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The results obtained by using finite time thermodynamics (FTT) are universal and have become one of important foundations of thermo-physics. A large number of researches have been carried out in the performance optimizations and optimal configurations of single-and multi-stage two-heat-reservoir direct and inverse thermodynamic cycles by using FTT. The obtained new results have more important practical significance for engineering design and optimization than those obtained by using classical thermodynamics. This paper reviews the new advances of the optimal performances and optimal configurations of single and multi-stage two-heat-reservoir direct and inverse thermodynamic cycles following different heat transfer laws, including the new advances of the optimal performances of endoreversible and irreversible Carnot heat engine, Carnot refrigerator and Carnot heat pump cycles under different heat transfer laws, and the new advances of the optimal configurations of two-heat-reservoir heat engine, refrigerator and heat pump cycles, as well as multi-stage complex thermodynamic cycles with different heat transfer laws.
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Keywords:
- direct and reverse Carnot cycles /
- optimal performance /
- optimal configuration /
- finite time thermodynamics
[1] Andresen B Finite-Time Thermodynamics 1983 (University of Copenhagen: Physics Laboratory II) pp1-149
[2] Chen L G, Wu C, Sun F R 1999 J. Non-Equilib. Thermodyn. 24 327
[3] [4] Berry R S, Kazakov V A, Sieniutycz S, Szwast Z, Tsirlin A M 1999 Thermodynamic Optimization of Finite Time Processes (Chichester: Wiley) pp1-490
[5] [6] Chen L G 2005 Finite Time Thermodynamic Analysis of Irreversible Processes and Cycles (Beijing: Higher Education Press) pp1-280 (in Chinese) [陈林根 2005 不可逆过程和循环的有限时间热力学分析 (北京: 高等教育出版社) 第1280页]
[7] [8] [9] Sieniutycz S, Jezowski J 2009 Energy Optimization in Process Systems (Oxford: Elsevier) pp 1-751
[10] [11] Andresen B 2011 Angew. Chem. Int. Ed. 50 2690
[12] [13] Tu Z C 2012 Chin. Phys. B 21 020513
[14] Curzon F L, Ahlborn B 1975 Am. J. Phys. 43 22
[15] [16] Yan Z J 1985 J. Engng. Thermophys. 6 1 (in Chinese) [严子浚 1985 工程热物理学报 6 1]
[17] [18] Sun F R, Lai X M 1988 J. Eng. Therm. Energy Power 3 1 (in Chinese) [孙丰瑞, 赖锡棉 1988 热能动力工程 3 1]
[19] [20] Chen W Z, Sun F R, Chen L G 1990 Chinese Sci. Bull. 35 1670 [陈文振, 孙丰瑞, 陈林根 1990 科学通报 35 237]
[21] [22] [23] Sun F R, Chen L G, Chen W Z 1989 J. Eng. Therm. Energy Power 4 1 (in Chinese) [孙丰瑞, 陈林根, 陈文振 1989 热能动力工程 4 1]
[24] Chen W Z, Sun F R, Chen L G 1990 J. Engng. Thermophys. 11 365 (in Chinese) [陈文振, 孙丰瑞, 陈林根 1990 工程热物理学报 11 365]
[25] [26] [27] Bejan A 1988 Advanced Engineering Thermodynamics (New York: Wiley) p134
[28] Bejan A 1988 Int. J. Heat Mass Transfer 31 1211
[29] [30] Chen L G, Sun F R, Chen W Z 1993 Chinese Sci. Bull. 38 480 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1993 科学通报 38 480]
[31] [32] [33] Chen L G, Wu C, Sun F R 1997 Energy Converse. Manage. 38 1501
[34] [35] Wu C, Kiang R L 1992 Energy. The. Int. J. 17 1173
[36] [37] Chen L G 1998 Ph. D. Dissertation (Wuhan: Naval University of Engineering) (in Chinese) [陈林根 1998 博士学位论文 (武汉: 海军工程大学)]
[38] [39] Chen L G, Sun F R 1995 Power System. Engng. 11 4 (in Chinese) [陈林根, 孙丰瑞 1995 电站系统工程 11 4]
[40] [41] Chen L G, Wu C, Sun F R 1996 J. Institute Energy 69 214
[42] [43] Wu G X, Wang H 2012 Chinese Phys. B 21 010505
[44] [45] Wang J H, Xiong S Q, He J Z, Liu J T 2012 Acta Phys. Sin. 61 080509 (in Chinese) [王建辉, 熊双泉, 何济洲, 刘江涛 2012 物理学报 61 080509]
[46] [47] He J Z, He X, Zheng J 2012 Chinese Phys. B 21 050303
[48] Angulo-Brown F 1991 J. Appl. Phys. 69 7465
[49] [50] Yan Z J 1993 J. Appl. Phys. 73 3583
[51] [52] [53] Chen L G, Sun F R, Chen W Z 1994 J. Eng. Therm. Energy Power 9 374 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1994 热能动力工程 9 374]
[54] [55] Cheng C Y, Chen C K 1997 J. Phys. D: Appl. Phys. 30 1602
[56] Chen L G, Zhou J P, Sun F R, Wu C 2004 Appl. Energy 77 327
[57] [58] [59] Xia D, Chen L G, Sun F R 2006 Int. J. Ambient Energy 27 15
[60] [61] Chen L G, Zhang W L, Sun F R 2007 Appl. Energy 84 512
[62] Zhang W L, Chen L G, Sun F R, Wu C 2007 Int. J. Ambient Energy 28 51
[63] [64] Cheng C Y, Chen C K 1998 Energy Convers. Manage. 39 33
[65] [66] Khaliq A, Kumar R 2005 Appl. Energy 81 73
[67] [68] Tyagi S K, Kaushik S C, Salhotra R 2002 J. Phys. D: Appl. Phys. 35 2668
[69] [70] [71] Salamon P, Nitzon A 1981 J. Chem. Phys. 74 3546
[72] Sieniutycz S, Salamon P 1990 Advances in Thermodynamics. Volume 4: Finite Time Thermodynamics and Thermoeconomics (New York: Taylor Francis) pp1-308
[73] [74] [75] Berry R S, Salamon P, Heal G 1978 Resour. Energy 1 125
[76] Clark J A 1986 J. Non-Equilib. Thermodyn. 11 85
[77] [78] [79] Tsatsaronts G 1993 Prog. Energy Combust. Sci. 19 227
[80] Chen L G, Sun F R, Chen W Z 1991 Nature J. 14 948 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1991 自然杂志 14 948]
[81] [82] Sun F R, Chen L G, Chen W Z 1991 Trans. CSICE 9 285 (in Chinese) [孙丰瑞, 陈林根, 陈文振 1991 内燃机学报 9 286]
[83] [84] Chen L G, Sun F R, Chen W Z 1991 J. Eng. Therm. Energy Power 6 237 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1991 热能动力工程 6 237]
[85] [86] Chen L G, Sun F R, Chen W Z 1991 Chinese Sci. Bull. 36 233 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1991 科学通报 36 233]
[87] [88] Chen L G, Sun F R, Wu C 1997 Int. J. Ambient Energy 18 216
[89] [90] [91] Ibrahim O M, Klein S A, Mitchell J W 1992 ASME Trans. J. Sol. Energy Engng. 114 267
[92] [93] De Vos A 1995 Energy Convers. Manage. 36 1
[94] De Vos A 1997 Energy Convers Manage. 38 311
[95] [96] Bejan A 1993 ASME Trans. J. Energy Resource Tech. 115 148
[97] [98] Zheng Z P, Chen L G, Sun F R, Wu C 2006 Int. J. Ambient Energy 27 29
[99] [100] [101] Zheng Z P, Chen L G, Sun F R 2006 J. Thermal. Sci. Tech. 5 274 (in Chinese) [郑兆平, 陈林根, 孙丰瑞 2006 热科学与技术 5 274]
[102] Zheng Z P 2007 MS Thesis (Wuhan: Naval University of Engineering) (in Chinese) [郑兆平 2007 硕士学位论文 (武汉: 海军工程大学)]
[103] [104] [105] Chen L G, Sun F R, Wu C 2004 Appl. Energy 79 15
[106] [107] Sahin B, Kodal A 2001 Energy Convers. Manage. 42 1085
[108] [109] Kodal A, Sahin B 2003 Int. J. Therm. Sci. 42 777
[110] Ondrechen M J, Andresen B, Mozurkewich M, Berry R S 1981 Am. J. Phys. 49 681
[111] [112] [113] Yan Z J 1984 J. Engng. Thermophys. 5 125 (in Chinese) [严子浚 1984 工程热物理学报 5 125]
[114] [115] Grazzini G 1991 Energy, The Int. J. 16 747
[116] Lee W Y, Kin S S 1991 Int. J. Energy. Res. 15 149
[117] [118] [119] Ibrahim O M, Klein S A, Mitchell J W 1991 Trans. ASME, J. Engng. Gas-Turbine Power 113 514
[120] Gutowicz-Krusin D, Procaccia J, Ross J 1978 J. Chem. Phys. 69 3898
[121] [122] Wu C 1988 Int. J. Ambient Energy 9 17
[123] [124] [125] Yan Z J, Chen L X 1988 Chinese Sci. Bull. 33 1543 (in Chinese) [严子浚, 陈丽璇 1988 科学通报 33 1543]
[126] Wu C 1989 Int. J. Ambient Energy 10 145
[127] [128] [129] Wu C 1992 Energy Convers. Manage. 33 279
[130] [131] Goktun S, Ozkaynak S, Yavuz H 1993 Energy the Int. J. 18 651
[132] Angulo-Brown F, Paez-Hernandez R 1993 J. Appl. Phys. 74 2216
[133] [134] [135] Huleihil M, Andresen B 2006 J. Appl. Phys. 100 014911.
