schuster, J R, 750, 757, 758, 795 Sciubba, E, 414, 415, 417, 436, 437, 497, 522, 1146, 1179 Seban, R L, 808, 908 Seetharamu, K N, 988, 1024 Seferis, J C, 1281, 1282, 1302, 1304, 1306 Seki, N, 243, 258 Seki, T, 1385, 1389 Sekulic, D P, 808, 909 Selby,JEA,629, 633 Semyonov, G L, 325, 358, 390 Sen, A K, 212, 260 Sen, M, 1090, 1104 Seniraj, R V, 253, 260 Sengers, J V, 45, 49, 51, 145, 148 Sephton, H H, 1101, 1124 Sergent, J, 967, 1026 Sernas, V, 989, 1022 Setzmann, U, 49, 112, 147 Sexl, R U, 312, 390 Shabtai, S, 1382, 1398 Shah, M M, 673, 679, 685, 716, 756, 760, 795 Shah, R K, 396, 403, 408–12, 438, 571, 798, 808, 809, 829, 874, 905–07, 908, 911, 1055, 1059, 1065, 1067, 1088–90, 1109, 1118, 1124–26, 1233, 1305 Shakir, S, 644, 716, 1093, 1125 Shamsundar, N, 254, 260 Shan, Z, 51, 147 Shatto, D P, 1030, 1082, 1086, 1125 Shaw, M C, 1249, 1306 Shaw, W A, 875, 907, 1063, 1112 Shcherbakov, V K, 1098 1122 Shearer, C J, 1101, 1110 BOOKCOMP, Inc. — John Wiley & Sons / Page 1420 / 2nd Proofs / Heat Transfer Handbook / Bejan 1420 AUTHOR INDEX 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 [1420], (20) Lines: 3272 to 3440 ——— 0.0pt PgVar ——— Normal Page PgEnds: T E X [1420], (20) Shehu Diso, I, 1382, 1398 Shen, Z F, 628, 633 Shenkman, S, 1107 Sheu, W J, 1067, 1127 Shi, L, 1339, 1340, 1357 Shih, T I-P, 1099, 1117 Shih, Y P, 251, 259 Shiina, K, 1380, 1381, 1398 Shikazono, N, 1072, 1073, 1114, 1115 Shimon, R L, 736, 738–42, 754, 757, 760, 762, 791–93, 796 Shinohara, Y, 1058, 1069, 1125 Shioda, K, 1057, 1115 Shires, G L, 1061, 1113 Shirtliffe, C J, 122, 147 Shitzer, A, 121, 143 Shivkumar, Y, 1072, 1125 Shizuya, M, 1072, 1125 Shkema, R K, 1085, 1086, 1110 Shklover, G G, 772, 795 Shlanc ˘ yauskas, A A, 1085, 1086, 1110 Shlykov, Y P, 356, 390, 870, 910 Shock,RAW,699, 717 Shoham, O, 737, 743, 745, 790 Shoji, M, 1068, 1072, 1113, 1115 Shome, B, 1030, 1031, 1034, 1051, 1062 1074, 1086, 1091, 1107, 1115, 1125 Shurk, H, 1340, 1360 SIA, 949, 951, 1026 Sideman, S, 1360–62, 1365, 1368, 1371, 1374, 1382, 1398 Sieder, E N, 10, 42, 424, 438, 830, 910, 1054, 1125 Siegel, R, 606, 633, 649–51, 715 Silver, M, 594, 595, 631 Simon, T E, 1011, 1022, 1024, 1027 Simons, R E, 342, 385, 967–70, 1026 Simpkins, P G, 1159, 1179 Singham, J R, 1076, 1109 Siqueiros, W A, 1279, 1398 Sirignano, W A, 1371, 1399 Sitharamayya, S, 997, 1026 Skartis, L, 1269, 1306 Sleicher, C A, 425, 437, 831, 910 Sloan, J, 1270, 1304 Smith, A G, 466, 469, 524 Smith, A N, 1339, 1334, 1347, 1356 Smith, E M, 1065, 1125 Smith, G O, 1347, 1355 Smith, K A, 1092, 1127 Smith, J C, 1098, 1120 Smith, J H, 1208, 1227 Smith, J S, 1349, 1357 Smith, L F, 1003, 1024 Smith, R, 1372, 1398 Smith, T F, 628, 633 Smith, W L, 1344, 1357 Smithberg, E, 1076, 1125 Smoot, J S, 1270, 1304 Smukala, J, 49, 147 Smythe, W R, 277, 283, 313, 390 Sneddon, I N, 274, 283, 390 Snidle, R W, 1255, 1259, 1306 Snow, D F, 1049, 1112 Sohal, R, 499, 524 Solbrekken, G L, 1018, 1026 Soliman, H M, 738, 741, 642, 746–48, 750, 757, 758, 795, 1062, 1063, 1089, 1090, 1105, 1124, 1125 Solomon, A D, 243, 247, 253, 254, 257, 260 Solov’yev S L, 1044, 1116 Somerscales,EFC,10893, 910, 1030, 1088, 1091, 1101, 107, 1125 Sommerfeldt, S, 