Chao X, Wang Z F, Li X, et al.Energy and exergy analysis of solar power tower plants[J].Applied Thermal Engineering, 2011, 31(17):3904-3913.
[2]
Wang Z F, Yao Z H, Dong J.The design of a 1 MW solar thermal tower plant in Beijing, China[C]// Proceedings of ISES Solar World Congress 2007:Solar Energy and Human Settlement.Beijing:ISES solar world congress, 2007:1729-1733.
[3]
Yin Z Q, Wang Z F.The development strategy research series of Chinese renewable energies[J].Solar Energy, 2008, 86(1):7.
[4]
Jin H G, Han W, Wang Z F, et al.1MW Dahan solar tower thermal cycle[R].Beijing:Institute of Engineering Thermophysics, Chinese Academic of Sciences, 2007.
[5]
徐二树, 于强, 杨志平, 等.塔式太阳能热发电腔式吸热器动态仿真模型[J].中国电机工程学报, 2012, 30(32):115-120. Xu E S, Yu Q, Yang Z P, et al.Solar thermal power tower cavity receiver dynamic simulation model[J].Proceedings of the CSEE, 2012, 30(32):115-120(in Chinese).
[6]
Yao Z H.Modeling and simulation of the pioneer 1MW solar thermal central receiver system in China[J].Renewable Energy, 2009, 34(11):2437-2446.
[7]
宋之平, 王家璇.节能原理[M].北京:水利水电出版社, 1993:77-78. Song Zhiping, Wang Jiaxuan.Principles of energy saving[M].Beijing:Water Conservancy And Hydropower Press, 1993:77-78(in Chinese).
[8]
Li X, Kong W Q, Wang Z F, et al.Thermal model and thermodynamic performance of molten salt cavity receiver[J].Renewable Energy, 2010, 35(5):981-988.
[9]
Xu E S, Yu Q, Wang Z F, et al.Modeling and simulation of 1 MW DAHAN solar thermal power tower plant[J].Renewable Energy, 2011, 36(2):848-857.
[10]
Yu Q, Wang Z F, Xu E S, et al.Simulation and analysis of the central cavity receiver’s performance of solar thermal power power tower plant[J].Solar Energy, 2012, 86(1):164-174.
[11]
Bejan A, Kearney D W, Kreith F.Second law analysis and synthesis of solar collector systems[J].Journal of Solar Energy Engineering, 1981(103):23-28.
[12]
Kaushik S C, Misra R D, Singh N.Second law analysis of a solar thermal power system[J].International Journal of Solar Energy, 2000, 20(4):239-253.
[13]
Hepbasli A.A key review on exergetic analysis and assessment of renewable energy resources for a sustainable future[J].Renewable and Sustainable Energy Reviews, 2008, 12(3):593-661.
[14]
Ganapathy T, Alagumurthi N, Gakkhar R P, et al.Exergy analysis of operating lignite fired thermal power plant[J].Journal of Engineering Science and Technology Review, 2009, 2(1):123-130.
[15]
Ying Y, Hu E J.Thermodynamic advantages of using solar energy in the regenerative Rankine power plant[J].Applied Thermal Engineering, 1999, 19(11):1173-1180.
[16]
Gupta M K, Kaushik S C.Exergy analysis and investigation for various feed water heaters of direct steam generation solar-thermal power plant[J].Renewable Energy, 2010, 35(6):1228-1235.
[17]
Tyagi S K, Wang S W, Singhal M K, et al.Exergy analysis and parametric study of concentrating type solar collectors[J].International Journal of Thermal Science, 2007, 46(12):1304-1310.
[18]
张超. 复杂能量系统的热经济学分析与优化[D].武汉:华中科技大学, 2006. Zhang Chao.Thermoeconomic analysis and optimization of complex energy system[D].Wuhan:Huazhong University of Science and Technology, 2006(in Chinese).
[19]
Suresh M V J J, Reddy K S, Kolar A K.4-E (Energy, Exergy, Environment, and Economic) analysis of solar thermal aided coal-fired power plants[J].Energy for Sustainable Development, 2010, 14(4):267-279.
[20]
Singh N, Kaushik S C, Misra R D.Exergetic analysis of a solar thermal power system[J].Renewable Energy, 2009, 19(1-2):135-143.