[136] Chen L G, Sun F R, Wu C 1997 Appl. Therm. Engng. 17 277
[137] [138] De Vos A 1985 Am. J. Phys. 53 570
[139] [140] De Vos A 1987 J. Phys. D: Appl. Phys. 20 232
[141] [142] Chen L X, Yan Z J 1989 J. Chem. Phys. 90 3740
[143] [144] [145] Gordon J M 1990 Am. J. Phys. 58 370
[146] [147] Chen L G, Sun F R, Chen W Z 1995 Bull. Sci. Tech. 11 126 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1995 科技通报 11 126]
[148] [149] Chen L G, Zhu X Q, Sun F R Wu C 2004 Appl. Energy 78 305
[150] Chen L G, Zhu X Q, Sun F R, Wu C 2006 Appl. Energy 83 537
[151] [152] [153] Chen L G, Sun F R, Wu C 1999 J. Phys. D: Appl. Phys. 32 99
[154] Zhou S B, Chen L G, Sun F R 2005 Appl. Energy 81 376
[155] [156] Li J, Chen L G, Sun F R, Wu C 2008 Int. J. Ambient Energy 29 149
[157] [158] [159] Chen L G, Li J, Sun F R 2008 Appl. Energy 85 52
[160] Li J, Chen L G, Sun F R 2009 Acta Energiae Solaris Sinica 30 1173 (in Chinese) [李俊, 陈林根, 孙丰瑞 2009 太阳能学报 30 1173]
[161] [162] Li J 2010 Ph. D. Dissertation (Wuhan: Naval University of Enginerring) (in Chinese) [李俊 2010 博士学位论文 (武汉: 海军工程大学)]
[163] [164] [165] Chen L G, Sun F R, Chen W Z 1995 Gas Turbine Tech. 8 16 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1995 燃气轮机技术 8 16]
[166] Chen L G, Zhu X Q, Sun F R, Wu C 2006 Appl. Energy 83 573
[167] [168] [169] Sogut O, Durmayaz A 2006 J. Energy Institute 79 246
[170] Zhu X Q, Chen L G, Sun F R, WuC 2003 Int. J. Ambient Energy 24 189
[171] [172] Zhu X Q 2004 MS Thesis (Wuhan: Naval University of Engineering) (in Chinese) [朱小芹 2004 硕士学位论文 (武汉: 海军工程大学)]
[173] [174] Zhu X Q, Chen L G, Sun F R, Wu C 2005 Open Sys. Inf. Dyn. 12 249
[175] [176] Li J, Chen L G, Sun F R 2011 Int. J. Sustainable Energy 30 55
[177] [178] [179] Li J, Chen L G, Sun F R 2011 Int. J. Energy and Environment 2 57
[180] Chen L G, Sun F R, Wu C 2005 Appl. Energy 81 388
[181] [182] [183] Wu C, Chen L G, Sun F R 1996 Energy, The Int. J. 21 1127
[184] [185] Zhu X Q, Chen L G, Sun F R 2003 J. Huaiyin Teacher's College 2 104 (in Chinese) [朱小芹, 陈林根, 孙丰瑞 2003 淮阴师范学院学报 (自然科学版) 2 104]
[186] [187] Li J, Chen L G, Sun F R 2011 Int. J. Energy and Environment 2 171
[188] [189] Leff H S, Teeter W D 1978 Am. J. Phys. 46 19
[190] Rozonoer L I, Tsirlin A M 1983 Avtomat. Telemekh 1 70 2 88, 3 50
[191] [192] Yan Z J 1984 Phys. 13 768 (in Chinese) [严子浚 1984 物理 13 768]
[193] [194] Goth Y, Feidt M 1986 C R Acad. Sc. Paris 303 19
[195] [196] Feidt M 1988 12th IMACS World Congress on Scientific Computation Paris, July 18-22, 1988 p124
[197] [198] Philippi I, Feidt M 1991 XVIII Int. Congress on Refrigeration Canada, Montreal, august 10-17, 1991 p146
[199] [200] [201] Feidt M 1997 Entropie 205 53
[202] Sun F R, Chen W Z, Chen L G 1990 J. Naval Acad. Engng. 2 40 (in Chinese) [孙丰瑞, 陈文振, 陈林根 1990 海军工程学院学报 2 40]
[203] [204] [205] Chen W Z, Sun F R, Chen L G 1991 Chinese Sci. Bull. 36 763 [陈文振, 孙丰瑞, 陈林根 1990 科学通报 35 869]
[206] [207] Klein S A 1992 Int. J. Refrig. 15 181
[208] [209] Wu C 1995 Energy Convers. Manage. 36 7
[210] Gordon J M, Ng K C 2000 Cool Thermodynamics (Cambridge: Cambridge Int. Science Publishers) p46
[211] [212] [213] Bejan A 1989 Int. J. Heat Mass Transfer 32 1631
[214] Gordon J M, Ng K C 1994 J. Appl. Phys. 75 2769
[215] [216] Chen L G, Wu C, Sun F R 1996 Appl. Therm. Engng. 16 989
[217] [218] Chen L G, Wu C, Sun F R 1998 Energy Convers. Manage. 39 45
[219] [220] [221] Grazzini G 1993 Int. J. Refrig. 16 101
[222] Chiou J S, Liu C J, Chen C K 1995 J. Phys. D: Appl. Phys. 28 1314
[223] [224] Ait-Ali M A 1996 J. Phys. D: Appl. Phys. 29 975
[225] [226] Chen L G, Sun F R 1995 J. Naval Acad. Engng. 3 19 (in Chinese) [陈林根, 孙丰瑞 1995 海军工程学院学报 3 19]
[227] [228] [229] Chen L G, Sun F R, Wu C, Kiang R L 1997 Appl. Therm. Engng. 17 401
[230] Chen L G, Sun F R, Wu C 2004 Appl. Energy 77 339
[231] [232] [233] Wu X, He J Z, Ouyang W P 2006 Chinese Phys. B 15 53
[234] Chen L G, Sun F R, Chen W Z 1992 Nature J. 15 633 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1992 自然杂志 15 633]
[235] [236] Tu Y M, Chen L G, Sun F R 2005 J. Thermal. Sci. Tech. 4 199 (in Chinese) [屠友明, 陈林根, 孙丰瑞 2005 热科学与技术 4 199
[237] [238] [239] Tu Y M, Chen L G, Sun F R, Wu C 2006 Int. J. Exergy 3 191
[240] Chen L G, Zhu X Q, Sun F R, Wu C 2005 J. Phys. D: Appl. Phys. 38 113
[241] [242] [243] Chen L G, Sun F R, Chen W Z 1991 Chinese Sci. Bull. 6 156 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1991 科学通报 36 156]
[244] Chen L G, Zheng Z P, Sun F R, Wu C 2008 Int. J. Ambient Energy 29 197
[245] [246] [247] Ma K, Chen L G, Sun F R 2009 Sadhana, Acad. Proc. Eng. Sci. 34 851
[248] Sahin B, Kodal A 1999 Energy Convers. Manage. 40 951
[249] [250] [251] Kodal A, Sahin B, Yilmaz T 2000 Energy Convers. Manage. 41 607
[252] [253] Sahin B, Kodal A 2002 Int. J. Refrig. 25 872
[254] Chen J C, Yan Z J 1987 Cryogenics 4 27 (in Chinese) [陈金灿, 严子浚 1987 低温工程 4 27]
[255] [256] Chen L G, Sun F R, Gong J Z, Chen W Z, Lai X M 1994 J. Engng. Thermophys. 15 249 (in Chinese) [陈林根, 孙丰瑞, 龚建政, 陈文振, 赖锡棉 1994 工程热物理学报 15 249]
[257] [258] Wu C, Chen L G, Sun F R 1996 Int. J. Ambient Energy 17 199
[259] [260] [261] Chen L G, Sun F R, Chen W Z 1989 Cryogenics 5 29 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1989 低温工程 5 29]
