[1] 李孝堂, 侯凌云, 杨敏, 等. 现代燃气轮机技术[M]. 北京:航空工业出版社, 2006. LI Xiaotang, HOU Lingyun, YANG Min, et al. Mordern gas turbine technology[M]. Beijing:Aviation Industry Press, 2006. [2] 吴仲华. 能的梯级利用与燃气轮机总能系统[M]. 北京:机械工业出版社, 1988. WU Zhonghua. Cascade utilization of thermal energy and integrated energy system of gas turbine[M]. Beijing:China Machine Press, 1988. [3] 张娜, 蔡睿贤. 功热并供回热燃气轮机及其热力分析[J]. 工程热物理学报, 1996, 17(2):150-152. ZHANG Na, CAI Ruixian. Recuperative gas turbine cogeneration and its analysis[J]. J. Engng. Thermophys., 1996, 17(2):150-152. [4] VIEIRA L S, MATT C F, GUEDES V G, et al. Maximization of the profit of a complex combined-cycle cogeneration plant using a professional process simulator[J]. Trans. ASME J. Eng. Gas Turbine Power, 2010, 132(4):41801. [5] TORCHIO M F. Energy-exergy, environmental and economic criteria in combined heat and power (CHP) plants:Indexes for the evaluation of the cogeneration potential[J]. Energies, 2013, 6(5):2686-2708. [6] BEJAN A. Entropy generation minimization:The new thermodynamics of finite-size devices and finite time process[J]. J. Appl. Phys., 1996, 79(3):1191-1218. [7] BEJAN A, DAN N. Maximum power from fluid flow[J]. Int. J. Heat Mass Trans., 1996, 39(6):1175-1181. [8] BERRY R S, KAZAKOV V A, SIENIUTYCZ S, et al. Thermodynamic optimization of finite time processes[M]. Chichester:Wiley, 1999. [9] CHEN Lingen, SUN Fengrui. Advances in finite time thermodynamics:Analysis and optimization[M]. New York:Nova Science Publishers, 2004. [10] 陈林根. 不可逆过程和循环的有限时间热力学分 析[M]. 北京:高等教育出版社, 2005. CHEN Lingen. Finite-time thermodynamic analysis of irreversible processes and cycles[M]. Beijing:Higher Education Press, 2005. [11] 吴锋, 陈林根, 孙丰瑞, 等. 斯特林机的有限时间热力学优化[M]. 北京:化学工业出版社, 2008. WU Feng, CHEN Lingen, SUN Fengrui, et al. Finite time thermodynamic optimization for stirling machines[M]. Beijing:Chemical Industry Press, 2008. [12] SIENIUTYCZ S, JEZOWSKI J. Energy optimization in process system[M]. Oxford:Elsevier, 2009. [13] ANDRESEN B. Current trends in finite-time thermodynamics[J]. Angew. Chem. Int. Ed., 2011, 50(12):2690-2704. [14] BEJAN A. Entropy generation minimization, exergy analysis, and the constructal law[J]. Arab. J. Sci. Eng., 2013, 38(2):329-340. [15] 张万里, 陈林根, 韩文玉, 等. 正反向布雷顿循环有限时间热力学分析与优化研究进展[J]. 燃气轮机技术, 2012, 25(2):1-11. ZHANG Wanli,, CHEN Lingen, HAN Wenyu, et al. Advances in finite time thermodynamic studies for analyses and optimizations of direct/inverse Brayton cycles[J]. Gas Turbine Technol., 2012, 25(2):1-11. [16] 王文华, 陈林根, 戈延林, 等. 燃气轮机循环有限时间热力学研究新进展[J]. 热力透平, 2012, 41(3):171-178, 208. WANG Wenhua, CHEN Lingen, GE Yanlin, et al. New advances in finite time thermodynamic studies for gas turbine cycles[J]. Therm. Turbine, 2012, 41(3):171-178, 208. [17] 李俊, 陈林根, 戈延林, 等. 正反向两源热力循环有限时间热力学性能优化的研究进展[J]. 物理学报, 2013, 62(13):130501. LI Jun, CHEN Lingen, GE Yanlin, et al. Progress in the study on finite time thermodynamic optimization for direct and reverse two-heat-reservoir thermodynamic cycles[J]. Acta Phys. Sin., 2013, 62(13):130501. [18] HAO Xiaoli, ZHANG Guoqiang. Maximum useful energy-rate analysis of an endoreversible Joule-Brayton cogeneration cycle[J]. Appl. Energy, 2007, 84(11):1092-1101. [19] TAO Guisheng, CHEN Lingen, SUN Fengrui, et al. Exergoeconomic performance optimization for an endoreversible simple gas turbine closed-cycle cogeneration plant[J]. Int. J. Ambient Energy, 2009, 30(3):115-124. [20] 许益霖, 黄跃武. 