1015, 1025 Song, D W, 1339, 1351, 1355 Song, M, 1381–83, 1398 Song, S, 294, 295, 325, 344, 345, 352, 354–62, 378, 388–91, 967, 1024, 1026 Soni, R P, 278, 388 Soong, C Y, 1097, 1099, 1114 Sorokin, V P, 1185, 1196, 1199, 1208, 1213, 1216, 1228 Sotani, T, 51, 148 Soufiani, A, 629, 633 Sourour, S, 1263, 1306 Souza,Acm,774, 796 Souza, A L, 761, 751, 795 Spalding, D B, 466, 469, 524, 560, 570 Span, R, 48–50, 145, 147, 148 Spang, B, 809, 909, 910 Sparrow, E M, 239, 260, 398, 438, 538–40, 545, 570, 1002, 1026, 1062, 1122 Springer, G S, 354, 355, 391, 1261, 1262, 1264, 1267, 1268, 1278, 1281, 1304, 1306 Sprott, A L, 1098, 1125 BOOKCOMP, Inc. — John Wiley & Sons / Page 1421 / 2nd Proofs / Heat Transfer Handbook / Bejan AUTHOR INDEX 1421 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 [1421], (21) Lines: 3440 to 3616 ——— 0.0pt PgVar ——— Normal Page PgEnds: T E X [1421], (21) Sridhar, M R, 302, 303, 334, 335, 346, 349, 352, 391 Srinivasan, P S1090, 1125 Stafford, G R, 1339, 1355 Stanescu, G, 417, 438 Steiff, A, 1381–83, 1398 Starner, K E, 1003, 1004, 1026, 1147, 1179 Starner, T E, 1043, 1124 St. Clair Jr, C A, 254, 258 Stefan, K, 51, 121, 142, 143, 145, 412, 438, 655, 716, 821, 910 Stegun, I A 174, 257, 275, 276, 278, 282, 283, 285, 286, 290, 297, 300, 309, 320, 322, 326, 385 Steiner, D, 666, 675, 716 Steiner, K V, 1280, 1306 Stenger, F J, 1224, 1229 Steel, W G, 917, 946 Steen, W M, 1233, 1306 Stephens, M A, 1099, 1117 Stephenson, D P, 1249, 1250, 1306 Stevens, J, 996, 1026 Stevens, R A, 809, 910 Stevenson, M G, 1249, 1306 Stevanovic, M, 330–33, 391 Stevens, J, 493, 524 Stewart, R B, 50, 145 Stolyarov, Y, 1075, 1124 Stratton, J A, 177, 391 Straus, J M, 1166, 1178 Stromberg, K S, 1057, 1058, 1109 Strong, A B, 285, 301, 390, 391 Stuckes, A D, 119, 120, 122, 147 Stulc, P, 1008, 1027 Subbarao, E C, 906, 909 Suetin, P E, 325, 358, 390 Sukatme, S P, 1079, 1105 Summers, S M, 1281, 1398 Sun, J, 1381, 1398 Sun, K H, 661, 715 Sun, X, 1350, 1355 Sun, W, 1368, 1398 Sun, Z S, 1180 Sunaga, H, 51, 149 Sunden, B, 1055, 1056, 1111, 1122, 1126 Sunderland, J E, 247, 258 Suparos, T, 1385, 1397 Supper, W, 1224, 1228 Suryanarayna,VVS,1097, 1127 Swanson, L W, 1347, 1356 Swartz Jr, E T, 957, 961, 972, 973, 1026, 1340, 1350, 1357 Sweeney, K A, 736, 738–42, 754, 757, 760, 762, 791–93, 795, 796 Swenson, H S, 1057, 1126 Szoeke, G, 1057, 1126 Tabor, D, 346, 391 Taborek, J, 675, 716, 779, 790, 833, 834, 875, 907, 910, 1034, 1037, 1047, 1063 1106, 1126 Tadrist, L, 1381, 1398 Tafti, D K, 487, 488, 523 Tagavi, K A, 1065, 1070, 1125 Tagliafico, L A, 1092, 1111 Taine, J, 629, 633 Tainsuwan, J, 1385, 1397 Taira, T, 1080, 1081, 1128 Taitel, Y, 616, 663, 714, 716, 737, 738, 740, 743–45, 790, 795 Takahashi, K, 1331, 1338, 1355 Takamatsu, H, 1070, 1113 Takano, K, 1043, 1099, 1108 Tamari, Y, 1093, 1126 Tamura, S, 1331, 1338, 1357 Tan, H S, 296, 387 Tan, Y, 1043, 1130 Tanaka, H, 989, 1025, 1050, 1126 Tanaka, K, 1043, 1122 Tanaka, M, 1053, 1121 Tanaka, Y, 51, 148, 1331, 1338, 1357 Tanasawa, I, 1049, 1050, 1099, 1108, 1123, 1126 Tanasawa, L, 1233, 1306 Tang, L, 1072, 1097, 1126 Tang, S I, 1097, 1126 Tang, T W, 1338, 1357 Tanger, G E, 654, 717, 1048, 1127 