[262] [263] Wu C, Chen L G, Sun F R, Chen W Z 1996 Appl. Therm. Engng. 16 299
[264] [265] Chen W Z, Sun F R, Cheng S, Chen L G 1995 Int. J. Energy Res. 19 751
[266] Feidt M 1999 Thermodynamic Optimization of Complex Energy Systems (Dordrecht: Kluwer Academic Press) p385
[267] [268] Chen W Z, Sun F R, Chen L G 1990 Chinese Sci. Bull. 35 1837 (in Chinese) [陈文振, 孙丰瑞, 陈林根 1990 科学通报 35 1837]
[269] [270] Yan Z J, Chen J C 1990 J. Phys. D: Appl. Phys. 23 136
[271] [272] [273] Chen L G, Sun F R, Wu C 1996 J. Institute Energy 69 96
[274] Sun F R, Chen W Z, Chen L G 1991 J. Engng. Thermophys. 12 357 (in Chinese) [孙丰瑞, 陈文振, 陈林根 1991 工程热物理学报 12 357]
[275] [276] Assad M E H 1999 Recent Advances in Finite Time Thermodynamics (New York: Nova Science Publishers) p181
[277] [278] Chen L G, Sun F R, Wu C 2001 J. Non-Equilib. Thermodyn. 26 291
[279] [280] Li J, Chen L G, Sun F R 2008 J. Energy Institute 81 168
[281] [282] Li J, Chen L G, Sun F R 2008 Proc. IMechE, Part E: J. Proc. Mech. Eng. 222 55
[283] [284] [285] Chen L G, Sun F R, Chen W Z 1992 Cryogenics and Superconductivity 21 5 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1992 低温与超导 21 5]
[286] Zhu X Q, Chen L G, Sun F R, Wu C 2006 J. Energy Institute 79 42
[287] [288] Chen L G, Zhu X Q, Sun F R, Wu C 2007 Int. J. Ambient Energy 28 213
[289] [290] [291] Li J, Chen L G, Sun F R, Wu C 2011 Int. J. Ambient Energy 32 31
[292] Chen L G, Li J, Sun F R 2012 Int. J. Sustainable Energy 31 59
[293] [294] [295] Chen L G, Wu C, Sun F R 2001 Exergy, An Int. J. 1 295
[296] Chen L G, Li J, Sun F R, Wu C 2011 Int. J. Ambient Energy 32 25
[297] [298] Blanchard C H 1980 J. Appl. Phys. 51 2471
[299] [300] [301] Wu C 1993 Int. J. Ambient Energy 14 25
[302] [303] Chen L G, Wu C, Sun F R 1997 Appl. Therm. Engng. 17 103
[304] [305] Wu C, Chen L G, Sun F R 1998 Energy Convers. Manage. 39 445
[306] [307] Sun F R, Chen L G, Chen W Z 1993 J. Naval Acad. Engng. 65 22 (in Chinese) [孙丰瑞, 陈林根, 陈文振 1993 海军工程学院学报 65 22]
[308] Wu C, Schulden W 1994 Energy Convers. Manage. 35 459
[309] [310] Chen L G, Sun F R, Chen W Z 1994 J. Eng. Therm. Energy Power 9 121 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1994 热能动力工程 9 121]
[311] [312] Chen L G, Wu C, Sun F R 1997 Int. J. Ambient Energy 18 129
[313] [314] Cheng C Y, Chen C K 1995 J. Phys. D: Appl. Phys. 28 2451
[315] [316] [317] Chen L G, Sun F R 1997 J. Engng. Thermophys. 18 25
[318] [319] Chen L G, Zhu X Q, Sun F R, Wu C 2007 Appl. Energy 84 78
[320] [321] Tyagi S K, Kaushik S C, Salohtra R 2002 J. Phys. D: Appl. Phys. 35 2058
[322] Chen L G, Sun F R 1993 Practice Energy 3 29 (in Chinese) [陈林根, 孙丰瑞 1993 实用能源 3 29]
[323] [324] [325] Chen L G, Zheng Z P, Sun F R 2008 Termotehnica (Thermal Engineering) 12 22
[326] Kodal A, Sahin B, Oktem A S 2000 Energy Convers. Manage. 41 1989
[327] [328] [329] Kodal A, Sahin B, Erdil A 2002 Int. J. Exergy 2 159
[330] [331] Chen L G, Sun F R, Chen W Z 1990 J. Eng. Therm. Energy Power 5 48 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1990 热能动力工程 5 48]
[332] Zhu X Q, Chen L G, Sun F R, Wu C 2002 Open Sys. Inf. Dyn. 9 251
[333] [334] Sun F R, Chen W Z, Chen L G, Wu C 1997 Energy Convers. Manage. 38 1439
[335] [336] Ni N, Chen L G, Sun F R, Wu C 1999 J. Institute Energy 72 64
[337] [338] [339] Kodal A 1999 Recent Advances in Finite Time Thermodynamics (New York: Nova Science Publishers) p299
[340] Zhu X Q, Chen L G, Sun F R 2001 Phys. Scr. 64 584
[341] [342] [343] Zhu X Q, Chen L G, Sun F R, Wu C 2005 Int. J. Exergy 2 423
[344] Zhu X Q, Chen L G, Sun F R, Wu C 2005 J. Energy Institute 78 5
[345] [346] Wu C, Chen L G, Sun F R 1998 Energy Convers. Manage. 39 579
[347] [348] Li J, Chen L G, Sun F R 2008 Appl. Energy 85 96
[349] [350] Li J, Chen L G, Sun F R 2010 Pramana J. Phys. 74 219
[351] [352] Chen L G, Li J, Sun F R, Wu C 2009 Int. J. Ambient Energy 30 102
[353] [354] Li J, Chen L G, Sun F R 2009 Termotehnica Thermal Engineering 13 61
[355] [356] [357] Li J, Chen L G, Sun F R 2011 Int. J. Sustainable Energy 30 26
[358] Rubin M H 1979 Phys. Rev. A 19 1272
[359] [360] [361] Rubin M H 1980 Phys. Rev. A 22 1741
[362] [363] Salamon P, Nitzan A, Andresen B, Berry R S 1980 Phys. Rev. A 27 2115
[364] [365] Kuznetsov A G, Rudenko A V, Tsirlin A M 1986 Autom. Remote Control 6 693
[366] Orlov V N 1989 Autom. Remote Control 4 64
[367] [368] [369] Lampinen M J, Vuorisulo J 1991 J. Appl. Phys. 69 597
[370] [371] Ondrechen M J, Rubin M H, Band Y B 1983 J. Chem. Phys. 78 4721
[372] [373] Yan Z J, Chen L X 1997 J. Phys. A: Math. Gen. 30 8119
[374] Chen L G, Zhou S B, Sun F R, Wu C 2002 Open Sys. Inf. Dyn. 9 85
[375] [376] [377] Angulo-Brown F, Ares De Parga G, Arias-Hernandez L A 2002 J. Phys. D: Appl. Phys. 35 1089
[378] [379] Orlov V N 1985 Sov. Phys. Dokl. 30 506
[380] [381] Li J, Chen L G, Sun F R 2007 Appl. Energy 84 944
[382] Song H J, Chen L G, Li J, Sun F R 2006 J. Appl. Phys. 100 124907
[383] [384] [385] Song H J 2008 Ph. D. Dissertation (Wuhan: Naval University of Engineering) (in Chinese) [宋汉江 2008 博士学位论文 (武汉: 海军工程大学)]
[386] Song H J, Chen L G, Sun F R 2007 Appl. Energy 84 374
[387] [388] Song H J, Chen L G, Sun F R 2008 Sci. China Ser. G: Phys. Mech. Astron. 51 1272 (in Chinese) [宋汉江, 陈林根, 孙丰瑞 2008 中国科学G辑: 物理学, 力学, 天文学 38 1083]