不可逆中冷焦耳-布雷顿功热并供系统火用分析[J]. 热能动力工程, 2011, 26(2):186-190. XU Yilin, HUANG Yuewu. Exergy analysis of an irreversible intercooled Joule-Brayton power and heating cogeneration system[J]. J. Engng. Therm. Energy Power, 2011, 26(2):186-190. [21] UST Y, SAHIN B, YILMAZ T. Optimization of a regenerative gas-turbine cogeneration system based on a new exergetic performance criterion:Exergetic performance coefficient[J]. Proc. IMechE, Part A:J. Power Energy, 2007, 221(4):447-458. [22] TAO Guisheng, CHEN Lingen, SUN Fengrui. Exergoeconomic performance optimization for an endoreversible regenerative gas turbine closed-cycle cogeneration plant[J]. Rev. Mex. Fis., 2009, 55(3):192-200. [23] YANG Bo, CHEN Lingen, SUN Fengrui. Finite time exergoeconomic performance of an irreversible intercooled regenerative Brayton cogeneration plant[J]. J. Energy Inst., 2011, 84(1):5-12. [24] YANG Bo, CHEN Lingen, SUN Fengrui. Exergoeconomic performance analyses of an endreversible intercooled regenerative Brayton cogeneration type model[J]. Int. J. Sustainable Energy, 2011, 30(2):65-81. [25] 杨博, 陈林根, 孙丰瑞. 两级中冷回热再热布雷顿热电联产装置的火用性能[J]. 工程热物理学报, 2012, 33(3):366-370. YANG Bo, CHEN Lingen, SUN Fengrui. Exergy performance of a two-stage intercooled regenerated reheated brayton combined heat and power plant[J]. J. Engng. Thermophys., 2012, 33(3):366-370. [26] RADCENCO V, VARGAS J V C, BEJAN A. Thermodynamics optimization of a gas turbine power plant with pressure drop irreversibilities[J]. Trans. ASME J. Energy Resour. Technol., 1998, 120(3):233-240. [27] CHEN Lingen, LI Ye, SUN Fengrui, et al. Power optimization of open-cycle regenerator gas-turbine power plants[J]. Appl. Energy, 2004, 78(2):199-218. [28] 王文华, 陈林根, 孙丰瑞. 开式燃气轮机中冷循环热力学优化[J]. 机械工程学报, 2004, 40(10):149-154. WANG Wenhua, CHEN Lingen, SUN Fengrui. Thermodynamic optimization of an open intercooled gas turbine power plant[J]. Chin. J. Mech. Engng., 2004, 40(10):149-154. [29] ZHANG Wanli, CHEN Lingen, SUN Fengrui. Power and efficiency optimization for combined Brayton and inverse Brayton cycles[J]. Appl. Therm. Eng., 2009, 29(14-15):2885-2894. [30] RADCENCO V. Generalized thermodynamics[M]. Bucharest:Editura Techica, 1994. [31] BEJAN A. Heat transfer[M]. New York:Wiley, 1993. [32] GORDON C O. Aerodynamics of aircraft engine components[M]. New York:AIAA, 1985. [33] RADCENCO V. Optimization criteria for irreversible thermal processes[M]. Bucharest:Editura Tehnica, 1979. [34] BROWN A, JUBRAN B A, MARTIN B W. Coolant optimization of a gas turbine engine[J]. Proc. IMechE, Part A:J. Power Energy, 1993, 207(A1):31-47. [35] 赵冠春, 钱立伦. 火用分析及其应用[M]. 北京:高等教育出版社, 1984. ZHAO Guanchun, QIAN Lilun. Exergy analysis and its Application[M]. Beijing:Higher Education Press, 1984. [36] 沈维道, 蒋智敏, 童钧耕. 工程热力学[M]. 3版. 北京:高等教育出版社, 2001. SHEN Weidao, JIANG Zhimin, TONG Jungeng. Engineering thermodynamics[M]. 3rd ed. Beijing:Higher Education Press, 2001. |