Tao, L N, 247, 260 Tate, G E, 10, 42, 424, 438, 830, 910, 1054, 1125 Tay, A O, 1249, 1306 Taylor, B N, 111, 146 Taylor, G I, 1088, 1090, 1126 Taylor, J, 1386, 1396 Taylor, R E, 140, 143, 148 Teerstra, P, 292–94, 296, 299, 372, 393 TEMA, 823, 910 BOOKCOMP, Inc. — John Wiley & Sons / Page 1422 / 2nd Proofs / Heat Transfer Handbook / Bejan 1422 AUTHOR INDEX 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 [1422], (22) Lines: 3616 to 3790 ——— 0.0pt PgVar ——— Normal Page PgEnds: T E X [1422], (22) Tegeler, Ch, 558, 571 Tenneckes, H, 558, 571 Terasaka, K, 1368, 1398 Test, F L, 829, 910 Thomas, D G, 1071, 1126 Thomas, G E, 1058, 1071, 1126 Thomas, H R, 988, 1024 Thomas, K D, 1390, 1398 Thomas, L B, 325, 358, 391 Thomas, T R, 349, 351, 196, 390 Thome, J R, 636, 644, 666, 670, 671 679, 680, 683, 686, 691, 692, 699, 700, 702, 704, 708, 714–16 Thompson, J C, 272, 279, 284, 297, 298, 389, 393 Thompson Jr, W G, 1049, 1106 Thomson, G H, 122, 145 Thonon, B A, 1092, 1126 Tian, H, 1338, 1357 Tian, Q, 1140, 1179 Tien, C, 545, 563, 565, 568, 1168, 1180 Tien, C H, 288, 289, 393 Tien, C L, 164, 260, 545, 568, 620, 632, 754, 758, 760, 762, 791, 795, 965, 1026 1137, 1142, 1159, 1160, 1162, 1163, 1177, 1180, 1204, 1208, 1229, 1331, 1338, 1349, 1355, 1356 Tierney, J K, 1004, 1026 Tillner-Roth, 49, 51, 143, 148 Timoshenko, S P, 318–22, 327, 336, 337, 391 Timp, G, 1347, 1357 Tingkuen, C, 1051, 1109 Tinker, T, 775, 776, 795, 832, 833, 838, 910 Tobe, M, 1058, 1125 Tomimura, T, 140, 144 Toms, B A, 1092, 1126 Tong, A Y, 1371, 1399 Tong, L S, 636, 717, 893, 910 Tong, S X, 1254, 1306 Yong, T W, 1233, 1305 Tong, W, 1081, 1086, 1126 Torrance, K E, 216, 259, 551, 571, 1168, 1176 Torikoshi, K, 1069, 1070, 1073, 1110, 1126 Touloukian, Y S, 121, 148, 596, 633 Toussignant, L, 1009, 1023 Touzelbaev, M N, 965, 1022 Towell, R H, 1051, 1055, 1059, 1110 Traviss, D P, 750, 758–60, 796, 1092, 1126 Tree, D R, 871, 908 Trefethen, L, 1182, 1229 Trevisan, O V, 1172, 1180 Trew, R J, 1338, 1357 Trewin, R R, 1047, 1115 Trezek, G J, 121, 143 Trigger, K J, 1248–505, 1306 Trinh, S, 212, 260 Truesdale, K L, 1057, 1121 Trumpler, P R, 325, 358, 392 Trupp, A C, 339, 340, 350, 351, 387, 1062, 1124 Tsatsaronis, G, 821, 908 Tseng, A A, 1254, 1306 Tsuge, H, 1368, 1398 Tufeu, R, 49, 148 Tung, S S, 875, 907 Turner, G S, 526, 551, 571 Turyk, P J, 285, 313, 392 Tye, R P, 122, 147 Tzan, Y L, 1093, 1094, 1126 Tzeng, S P, 1097, 1099, 1114 Tzou, D Y, 164, 260 Uchida, M, 1072, 1073, 1114, 1125 Uchima, B, 729, 792, 1070, 1071, 1113, 1114 Uhl, V W, 1079, 1126 Ullman, A, 207–09, 260 Underwood,AJV,806, 809, 910 Ungar, E, 1213, 1229 Unny, T E, 555, 565, 566, 569 Usagi,HHH,9,42 Usagi, R, 9, 42, 334, 386, 548, 568 Usui, H, 1100, 1126 Utaka, Y, 1049, 1050, 1123, 1395, 1399 Uzzell Jr, J C, 49, 259 Vachon, R I, 654, 717, 1048, 1127 Vafai, K, 1132, 1137, 1142, 1179, 1180 Vampola, J, 874, 876, 910 Van de Pohl, D W, 1004, 1026 VanDerMeer, T H, 1074, 1127 Vanleve, J E, 1331, 1338, 1339, 1356 van Wijk, W R, 1093, 1096, 1127 Van Rooyen, R S, 1100, 1127 van Stralen,S J D, 636, 646, 648, 717, 1093, 1096, 1097, 1127 Varanasi, P, 616, 632 BOOKCOMP, Inc. — John Wiley & Sons / Page 1423 / 2nd Proofs / Heat Transfer Handbook / Bejan AUTHOR INDEX 1423 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 [1423], (23) Lines: 3790 to 3950 ——— 0.0pt PgVar ——— Normal Page PgEnds: T E X [1423], (23) Varesi, G, 1340, 1357 Vargas,JVC,418, 437, 1171, 1179 Varma, H K, 768, 789, 1058, 1086, 1105 Vasile, 1164, 1180 Velisaris, C N, 1282, 1306 Velkoff, H R, 1099, 1127 Venart,JES,774, 796 Venerus, D C, 120, 140, 143 Venuvinod, P K, 1249, 1306 Verma, A, 1349, 1357 Vesovic, V, 49, 143, 148 Veziroglu, T N, 312, 356, 392 Vidyanidhi, V, 1097, 1126 Vijaya, Vittala, C B, 1048, 1126 Villanueva, T C, 736, 738–42, 754, 757, 760, 762, 791–93, 796 Vinz, P, 1208, 1229 Virk, P S, 1092, 1126 Viskanta, R, 243, 245, 260, 526, 569–71, 809, 829, 909, 911, 1098, 1099, 1112, 1126, 1233, 1246, 1306, 1361, 1399 Vliet, G C, 541, 560–62, 571 Vogel, E, 49, 143, 148 Voltz, S, 1338, 1357 Vos, A S, 1093, 1096, 1127 Vrable, D L, 1072, 1126 Vulchanov, N L, 1058, 1130 Wachman, H Y, 352, 358, 392 Wadekar, V V, 1065, 1125 Wadsworth, D C, 996, 1025, 1026 Wagner, W, 48–50, 112, 146–48 Wakeham, W A, 45, 49, 143, 148 Wallis, G B, 1043, 1048, 1112 Wallis, J D, 636, 694, 717 Walowit, J A, 319, 336, 337, 392 Walsh, S M, 1261, 1306 Walter, D, 1379, 1399 Wanchoo, R, 1382, 1398 Wang, C C, 1067, 1126 Wang, H, 499, 500, 524 Wang, K L, 1339, 1351, 1355 Wang, S, 1043, 1098, 1130 Wang, S P, 736, 738, 739, 741, 742, 746, 754, 757, 759, 791, 796 Wang, W, 1058, 1127 Wang, W-J 1381, 1395 Wang, X S, 996, 1026 Wang, Z Z, 790, 992, 796 Wanniarchchi, A, 1049, 1050, 1113, 1120 Wansbrough, R W, 1041, 1082, 1085, 1086, 1111 Ward, J C, 1136, 1179, Warner, C Y, 561, 571 Warner, D F, 1043, 1126 Wasekar, V M, 1093, 1095, 1096, 1119, 1127, 1128 Wassan, D T, 1093, 1110 Watanabe, K, 49, 51, 146, 148, 1080, 1081, 1121 Watkins, R W, 1093, 1128 Watkinson, A P, 1063, 1128 Watson, F A, 1073, 1108 Watson, G B, 1057, 1128 Watson,JTR,49,143, 148 Watts, H A, 1156, 1178 Wattson, R B, 616, 629, 632, 633 Wattelet, J P, 736, 738–42, 746, 754, 757, 760–62, 791, 793, 795, 796 Watwe, A A, 1010–12, 1026 Wayner, Jr, P C, 1191, 1229 Weast, R C, 596, 633, 1325, 1357 Webb, B W, 493, 524, 996, 1026 Webb, R L, 488, 489, 523, 704, 708, 717, 727–29, 713, 764, 765, 784, 789, 793, 795, 796, 829, 910, 1020, 1031, 1034, 1037, 1038, 1040, 1042–45, 1047, 1048, 1050, 1051, 1057, 1058, 1061–63, 1067–70, 1072, 1073, 1098, 1105, 1108, 1117, 1120, 1122, 1128, 1129 Weber, L A, 49, 50, 146 Weber, J E, 1159, 1179 Weber, W M, 930, 946 Wehle, W, 875, 906 Weierman, C, 875, 910 Weinspach, P M, 1381–8333, 1398 Weisman, J, 689, 717 Weiss, V C, 51, 145 Weissman, J, 689, 717 Welling, J R, 1003, 1004, 1026 Welsh, E, 1339, 1357 Welty, J R, 174, 201, 208, 212, 215, 259, 829, 843, 844, 858, 859, 861, 870, 872, 877, 908, 1059, 1061, 1116 Werner, K, 234, 260 Wesley, D A, 325, 358, 392 BOOKCOMP, Inc. — John Wiley & Sons / Page 1424 / 2nd Proofs / Heat Transfer Handbook / Bejan 1424 AUTHOR INDEX 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 [1424], (24) Lines: 3950 to 4129 ——— 0.0pt PgVar ——— Normal Page PgEnds: T E X [1424], (24) Westwater, J W, 1045, 1046, 1068, 1093, 1118, 1129 Whalley, P, 636, 617 Wheeler, A J, 919, 946 