[389] [390] Song H J, Chen L G, Sun F R, Wang S B 2008 J. Non-Equilib. Thermodyn. 33 275
[391] [392] [393] Chen L G, Song H J, Sun F R, Wang S B 2009 Int. J. Ambient Energy 30 137
[394] Chen L G, Song H J, Sun F R, Wang S B 2009 Rev. Mex. Fis. 55 55
[395] [396] Chen L G, Chen S T, Sun F R, Chen W Z 1993 Gas Turbine Tech. 6 20 (in Chinese) [陈林根, 陈少堂, 孙丰瑞, 陈文振 1993 燃气轮机技术 6 20]
[397] [398] Yan Z J, Chen L X 1990 J. Chem. Phys. 92 1994
[399] [400] [401] Chen L G, Sun F R, Wu C 2006 Appl. Energy 83 71
[402] [403] Xiong G H, Chen J C, Yan Z J 1980 J. Xiamen University (Nature Science) 28 489 (in Chinese) [熊国华, 陈金灿, 严子浚 1980 厦门大学学报 (自然科学版) 28 489]
[404] [405] Li J, Chen L G, Sun F R 2009 Sci. China Ser. G: Phys. Mech. Astron. 52 587 [李俊, 陈林根, 孙丰瑞 2009 中国科学G辑: 物理学, 力学, 天文学 39 255]
[406] [407] Chen T Z 1985 J. Xiamen University 24 442 (in Chinese) [陈天择 1985 厦门大学学报 24 442]
[408] [409] Chen L G, Sun F R, Ni N, Wu C 1998 Energy Convers. Manage 39 767
[410] Chen L G, Bi Y H, Wu C 1999 Int. J. Energy, Environ. Econ. 9 77
[411] [412] [413] Amelkin S A, Andresen B, Burzler J M, Hoffmann K H, Tsirlin A M 2004 J. Phys. D: Appl Phys. 37 1400
[414] Amelkin S A, Andresen B, Burzler J M, Hoffmann K H, Tsirlin A M 2005 J. Non-Equlib. Thermodyn. 30 67
[415] [416] Tsirlin A M, Kazakov V, Ahremenkov A A, Alimova N A 2006 J. Phys. D: Appl. Phys. 39 4269
[417] [418] Chen L G, Li J, Sun F R 2009 Therm. Sci. 13 33
[419] [420] Sieniutycz S 1997 FLOWERS 97' (Padova: SGE) p151
[421] [422] [423] Sieniutycz S 2000 Phys. Reports 326 165
[424] Sieniutycz S, Von S M 1998 Energy Convers. Manage. 39 1423
[425] [426] Sieniutycz S 1998 Int. J. Engng. Sci. 36 577
[427] [428] Sieniutycz S 1999 Physica A 264 234
[429] [430] Sieniutycz S, Szwast Z 2003 J. Non-Equilib. Thermodyn. 28 85
[431] [432] Sieniutycz S 2004 Arch. Thermodyn. 25 69
[433] [434] [435] Sieniutycz S 1978 Optimization in Process Engineering (Warsaw: Wydawnictwa Naukowo Techniczne) p78
[436] Sieniutycz S 1984 Drying 84 62
[437] [438] [439] Sieniutycz S 2003 Rep. Math. Phys. 51 1
[440] Sieniutycz S 2006 Rep. Math. Phys. 57 289
[441] [442] [443] Sieniutycz S 1997 Phys. Rev. 56 5051
[444] [445] Sieniutycz S 1997 J. Non-Equilib. Thermodyn. 22 260
[446] [447] Sieniutycz S 1999 Recent Advances in Finite Time Thermodynamics (New York: Nova Science Publishers) p189
[448] Szwast Z, Sieniutycz S 1999 Recent Advances in Finite Time Thermodynamics (New York: Nova Science Publishers) p221
[449] [450] Kuran P 2006 Ph.D. Dissertation (Poland: Warsaw University of Technology)
[451] [452] [453] Sieniutycz S, Kuran P 2005 Int. J. Heat Mass Transfer 48 719
[454] Sieniutycz S, Kuran P 2006 Int. J. Heat Mass Transfer 49 3264
[455] [456] [457] Sieniutycz S 2007 Int. J. Heat Mass Transfer 50 2714
[458] [459] Sieniutycz S 1997 Open Sys. Inf. Dyn. 4 185
[460] Sieniutycz S 1999 J. Non-equilib. Thermodyn 24 40
[461] [462] [463] Sieniutycz S 2000 Energy Convers. Manage. 41 2009
[464] [465] Sieniutycz S 2002 Int. J. Heat Mass Transfer 45 2995
[466] [467] Sieniutycz S 2003 Int. J. Thermodyn. 6 59
[468] [469] Sieniutycz S 2004 Int. J. Heat Mass Transfer 47 515
[470] Sieniutycz S 2004 Open Sys. Inf. Dyn. 11 185
[471] [472] Sieniutycz S 2007 Transp. Porous Med. 69 239
[473] [474] [475] Sieniutycz S 2007 Int. J. Heat Mass Transfer 50 1278
[476] [477] Sieniutycz S 2008 Int. J. Therm. Sci. 47 495
[478] Sieniutycz S 2008 Int. J. Heat Mass Transfer 51 5859
[479] [480] Sieniutycz S 2008 Chem. Proc. Engng. 29 321
[481] [482] [483] Sieniutycz S 2009 Appl. Math. Modelling 33 1457
[484] Sieniutycz S 2009 Energy 34 334
[485] [486] [487] Sieniutycz S 2009 Drying Technolog 27 322
[488] [489] Sieniutycz S 2009 Int. J. Heat Mass Transfer 52 245
[490] Sieniutycz S 2008 Int. J. Heat Mass Transfer 51 2665
[491] [492] [493] Li J, Chen L G, Sun F R 2006 J. Thermal. Sci. Tech. 5 335 (in Chinese) [李俊, 陈林根, 孙丰瑞 2006 热科学与技术 5 335]
[494] [495] Li J, Chen L G, Sun F R 2009 J. Energy Institute 82 53
[496] Li J, Chen L G, Sun F R 2009 Math. Compu. Model. 49 542
[497] [498] Li J, Chen L G, Sun F R 2008 J. Thermal. Sci. Tech. 7 41 (in Chinese) [李俊, 陈林根, 孙丰瑞 2008 热科学与技术 7 41]
[499] [500] Li J, Chen L G, Sun F R 2010 Therm. Sci. 14 1
[501] [502] Xia S J 2012 Ph. D. Dissertation (Wuhan: Naval University of Engineering) (in Chinese) [夏少军 2012 博士学位论文 (武汉: 海军工程大学)]
[503] [504] Xia S J, Chen L G, Sun F R 2012 Int. J. Energy and Environment 3 359
[505] [506] [507] Xia S J, Chen L G, Sun F R 2011 Chinese Sci. Bull. 56 1147
[508] [509] Xia S J, Chen L G, Sun F R 2011 Acta Physica Polonica A 119 747
[510] Xia S J, Chen L G, Sun F R 2011 Energy 36 633
[511] [512] [513] Chen L G, Xia S J, Sun F R 2011 Int. J. Chemial Reactor Eng. 9 A10
-
[1] Andresen B Finite-Time Thermodynamics 1983 (University of Copenhagen: Physics Laboratory II) pp1-149
[2] Chen L G, Wu C, Sun F R 1999 J. Non-Equilib. Thermodyn. 24 327
[3] [4] Berry R S, Kazakov V A, Sieniutycz S, Szwast Z, Tsirlin A M 1999 Thermodynamic Optimization of Finite Time Processes (Chichester: Wiley) pp1-490
[5] [6] Chen L G 2005 Finite Time Thermodynamic Analysis of Irreversible Processes and Cycles (Beijing: Higher Education Press) pp1-280 (in Chinese) [陈林根 2005 不可逆过程和循环的有限时间热力学分析 (北京: 高等教育出版社) 第1280页]
[7] [8] [9] Sieniutycz S, Jezowski J 2009 Energy Optimization in Process Systems (Oxford: Elsevier) pp 1-751
