[1] 李晶, 裴刚, 季杰.太阳能有机朗肯循环低温热发电关键因素分析[J]. 化工学报, 2009, 60(4):826-832. LI Jing, PEI Gang, JI Jie. Analysis of key factors in low-temperature solar thermal electric power generation with organic Rankine cycle[J]. CIESC Journal, 2009, 60(4):826-832.
[2] LI J, PEI G, JI J.Optimization of low temperature solar thermal electric generation with organic Rankine cycle in different areas[J].Applied Energy, 2010, 87(11):3355-3365.
[3] TIAN Y, ZHAO C Y.A review of solar collectors and thermal energy storage in solar thermal applications[J]. Applied Energy, 2013, 104(4):538-553.
[4] YAMAGUCHI H, ZHANG X R, FUJIMA K, et al.Solar energy powered Rankine cycle using supercritical CO2[J].Applied Thermal Engineering, 2006, 26(17-18):2345-2354.
[5] LOLOS P A, ROGDAKIS E D. A Kalina power cycle driven by renewable energy sources[J]. Energy, 2009, 34(4):457-464.
[6] 李惟毅, 高静, 李子申, 等. 基于经济性和第二定律效率的有机朗肯循环工质优选[J]. 化工进展, 2016, 35(2):369-375. LI Weiyi, GAO Jing, LI Zishen, et al.Working fluids optimization based on economy analysis and exergy efficiency for low-temperature organic Rankine cycle[J]. Chemical Industry and Engineering Progress, 2016, 35(2):369-375.
[7] 韩中合, 潘歌, 范伟, 等.内回热器对低温有机朗肯循环热力性能的影响及工质选择[J]. 化工进展, 2016, 35(1):40-47. HAN Zhonghe, PAN Ge, FAN Wei, et al.Effect of internal heat exchanger on thermodynamic performance of low temperature organic Rankine cycle and working fluid selection[J]. Chemical Industry and Engineering Progress, 2016, 35(1):40-47.
[8] LI P C, LI J, PEI G, et al.A cascade organic Rankine cycle power generation system using hybrid solar energy and liquefied natural gas[J]. Solar Energy, 2016, 127:136-146.
[9] MICHAELIDES E E. Future directions and cycles for electricity production from geothermal resources[J]. Energy Conversion and Management, 2016, 107:3-9.
[10] MICHAELIDES E E, SCOTT G J. A binary-flashing geothermal power plant[J]. Energy, 1984, 9(4):323-331.
[11] DENG Y, ZHAO Y, WANG W, et al.Experimental investigation of performance for the novel flat plate solar collector with micro-channel heat pipe array (MHPA-FPC)[J]. Applied Thermal Engineering, 2013, 54(2):440-449.
[12] 朱冬生, 徐婷, 蒋翔, 等.太阳能集热器研究进展[J].电源技术, 2012, 36(10):1582-1584. ZHU Dongsheng, XU Ting, JIANG Xiang, et al.Research progress on solar energy collector[J]. Chinese Journal of Power Sources, 2012, 36(10):1582-1584.
[13] KALOGIROU S A. Solar thermal collectors and applications[J]. Progress in Energy and Combustion Science, 2004, 30(3):231-295.
[14] LI H S, CAO F, BU X B, et al.Performance characteristics of R1234yf ejector-expansion refrigeration cycle[J]. Applied Energy, 2014, 121:96-103.
[15] YARI M.Exergetic analysis of various types of geothermal power plants[J]. Renewable Energy, 2010, 35(1):112-121.
[16] SARKAR J, BHATTACHARYYA S. Potential of organic Rankine cycle technology in India:working fluid selection and feasibility study[J]. Energy, 2015, 90:1618-1625.
[17] NAFEY A S, SHARAF M A. Combined solar organic Rankine cycle with reverse osmosis desalination process:energy, exergy, and cost evaluations[J]. Renewable Energy, 2010, 35(11):2571-2580.
[18] KALOGIROU S A, KARELLAS S, BRAIMAKIS K, et al. Exergy analysis of solar thermal collectors and processes[J]. Progress in Energy and Combustion Science, 2016, 56:106-137.
[19] WU D, LU A, NGO T, et al.Optimisation and financial analysis of an organic Rankine cycle cooling system driven by facade integrated solar collectors[J]. Applied Energy, 2017, 185:172-182.
[20] HUANG B J, PETRENKO V A, SAMOFATOV I Y, et al. Collector selection for solar ejector cooling system[J]. Solar Energy, 2001,71(4):269-274.
[21] ZHAO Y, WANG J. Exergoeconomic analysis and optimization of a flash-binary geothermal power system[J]. Applied Energy, 2016, 179:159-170.
[22] LEMMON E W, HUBER M H, MCLINDEN M O. REFPROP, NIST Standard Reference Database 23(2013)Version 9.1[A]. USA.
[23] 王延欣, 王令宝, 李华山, 等. 甘孜地热发电热力计算及优化[J].哈尔滨工程大学学报, 2016, 37(6):873-877. WANG Yanxin, WANG Lingbao, LI Huashan, et al.Thermodynamic calculation and optimization of geothermal power generation in Ganzi[J]. Journal of Harbin Engineering University, 2016, 37(6):873-877. |