Whipple, R L, 1098, 1121 Whitaker, S, 483, 504 White, C M, 1089, 1090, 1129 White, F M, 584, 585, 633, 1382, 1399 White, G, 1339, 1355 Whitehouse, D J, 340, 392 Whitham, J M, 1075, 1129 Whittle, T D, 342, 385 Wiedmann, M L, 325, 358, 392 Wiegandt, H F, 1390, 1397 Wiener, J H, 1250, 1306 Wiener, M, 1057, 1116, 1128 Wikhammer, G A, 1041, 1120 Wiles, D M, 1280, 1302 Wilhamson,JBP,340, 350, 351, 387 Willenborg, D L, 1344, 1357 Wilke, C R, 1093, 1120 Wilkins, D R, 256, 388 Willis,MJN,838, 911 Wilson, A H, 1316, 1357 Wilson, D G, 247, 260 Wilson, M, 247, 260 Wilson,WRD,1259, 1306 Wineman, S J, 1267, 1303 Winterton,RHS,674–77, 679, 680, 685, 686, 715 Wirth, U, 490, 524 Wirtz, R A, 492, 497, 499, 500, 523, 524 Withers, J G, 1051, 1057, 1058, 1129 Witte, L C, 662, 717 Witzman, S, 994, 1023, 1026 Wods,ADB,1320, 1355 Womac, D H, 504, 506, 524 Womac, D J, 996, 997, 1027 Wooding, R A, 1156, 1179 Woolard, D L, 1338, 1357 W ¨ orsoe-Schmidt, P, 829, 909, 911 Wong, S S, 965, 1022 Wong, S W, 1098, 1129 Wooldridge, C B, 1003, 1004, 1026 Woolf, J R, 809, 910 Wright, N T, 102, 122, 140, 143, 146 Wright„ R N, 1254, 1259, 1304, 1306 Wright, P K, 1249, 1307 Wrobleski, D, 1010, 1027 Wu, C F, 1105 Wu, D, 1218, 1219, 1227, 1229 Wu, H, 1100, 1129 Wu, J, 1046, 1118 Wu, W T, 1093, 1100, 1119 Wulz, H, 1224, 1230 Xu, Y, 979, 1027, 1099, 1115, 1129 Yabe, A, 733, 796, 1048, 1092, 1098, 1117, 1122, 1129 Yacoub, K, 1387, 1396 Yadigaroglu, G, 698, 714 Yagodkin, Y V, 1185, 1196, 1198, 1208, 1213, 1216, 1228 Yan, M M, 253, 260 Yan, Y, 1216, 1230 Yanagida, T, 498, 523, 1069, 1123 Yang, C Y, 765, 796 Yang, F, 1279, 1280, 1307 Yang, K T, 551, 560, 571, 829, 911, 1254, 1258, 1307, 1369, 1399 Yang, Y M, 1072, 1127 Yang, W J, 1234, 1307, 1072, 1127 Yang, Z F, 736, 794 Yamanaka, G, 1043, 1111 Yao, L S, 1089, 1099, 1123 Yao, S C, 1261, 1305 Yao, T, 1340, 1357 Ye, S Y, 1099, 1105, 1100, 1130 Yemelyanov, A I, 1075, 1124 Yen, Y C, 1168, 1180 Yener, Y, 829, 907 Yerra, K, 1040, 1076, 1119 Yilmaz, S, 1045–47, 1129 Yokozeki, A, 51, 148 Yoshino, K, 616, 632 You, L, 1078, 1119 You, S M, 1011, 1027, 1093, 1105 Young, D A, 1338, 1357 Young, E H, 874–76, 906, 910, 1067–69, 1115, 1117, 1123 Young, R J, 1281, 1307 Young, R X, 1043, 1047, 1049, 1058, 1129 Younglove, B A, 49–51, 148, 149 Yovanovich, M M, 4, 5, 42, 264, 271–73, 276–80, 282–89, 292–94, 296–303, 305, 307–10, 312–14, 316–19, 321–28, 330–42, 344–46, 349–42, BOOKCOMP, Inc. — John Wiley & Sons / Page 1425 / 2nd Proofs / Heat Transfer Handbook / Bejan AUTHOR INDEX 1425 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 [1425], (25) Lines: 4129 to 4231 ——— 0.0pt PgVar ——— Normal Page * PgEnds: PageBreak [1425], (25) 355–58, 362–72, 374, 378, 385, 386, 388–93, 1013, 1025, 1027, 1361, 1395 Yu, J, 765, 796 Yu, X Y, 1344, 1349, 1357 Yuan, Y M, 1099, 1114 Yudin, V F, 1063, 1129 Yuen, F P, 1089, 1108 Y ¨ unc ¨ u, H, 1030, 1059, 1106, 1115 Yugay, T, 1075, 1124 Yuge, T, 563, 564, 571 Yung, Y L, 629, 632 Zakim, J L, 1093, 1084, 1123 Zatell, V A, 1043, 1130 Zecchin, R, 757, 760, 790 Zeng, S, 1008, 1027 Zeng, T, 1339, 1351, 1355 Zerkle, R D, 1244, 1245, 1302, 1055, 1123 Zener, C, 725, 726, 796 Zhang, C, 774, 796 Zhang, J, 1067, 