[10] [11] Andresen B 2011 Angew. Chem. Int. Ed. 50 2690
[12] [13] Tu Z C 2012 Chin. Phys. B 21 020513
[14] Curzon F L, Ahlborn B 1975 Am. J. Phys. 43 22
[15] [16] Yan Z J 1985 J. Engng. Thermophys. 6 1 (in Chinese) [严子浚 1985 工程热物理学报 6 1]
[17] [18] Sun F R, Lai X M 1988 J. Eng. Therm. Energy Power 3 1 (in Chinese) [孙丰瑞, 赖锡棉 1988 热能动力工程 3 1]
[19] [20] Chen W Z, Sun F R, Chen L G 1990 Chinese Sci. Bull. 35 1670 [陈文振, 孙丰瑞, 陈林根 1990 科学通报 35 237]
[21] [22] [23] Sun F R, Chen L G, Chen W Z 1989 J. Eng. Therm. Energy Power 4 1 (in Chinese) [孙丰瑞, 陈林根, 陈文振 1989 热能动力工程 4 1]
[24] Chen W Z, Sun F R, Chen L G 1990 J. Engng. Thermophys. 11 365 (in Chinese) [陈文振, 孙丰瑞, 陈林根 1990 工程热物理学报 11 365]
[25] [26] [27] Bejan A 1988 Advanced Engineering Thermodynamics (New York: Wiley) p134
[28] Bejan A 1988 Int. J. Heat Mass Transfer 31 1211
[29] [30] Chen L G, Sun F R, Chen W Z 1993 Chinese Sci. Bull. 38 480 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1993 科学通报 38 480]
[31] [32] [33] Chen L G, Wu C, Sun F R 1997 Energy Converse. Manage. 38 1501
[34] [35] Wu C, Kiang R L 1992 Energy. The. Int. J. 17 1173
[36] [37] Chen L G 1998 Ph. D. Dissertation (Wuhan: Naval University of Engineering) (in Chinese) [陈林根 1998 博士学位论文 (武汉: 海军工程大学)]
[38] [39] Chen L G, Sun F R 1995 Power System. Engng. 11 4 (in Chinese) [陈林根, 孙丰瑞 1995 电站系统工程 11 4]
[40] [41] Chen L G, Wu C, Sun F R 1996 J. Institute Energy 69 214
[42] [43] Wu G X, Wang H 2012 Chinese Phys. B 21 010505
[44] [45] Wang J H, Xiong S Q, He J Z, Liu J T 2012 Acta Phys. Sin. 61 080509 (in Chinese) [王建辉, 熊双泉, 何济洲, 刘江涛 2012 物理学报 61 080509]
[46] [47] He J Z, He X, Zheng J 2012 Chinese Phys. B 21 050303
[48] Angulo-Brown F 1991 J. Appl. Phys. 69 7465
[49] [50] Yan Z J 1993 J. Appl. Phys. 73 3583
[51] [52] [53] Chen L G, Sun F R, Chen W Z 1994 J. Eng. Therm. Energy Power 9 374 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1994 热能动力工程 9 374]
[54] [55] Cheng C Y, Chen C K 1997 J. Phys. D: Appl. Phys. 30 1602
[56] Chen L G, Zhou J P, Sun F R, Wu C 2004 Appl. Energy 77 327
[57] [58] [59] Xia D, Chen L G, Sun F R 2006 Int. J. Ambient Energy 27 15
[60] [61] Chen L G, Zhang W L, Sun F R 2007 Appl. Energy 84 512
[62] Zhang W L, Chen L G, Sun F R, Wu C 2007 Int. J. Ambient Energy 28 51
[63] [64] Cheng C Y, Chen C K 1998 Energy Convers. Manage. 39 33
[65] [66] Khaliq A, Kumar R 2005 Appl. Energy 81 73
[67] [68] Tyagi S K, Kaushik S C, Salhotra R 2002 J. Phys. D: Appl. Phys. 35 2668
[69] [70] [71] Salamon P, Nitzon A 1981 J. Chem. Phys. 74 3546
[72] Sieniutycz S, Salamon P 1990 Advances in Thermodynamics. Volume 4: Finite Time Thermodynamics and Thermoeconomics (New York: Taylor Francis) pp1-308
[73] [74] [75] Berry R S, Salamon P, Heal G 1978 Resour. Energy 1 125
[76] Clark J A 1986 J. Non-Equilib. Thermodyn. 11 85
[77] [78] [79] Tsatsaronts G 1993 Prog. Energy Combust. Sci. 19 227
[80] Chen L G, Sun F R, Chen W Z 1991 Nature J. 14 948 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1991 自然杂志 14 948]
[81] [82] Sun F R, Chen L G, Chen W Z 1991 Trans. CSICE 9 285 (in Chinese) [孙丰瑞, 陈林根, 陈文振 1991 内燃机学报 9 286]
[83] [84] Chen L G, Sun F R, Chen W Z 1991 J. Eng. Therm. Energy Power 6 237 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1991 热能动力工程 6 237]
[85] [86] Chen L G, Sun F R, Chen W Z 1991 Chinese Sci. Bull. 36 233 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1991 科学通报 36 233]
[87] [88] Chen L G, Sun F R, Wu C 1997 Int. J. Ambient Energy 18 216
[89] [90] [91] Ibrahim O M, Klein S A, Mitchell J W 1992 ASME Trans. J. Sol. Energy Engng. 114 267
[92] [93] De Vos A 1995 Energy Convers. Manage. 36 1
[94] De Vos A 1997 Energy Convers Manage. 38 311
[95] [96] Bejan A 1993 ASME Trans. J. Energy Resource Tech. 115 148
[97] [98] Zheng Z P, Chen L G, Sun F R, Wu C 2006 Int. J. Ambient Energy 27 29
[99] [100] [101] Zheng Z P, Chen L G, Sun F R 2006 J. Thermal. Sci. Tech. 5 274 (in Chinese) [郑兆平, 陈林根, 孙丰瑞 2006 热科学与技术 5 274]
[102] Zheng Z P 2007 MS Thesis (Wuhan: Naval University of Engineering) (in Chinese) [郑兆平 2007 硕士学位论文 (武汉: 海军工程大学)]
[103] [104] [105] Chen L G, Sun F R, Wu C 2004 Appl. Energy 79 15
[106] [107] Sahin B, Kodal A 2001 Energy Convers. Manage. 42 1085
[108] [109] Kodal A, Sahin B 2003 Int. J. Therm. Sci. 42 777
[110] Ondrechen M J, Andresen B, Mozurkewich M, Berry R S 1981 Am. J. Phys. 49 681
[111] [112] [113] Yan Z J 1984 J. Engng. Thermophys. 5 125 (in Chinese) [严子浚 1984 工程热物理学报 5 125]
[114] [115] Grazzini G 1991 Energy, The Int. J. 16 747
[116] Lee W Y, Kin S S 1991 Int. J. Energy. Res. 15 149
[117] [118] [119] Ibrahim O M, Klein S A, Mitchell J W 1991 Trans. ASME, J. Engng. Gas-Turbine Power 113 514
[120] Gutowicz-Krusin D, Procaccia J, Ross J 1978 J. Chem. Phys. 69 3898
[121] [122] Wu C 1988 Int. J. Ambient Energy 9 17
[123] [124] [125] Yan Z J, Chen L X 1988 Chinese Sci. Bull. 33 1543 (in Chinese) [严子浚, 陈丽璇 1988 科学通报 33 1543]
[126] Wu C 1989 Int. J. Ambient Energy 10 145
[127] [128] [129] Wu C 1992 Energy Convers. Manage. 33 279
[130] [131] Goktun S, Ozkaynak S, Yavuz H 1993 Energy the Int. J. 18 651
[132] Angulo-Brown F, Paez-Hernandez R 1993 J. Appl. Phys. 74 2216
[133] [134] [135] Huleihil M, Andresen B 2006 J. Appl. Phys. 100 014911.
[136] Chen L G, Sun F R, Wu C 1997 Appl. Therm. Engng. 17 277
[137] [138] De Vos A 1985 Am. J. Phys. 53 570
[139] [140] De Vos A 1987 J. Phys. D: Appl. Phys. 20 232
[141] [142] Chen L X, Yan Z J 1989 J. Chem. Phys. 90 3740
[143] [144] [145] Gordon J M 1990 Am. J. Phys. 58 370
[146] [147] Chen L G, Sun F R, Chen W Z 1995 Bull. Sci. Tech. 11 126 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1995 科技通报 11 126]
[148] [149] Chen L G, Zhu X Q, Sun F R Wu C 2004 Appl. Energy 78 305
[150] Chen L G, Zhu X Q, Sun F R, Wu C 2006 Appl. Energy 83 537
[151] [152] [153] Chen L G, Sun F R, Wu C 1999 J. Phys. D: Appl. Phys. 32 99
[154] Zhou S B, Chen L G, Sun F R 2005 Appl. Energy 81 376
[155] [156] Li J, Chen L G, Sun F R, Wu C 2008 Int. J. Ambient Energy 29 149
[157] [158] [159] Chen L G, Li J, Sun F R 2008 Appl. Energy 85 52
[160] Li J, Chen L G, Sun F R 2009 Acta Energiae Solaris Sinica 30 1173 (in Chinese) [李俊, 陈林根, 孙丰瑞 2009 太阳能学报 30 1173]
[161] [162] Li J 2010 Ph. D. Dissertation (Wuhan: Naval University of Enginerring) (in Chinese) [李俊 2010 博士学位论文 (武汉: 海军工程大学)]
[163] [164] [165] Chen L G, Sun F R, Chen W Z 1995 Gas Turbine Tech. 8 16 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1995 燃气轮机技术 8 16]
[166] Chen L G, Zhu X Q, Sun F R, Wu C 2006 Appl. Energy 83 573
[167] [168] [169] Sogut O, Durmayaz A 2006 J. Energy Institute 79 246
[170] Zhu X Q, Chen L G, Sun F R, WuC 2003 Int. J. Ambient Energy 24 189
[171] [172] Zhu X Q 2004 MS Thesis (Wuhan: Naval University of Engineering) (in Chinese) [朱小芹 2004 硕士学位论文 (武汉: 海军工程大学)]
[173] [174] Zhu X Q, Chen L G, Sun F R, Wu C 2005 Open Sys. Inf. Dyn. 12 249
[175] [176] Li J, Chen L G, Sun F R 2011 Int. J. Sustainable Energy 30 55
[177] [178] [179] Li J, Chen L G, Sun F R 2011 Int. J. Energy and Environment 2 57
[180] Chen L G, Sun F R, Wu C 2005 Appl. Energy 81 388
[181] [182] [183] Wu C, Chen L G, Sun F R 1996 Energy, The Int. J. 21 1127
[184] [185] Zhu X Q, Chen L G, Sun F R 2003 J. Huaiyin Teacher's College 2 104 (in Chinese) [朱小芹, 陈林根, 孙丰瑞 2003 淮阴师范学院学报 (自然科学版) 2 104]
[186] [187] Li J, Chen L G, Sun F R 2011 Int. J. Energy and Environment 2 171
[188] [189] Leff H S, Teeter W D 1978 Am. J. Phys. 46 19
[190] Rozonoer L I, Tsirlin A M 1983 Avtomat. Telemekh 1 70 2 88, 3 50
[191] [192] Yan Z J 1984 Phys. 13 768 (in Chinese) [严子浚 1984 物理 13 768]
[193] [194] Goth Y, Feidt M 1986 C R Acad. Sc. Paris 303 19
[195] [196] Feidt M 1988 12th IMACS World Congress on Scientific Computation Paris, July 18-22, 1988 p124
[197] [198] Philippi I, Feidt M 1991 XVIII Int. Congress on Refrigeration Canada, Montreal, august 10-17, 1991 p146
[199] [200] [201] Feidt M 1997 Entropie 205 53
[202] Sun F R, Chen W Z, Chen L G 1990 J. Naval Acad. Engng. 2 40 (in Chinese) [孙丰瑞, 陈文振, 陈林根 1990 海军工程学院学报 2 40]
[203] [204] [205] Chen W Z, Sun F R, Chen L G 1991 Chinese Sci. Bull. 36 763 [陈文振, 孙丰瑞, 陈林根 1990 科学通报 35 869]
[206] [207] Klein S A 1992 Int. J. Refrig. 15 181
[208] [209] Wu C 1995 Energy Convers. Manage. 36 7
[210] Gordon J M, Ng K C 2000 Cool Thermodynamics (Cambridge: Cambridge Int. Science Publishers) p46
[211] [212] [213] Bejan A 1989 Int. J. Heat Mass Transfer 32 1631
[214] Gordon J M, Ng K C 1994 J. Appl. Phys. 75 2769
[215] [216] Chen L G, Wu C, Sun F R 1996 Appl. Therm. Engng. 16 989
[217] [218] Chen L G, Wu C, Sun F R 1998 Energy Convers. Manage. 39 45
[219] [220] [221] Grazzini G 1993 Int. J. Refrig. 16 101
[222] Chiou J S, Liu C J, Chen C K 1995 J. Phys. D: Appl. Phys. 28 1314
[223] [224] Ait-Ali M A 1996 J. Phys. D: Appl. Phys. 29 975
[225] [226] Chen L G, Sun F R 1995 J. Naval Acad. Engng. 3 19 (in Chinese) [陈林根, 孙丰瑞 1995 海军工程学院学报 3 19]
[227] [228] [229] Chen L G, Sun F R, Wu C, Kiang R L 1997 Appl. Therm. Engng. 17 401
[230] Chen L G, Sun F R, Wu C 2004 Appl. Energy 77 339
[231] [232] [233] Wu X, He J Z, Ouyang W P 2006 Chinese Phys. B 15 53
[234] Chen L G, Sun F R, Chen W Z 1992 Nature J. 15 633 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1992 自然杂志 15 633]
[235] [236] Tu Y M, Chen L G, Sun F R 2005 J. Thermal. Sci. Tech. 4 199 (in Chinese) [屠友明, 陈林根, 孙丰瑞 2005 热科学与技术 4 199
[237] [238] [239] Tu Y M, Chen L G, Sun F R, Wu C 2006 Int. J. Exergy 3 191
[240] Chen L G, Zhu X Q, Sun F R, Wu C 2005 J. Phys. D: Appl. Phys. 38 113
[241] [242] [243] Chen L G, Sun F R, Chen W Z 1991 Chinese Sci. Bull. 6 156 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1991 科学通报 36 156]
[244] Chen L G, Zheng Z P, Sun F R, Wu C 2008 Int. J. Ambient Energy 29 197
[245] [246] [247] Ma K, Chen L G, Sun F R 2009 Sadhana, Acad. Proc. Eng. Sci. 34 851
[248] Sahin B, Kodal A 1999 Energy Convers. Manage. 40 951
[249] [250] [251] Kodal A, Sahin B, Yilmaz T 2000 Energy Convers. Manage. 41 607
[252] [253] Sahin B, Kodal A 2002 Int. J. Refrig. 25 872
[254] Chen J C, Yan Z J 1987 Cryogenics 4 27 (in Chinese) [陈金灿, 严子浚 1987 低温工程 4 27]
[255] [256] Chen L G, Sun F R, Gong J Z, Chen W Z, Lai X M 1994 J. Engng. Thermophys. 15 249 (in Chinese) [陈林根, 孙丰瑞, 龚建政, 陈文振, 赖锡棉 1994 工程热物理学报 15 249]
[257] [258] Wu C, Chen L G, Sun F R 1996 Int. J. Ambient Energy 17 199