1093, 1096, 1119, 1130 Zhang, L, 1344, 1357 Zhang, L W, 487, 488, 523 Zhang, X, 140, 144 Zhang, Y, 774, 796 Zhang, Y M, 1055, 1100, 1112, 1130 Zhang, Z, 1252, 1307 Zhao, Z N, 780, 792, 796 Zhong, L, 1043, 1130 Zhou, Q T, 1100, 1130 Zhou, S Q, 1065, 1070, 1125 Zhu, L, 1262, 1264, 1265, 1305 Zhuang, J R, 234, 260 Zhukauskas, A, 457, 483–85, 524, 833, 875, 911, 1055, 1098, 1130, 1145, 1179 Zhukov, V M, 1048, 1130 Zia, S, 1098, 1121 Zienkiewicz, O G, 254, 258 Ziman, J M, 1326, 1332, 1337, 1350, 1357 Zimparov, V, 1040, 1058, 1150 Zugzda, J, 1005, 1130 Zivi, S M, 753, 755, 796 Zorbil, V, 1009, 1027 Zuber, N, 658, 661, 672, 714, 717, 1012, 1027 Zucrow, J D, 1214, 1230 Zukauskov, J, 1043, 1059, 1083, 1105 Zumbrunnen, D, 1233, 1305 Z ¨ urcher, O, 670, 683, 702, 717 Zwick, S A, 647, 716 BOOKCOMP, Inc. — John Wiley & Sons / Page 1427 / 2nd Proofs / Heat Transfer Handbook / Bejan 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 [First Page] [1427], (1) Lines: 0 to 162 ——— 0.0pt PgVar ——— Normal Page PgEnds: T E X [1427], (1) SUBJECT INDEX Absolute mean asperity slope, 341, 342 Absolute Seebeck coefficient, 933–934 Absorptance, 583 Absorption coefficient, 596, 615–616, 621, 625 Absorptivity, 583 Acceleration (due to gravity), 36 Accuracy, 914, 916, 919 Acentric factor, 52–54 Acoustic mismatch model (AMM), 972 Active enhancement techniques, 1031, 1033–1034, 1097–1099 Active nucleation sites, size range of, 644–645 Adamek profile, 726 Adaptive control (for manufacturing), 1294–1296 Additives: for gases, 1033 for liquids, 1033, 1092–1097 Adiabatic heat transfer coefficient, 496 Adiabatic temperature, 496 Adverse pressure gradient, 482 Adverse tilt, 1196 AFM, see Atomic force microscope Air-fin coolers, 844, 869, 871–875 Algebraic turbulence models, 472 Alloys, 1351 Altered tube flow arrangement, 1076 Alternating direction explicit methods, 238–239 Aluminum, 123 joint conductance enhancement, 370, 372, 373 spectral, normal emittance of, 594–595 transverse high-fin exchangers, 868, 869 Ambiguity bands, 942 American Society of Mechanical Engineers (ASME), 894, 1233 AMM (acoustic mismatch model), 972 Ammonia (R-717), 70 Amplitude decay function, 242 Analogy solutions: for boundary layer flow, 475–481 for turbulent boundary layer, 471–472 Analysis methods (heat exchangers), see Heat exchangers Andreani—Yadigaroglu model, 698–699 Angle factor, 600 Anisotropic conductivity: and conservation of energy, 120 in printed circuit boards, 983, 986– 987 Anisotropic materials, 164 Annular fins, 206 Annular flow, 663–668, 745 condensation in smooth tubes, 737 with partial dryout, 685 smooth horizontal tubes, 760–761 Annular-mist flow, 737, 742 Annular wicks, 1186, 1187, 1198 Annuli: fouling resistance, 863–864 physical data for, 860–861 pressure loss, 864–865 Annulus heat transfer coefficient, 863 Antimony, 123 Antonetti—Yovanovich thermomechanical model, 366 Area goodness factor, 1066, 1067 Argon, 70–71, 359–360, 362 Arrays of submerged jets, 514, 515 Arrhenius logarithmic mixing law for viscosities of liquid mixtures, 702– 704 Artery wicks, 1186, 1187, 1198 Ash dispersions, fly, 620–621 ASME, see American Society of Mechanical