[259] [260] [261] Chen L G, Sun F R, Chen W Z 1989 Cryogenics 5 29 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1989 低温工程 5 29]
[262] [263] Wu C, Chen L G, Sun F R, Chen W Z 1996 Appl. Therm. Engng. 16 299
[264] [265] Chen W Z, Sun F R, Cheng S, Chen L G 1995 Int. J. Energy Res. 19 751
[266] Feidt M 1999 Thermodynamic Optimization of Complex Energy Systems (Dordrecht: Kluwer Academic Press) p385
[267] [268] Chen W Z, Sun F R, Chen L G 1990 Chinese Sci. Bull. 35 1837 (in Chinese) [陈文振, 孙丰瑞, 陈林根 1990 科学通报 35 1837]
[269] [270] Yan Z J, Chen J C 1990 J. Phys. D: Appl. Phys. 23 136
[271] [272] [273] Chen L G, Sun F R, Wu C 1996 J. Institute Energy 69 96
[274] Sun F R, Chen W Z, Chen L G 1991 J. Engng. Thermophys. 12 357 (in Chinese) [孙丰瑞, 陈文振, 陈林根 1991 工程热物理学报 12 357]
[275] [276] Assad M E H 1999 Recent Advances in Finite Time Thermodynamics (New York: Nova Science Publishers) p181
[277] [278] Chen L G, Sun F R, Wu C 2001 J. Non-Equilib. Thermodyn. 26 291
[279] [280] Li J, Chen L G, Sun F R 2008 J. Energy Institute 81 168
[281] [282] Li J, Chen L G, Sun F R 2008 Proc. IMechE, Part E: J. Proc. Mech. Eng. 222 55
[283] [284] [285] Chen L G, Sun F R, Chen W Z 1992 Cryogenics and Superconductivity 21 5 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1992 低温与超导 21 5]
[286] Zhu X Q, Chen L G, Sun F R, Wu C 2006 J. Energy Institute 79 42
[287] [288] Chen L G, Zhu X Q, Sun F R, Wu C 2007 Int. J. Ambient Energy 28 213
[289] [290] [291] Li J, Chen L G, Sun F R, Wu C 2011 Int. J. Ambient Energy 32 31
[292] Chen L G, Li J, Sun F R 2012 Int. J. Sustainable Energy 31 59
[293] [294] [295] Chen L G, Wu C, Sun F R 2001 Exergy, An Int. J. 1 295
[296] Chen L G, Li J, Sun F R, Wu C 2011 Int. J. Ambient Energy 32 25
[297] [298] Blanchard C H 1980 J. Appl. Phys. 51 2471
[299] [300] [301] Wu C 1993 Int. J. Ambient Energy 14 25
[302] [303] Chen L G, Wu C, Sun F R 1997 Appl. Therm. Engng. 17 103
[304] [305] Wu C, Chen L G, Sun F R 1998 Energy Convers. Manage. 39 445
[306] [307] Sun F R, Chen L G, Chen W Z 1993 J. Naval Acad. Engng. 65 22 (in Chinese) [孙丰瑞, 陈林根, 陈文振 1993 海军工程学院学报 65 22]
[308] Wu C, Schulden W 1994 Energy Convers. Manage. 35 459
[309] [310] Chen L G, Sun F R, Chen W Z 1994 J. Eng. Therm. Energy Power 9 121 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1994 热能动力工程 9 121]
[311] [312] Chen L G, Wu C, Sun F R 1997 Int. J. Ambient Energy 18 129
[313] [314] Cheng C Y, Chen C K 1995 J. Phys. D: Appl. Phys. 28 2451
[315] [316] [317] Chen L G, Sun F R 1997 J. Engng. Thermophys. 18 25
[318] [319] Chen L G, Zhu X Q, Sun F R, Wu C 2007 Appl. Energy 84 78
[320] [321] Tyagi S K, Kaushik S C, Salohtra R 2002 J. Phys. D: Appl. Phys. 35 2058
[322] Chen L G, Sun F R 1993 Practice Energy 3 29 (in Chinese) [陈林根, 孙丰瑞 1993 实用能源 3 29]
[323] [324] [325] Chen L G, Zheng Z P, Sun F R 2008 Termotehnica (Thermal Engineering) 12 22
[326] Kodal A, Sahin B, Oktem A S 2000 Energy Convers. Manage. 41 1989
[327] [328] [329] Kodal A, Sahin B, Erdil A 2002 Int. J. Exergy 2 159
[330] [331] Chen L G, Sun F R, Chen W Z 1990 J. Eng. Therm. Energy Power 5 48 (in Chinese) [陈林根, 孙丰瑞, 陈文振 1990 热能动力工程 5 48]
[332] Zhu X Q, Chen L G, Sun F R, Wu C 2002 Open Sys. Inf. Dyn. 9 251
[333] [334] Sun F R, Chen W Z, Chen L G, Wu C 1997 Energy Convers. Manage. 38 1439
[335] [336] Ni N, Chen L G, Sun F R, Wu C 1999 J. Institute Energy 72 64
[337] [338] [339] Kodal A 1999 Recent Advances in Finite Time Thermodynamics (New York: Nova Science Publishers) p299
[340] Zhu X Q, Chen L G, Sun F R 2001 Phys. Scr. 64 584
[341] [342] [343] Zhu X Q, Chen L G, Sun F R, Wu C 2005 Int. J. Exergy 2 423
[344] Zhu X Q, Chen L G, Sun F R, Wu C 2005 J. Energy Institute 78 5
[345] [346] Wu C, Chen L G, Sun F R 1998 Energy Convers. Manage. 39 579
[347] [348] Li J, Chen L G, Sun F R 2008 Appl. Energy 85 96
[349] [350] Li J, Chen L G, Sun F R 2010 Pramana J. Phys. 74 219
[351] [352] Chen L G, Li J, Sun F R, Wu C 2009 Int. J. Ambient Energy 30 102
[353] [354] Li J, Chen L G, Sun F R 2009 Termotehnica Thermal Engineering 13 61
[355] [356] [357] Li J, Chen L G, Sun F R 2011 Int. J. Sustainable Energy 30 26
[358] Rubin M H 1979 Phys. Rev. A 19 1272
[359] [360] [361] Rubin M H 1980 Phys. Rev. A 22 1741
[362] [363] Salamon P, Nitzan A, Andresen B, Berry R S 1980 Phys. Rev. A 27 2115
[364] [365] Kuznetsov A G, Rudenko A V, Tsirlin A M 1986 Autom. Remote Control 6 693
[366] Orlov V N 1989 Autom. Remote Control 4 64
[367] [368] [369] Lampinen M J, Vuorisulo J 1991 J. Appl. Phys. 69 597
[370] [371] Ondrechen M J, Rubin M H, Band Y B 1983 J. Chem. Phys. 78 4721
[372] [373] Yan Z J, Chen L X 1997 J. Phys. A: Math. Gen. 30 8119
[374] Chen L G, Zhou S B, Sun F R, Wu C 2002 Open Sys. Inf. Dyn. 9 85
[375] [376] [377] Angulo-Brown F, Ares De Parga G, Arias-Hernandez L A 2002 J. Phys. D: Appl. Phys. 35 1089
[378] [379] Orlov V N 1985 Sov. Phys. Dokl. 30 506
[380] [381] Li J, Chen L G, Sun F R 2007 Appl. Energy 84 944
[382] Song H J, Chen L G, Li J, Sun F R 2006 J. Appl. Phys. 100 124907