Engineers Asperities, 187 Asymmetric isoflux plates, 990 Asymmetric isothermal plates, 990 1427 BOOKCOMP, Inc. — John Wiley & Sons / Page 1428 / 2nd Proofs / Heat Transfer Handbook / Bejan 1428 SUBJECT INDEX 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 [1428], (2) Lines: 162 to 340 ——— 0.0pt PgVar ——— Normal Page PgEnds: T E X [1428], (2) Asymptotic values for dimensionless spreading resistances, 300, 301 Atomic force microscope (AFM), 1339–1341 Augmentation, 1030 Autoclave, 1260–1261 Autohesion, 1271 Automotive industry, 950 Axial heat flow method, 122 Axially grooved wicks, 1186, 1187 Axisymmetric flows, 469–471 Axisymmetric objects, 510 Azeotropes, 700, 701 Backmixing, 1378, 1379 Baffled columns, 1387–1389 Ball-bearing resistance, 336 Band approximation method, 614–615 Base surface, 204 BCC lattice, see Body-centered cubic lattice Bead calorimeters, 943 Bed packings, 1390 Bei (x), 176–177 Bejan number, 415, 1147 Bell—Delaware method, 833 Benchmarking, 445 Benzene, 71 Ber (x), 176–177 Beryllium, 123 Bessel functions, 172–177 Beta functions, 169–170, 172 Bias error, 919, 920 Bilitzky fin arrays, 1004, 1005 Biological fouling, 893 Biothermal engineering, 254 Biot number (Bi), 218, 1238–1241 Bipolar chips, 949 Bismuth, 123–124 Blackbodies, 575 Blackbody emissive power, 575–580 Blackbody radiation, 348, 349 Black surfaces, 575 radiative intensity of, 581 thermal radiation between, 609–610 Block arrays, 492–493, 495–497, 513 Body-centered cubic (BCC) lattice, 1313, 1314 Body of revolution, 470 Boiling, 635–713 bubble dynamics, 646–651 bubble departure, 649–651 bubble departure frequency, 651 bubble growth, 646–648 curve, boiling, 637–639 direct contact boiling, 1379 enhancement of, 704–708 additives for liquids, 1093–1097 coiled tubes, 1091–1092 displaced enhancement devices, 1075 extended surfaces, 1067–1069 internal convective boiling, 706–708 nucleate pool boiling, 704–706 rough surfaces, 1055, 1057 swirl flow devices, 1082–1086 treated surfaces, 1043–1049 flow boiling, 662–699 flow pattern maps for horizontal flows, 666–671 flow pattern maps for vertical flows, 666 in horizontal tubes, 679–686 of mixtures, 701–702 post-dryout heat transfer, 689–699 on tube bundles, 687–689 two-phase flow patterns, 662–671 in vertical and horizontal tubes, 663–666 in vertical tubes, 671–679 forced convective boiling, 636 of mixtures, 699–704 evaporation of refrigerant—oil mixtures, 702–704 flow boiling, 701–702 nucleate boiling, 700–701 vapor-liquid equilibria and properties, 699–700 nomenclature for, 708–713 nucleation of, 640–646 nucleation superheat, 640–644 site density, 645–646 size range of active nucleation sites, 644–645 pool boiling, 636, 651–662 departure from nucleate pool boiling, 658–660 film boiling, 660–662 nucleate boiling heat transfer mechanisms, 652–653 nucleate pool boiling correlations, 653–657 transition boiling, 662 BOOKCOMP, Inc. — John Wiley & Sons / Page 1429 / 2nd Proofs / Heat Transfer Handbook / Bejan SUBJECT INDEX 1429 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 [1429], (3) Lines: 340 to 517 ——— 0.0pt PgVar ——— Normal Page PgEnds: T E X [1429], (3) Boiling coefficient of the equivalent