[383] [384] [385] Song H J 2008 Ph. D. Dissertation (Wuhan: Naval University of Engineering) (in Chinese) [宋汉江 2008 博士学位论文 (武汉: 海军工程大学)]
[386] Song H J, Chen L G, Sun F R 2007 Appl. Energy 84 374
[387] [388] Song H J, Chen L G, Sun F R 2008 Sci. China Ser. G: Phys. Mech. Astron. 51 1272 (in Chinese) [宋汉江, 陈林根, 孙丰瑞 2008 中国科学G辑: 物理学, 力学, 天文学 38 1083]
[389] [390] Song H J, Chen L G, Sun F R, Wang S B 2008 J. Non-Equilib. Thermodyn. 33 275
[391] [392] [393] Chen L G, Song H J, Sun F R, Wang S B 2009 Int. J. Ambient Energy 30 137
[394] Chen L G, Song H J, Sun F R, Wang S B 2009 Rev. Mex. Fis. 55 55
[395] [396] Chen L G, Chen S T, Sun F R, Chen W Z 1993 Gas Turbine Tech. 6 20 (in Chinese) [陈林根, 陈少堂, 孙丰瑞, 陈文振 1993 燃气轮机技术 6 20]
[397] [398] Yan Z J, Chen L X 1990 J. Chem. Phys. 92 1994
[399] [400] [401] Chen L G, Sun F R, Wu C 2006 Appl. Energy 83 71
[402] [403] Xiong G H, Chen J C, Yan Z J 1980 J. Xiamen University (Nature Science) 28 489 (in Chinese) [熊国华, 陈金灿, 严子浚 1980 厦门大学学报 (自然科学版) 28 489]
[404] [405] Li J, Chen L G, Sun F R 2009 Sci. China Ser. G: Phys. Mech. Astron. 52 587 [李俊, 陈林根, 孙丰瑞 2009 中国科学G辑: 物理学, 力学, 天文学 39 255]
[406] [407] Chen T Z 1985 J. Xiamen University 24 442 (in Chinese) [陈天择 1985 厦门大学学报 24 442]
[408] [409] Chen L G, Sun F R, Ni N, Wu C 1998 Energy Convers. Manage 39 767
[410] Chen L G, Bi Y H, Wu C 1999 Int. J. Energy, Environ. Econ. 9 77
[411] [412] [413] Amelkin S A, Andresen B, Burzler J M, Hoffmann K H, Tsirlin A M 2004 J. Phys. D: Appl Phys. 37 1400
[414] Amelkin S A, Andresen B, Burzler J M, Hoffmann K H, Tsirlin A M 2005 J. Non-Equlib. Thermodyn. 30 67
[415] [416] Tsirlin A M, Kazakov V, Ahremenkov A A, Alimova N A 2006 J. Phys. D: Appl. Phys. 39 4269
[417] [418] Chen L G, Li J, Sun F R 2009 Therm. Sci. 13 33
[419] [420] Sieniutycz S 1997 FLOWERS 97' (Padova: SGE) p151
[421] [422] [423] Sieniutycz S 2000 Phys. Reports 326 165
[424] Sieniutycz S, Von S M 1998 Energy Convers. Manage. 39 1423
[425] [426] Sieniutycz S 1998 Int. J. Engng. Sci. 36 577
[427] [428] Sieniutycz S 1999 Physica A 264 234
[429] [430] Sieniutycz S, Szwast Z 2003 J. Non-Equilib. Thermodyn. 28 85
[431] [432] Sieniutycz S 2004 Arch. Thermodyn. 25 69
[433] [434] [435] Sieniutycz S 1978 Optimization in Process Engineering (Warsaw: Wydawnictwa Naukowo Techniczne) p78
[436] Sieniutycz S 1984 Drying 84 62
[437] [438] [439] Sieniutycz S 2003 Rep. Math. Phys. 51 1
[440] Sieniutycz S 2006 Rep. Math. Phys. 57 289
[441] [442] [443] Sieniutycz S 1997 Phys. Rev. 56 5051
[444] [445] Sieniutycz S 1997 J. Non-Equilib. Thermodyn. 22 260
[446] [447] Sieniutycz S 1999 Recent Advances in Finite Time Thermodynamics (New York: Nova Science Publishers) p189
[448] Szwast Z, Sieniutycz S 1999 Recent Advances in Finite Time Thermodynamics (New York: Nova Science Publishers) p221
[449] [450] Kuran P 2006 Ph.D. Dissertation (Poland: Warsaw University of Technology)
[451] [452] [453] Sieniutycz S, Kuran P 2005 Int. J. Heat Mass Transfer 48 719
[454] Sieniutycz S, Kuran P 2006 Int. J. Heat Mass Transfer 49 3264
[455] [456] [457] Sieniutycz S 2007 Int. J. Heat Mass Transfer 50 2714
[458] [459] Sieniutycz S 1997 Open Sys. Inf. Dyn. 4 185
[460] Sieniutycz S 1999 J. Non-equilib. Thermodyn 24 40
[461] [462] [463] Sieniutycz S 2000 Energy Convers. Manage. 41 2009
[464] [465] Sieniutycz S 2002 Int. J. Heat Mass Transfer 45 2995
[466] [467] Sieniutycz S 2003 Int. J. Thermodyn. 6 59
[468] [469] Sieniutycz S 2004 Int. J. Heat Mass Transfer 47 515
[470] Sieniutycz S 2004 Open Sys. Inf. Dyn. 11 185
[471] [472] Sieniutycz S 2007 Transp. Porous Med. 69 239
[473] [474] [475] Sieniutycz S 2007 Int. J. Heat Mass Transfer 50 1278
[476] [477] Sieniutycz S 2008 Int. J. Therm. Sci. 47 495
[478] Sieniutycz S 2008 Int. J. Heat Mass Transfer 51 5859
[479] [480] Sieniutycz S 2008 Chem. Proc. Engng. 29 321
[481] [482] [483] Sieniutycz S 2009 Appl. Math. Modelling 33 1457
[484] Sieniutycz S 2009 Energy 34 334
[485] [486] [487] Sieniutycz S 2009 Drying Technolog 27 322
[488] [489] Sieniutycz S 2009 Int. J. Heat Mass Transfer 52 245
[490] Sieniutycz S 2008 Int. J. Heat Mass Transfer 51 2665
[491] [492] [493] Li J, Chen L G, Sun F R 2006 J. Thermal. Sci. Tech. 5 335 (in Chinese) [李俊, 陈林根, 孙丰瑞 2006 热科学与技术 5 335]
[494] [495] Li J, Chen L G, Sun F R 2009 J. Energy Institute 82 53
[496] Li J, Chen L G, Sun F R 2009 Math. Compu. Model. 49 542
[497] [498] Li J, Chen L G, Sun F R 2008 J. Thermal. Sci. Tech. 7 41 (in Chinese) [李俊, 陈林根, 孙丰瑞 2008 热科学与技术 7 41]
[499] [500] Li J, Chen L G, Sun F R 2010 Therm. Sci. 14 1
[501] [502] Xia S J 2012 Ph. D. Dissertation (Wuhan: Naval University of Engineering) (in Chinese) [夏少军 2012 博士学位论文 (武汉: 海军工程大学)]
[503] [504] Xia S J, Chen L G, Sun F R 2012 Int. J. Energy and Environment 3 359
[505] [506] [507] Xia S J, Chen L G, Sun F R 2011 Chinese Sci. Bull. 56 1147
[508] [509] Xia S J, Chen L G, Sun F R 2011 Acta Physica Polonica A 119 747
[510] Xia S J, Chen L G, Sun F R 2011 Energy 36 633
[511] [512] [513] Chen L G, Xia S J, Sun F R 2011 Int. J. Chemial Reactor Eng. 9 A10
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