pure fluid, 700 Boiling curve, 637–639 Boiling limit, 1194, 1201–1202 Boiling nucleation, 640–646 nucleation superheat, 640–644 site density, 645–646 size range of active nucleation sites, 644–645 Boiling number, 674 Boiling point temperature, 48, 52–54 Bolted joints, 378 Boltzmann transport equation (BTE), 1333–1338 Bonding, interlaminar, 1277–1280 Bond number, 727 Bond resistance, 870, 878 Boron, 124 Boundary conditions, 165–167 Boundary layer, 397 in flow entrance region, 396–398 forced convection, 463–466 in fully developed flow region, 400–401 turbulent forced convection, 469–472 turbulent transition, 510 Boundary layer assumption, 531–532 Boundary layer correlation, 758–759 Boundary layer flow: analogy solutions for, 475–481 similarity transformation technique for laminar, 452–455 Boundary layer regime, 1154 Boundary scattering, 1310, 1311 Boussinesq approximations, 531, 532 Bravais lattice, 1312–1314, 1318–1320 Brdlik and Savin correlation, 997 Brillouin zone, 1314, 1320 Brinell hardness, 334, 343–344, 346 Brinkman flow model, 1137 Bromley—Rohsenow correlation, 752 BTE, see Boltzmann transport equation Bubble, studies of single, 1367–1368 Bubble agitation, 652 nucleate boiling heat transfer by, 652 Rohsenow correlation of, 653–654 Bubble departure, 649–651 Bubble departure frequency, 651 Bubble dynamics, 646–651 bubble departure, 649–651 bubble departure frequency, 651 bubble growth, 646–648 Bubble growth, 646–648 Bubble trains, 1368 Bubbly flow, 663–665, 667 Bubbly flow regime, 737 Buckingham-p theorem, 30–31 Buffer region, 474 Bundle boiling factor, 688 Bundle design methods, 688–689 Bundle factor method, 772 Burning, 1252 Burnout point, 638 Butane (R-600), 64 Cadmium, 124 Calcium, 124 Calculation error, 926–927 Calibration, 914, 916–917 Calorimeters, 943 Capacitance, thermal, 7 Capacity rate ratio, 806, 807 Capillary-driven systems, 1191–1193 Capillary-driven two-phase system, 1182, 1183 Capillary evaporation, 705 Capillary limit, 1194–1201 Capillary pumped loops (CPLs), 1221– 1225 Carbon, 125 Carbon dioxide, 72, 616, 617 Carbon monoxide, 72–73 Carman—Kozeny flow model, 1136 Carman—Kozeny relationship, 1267 Cartesian coordinate system, 13, 14 heat conduction equations in, 165, 166 two-dimensional steady conduction, 223, 225, 226 Catteneo’s equation, 1332 Cavallini—Zecchin correlation, 760–761 Cavitation, 640 CBEs, see Compact brazed plate heat exchangers CBN (cubic boron nitride) grinding wheels, 1253 CCT (continuous cooling transformation) curve, 1246 Cellular phones, 950 Celsius temperature scale, 917 . 652 nucleate boiling heat transfer by, 652 Rohsenow correlation of, 653–654 Bubble departure, 649–651 Bubble departure frequency, 651 Bubble dynamics, 646–651 bubble departure, 649–651 bubble departure frequency,. boiling heat transfer mechanisms, 652–653 nucleate pool boiling correlations, 653–657 transition boiling, 662 BOOKCOMP, Inc. — John Wiley & Sons / Page 1429 / 2nd Proofs / Heat Transfer Handbook. 1396 Taylor, R E, 140, 143, 148 Teerstra, P, 292–94, 296, 299, 372, 393 TEMA, 823, 910 BOOKCOMP, Inc. — John Wiley & Sons / Page 1422 / 2nd Proofs / Heat Transfer Handbook / Bejan 1422 AUTHOR