Sciubba E, Wall G. A brief commented history of exergy from the beginning to 2004\[J\]. Int J Thermodyn,2007,10(1):126.[2] Hermann W A. Quantifying global exergy resources\[J\]. Energy,2006,31:1349.[3] 吉世印,何淦明,陈明伦. 原子核的多重碎裂\[J\]. 贵州师范大学学报:自然科学版,1999,17(2):1115.[4] Murgulescu I G, Paun J. Introduction to physical chemistry\[C\]//Atomic Nucleus, Nuclear Reactions, Elementary Particles. Romanian:Academiei,Bucharest,1982.[5] Born M. Fizica Atomica\[M\]. Romanian:Stiintifica,Bucharest,1973:108.[6] Griffin J J. Statistical model of itermediate sructure\[J\]. Phys Rev Lett,1966,17:478.[7] Tel E, Okuducu S, Aydin A, et al. The study of the (n,2n) reaction crosssections for neighbor deformed nuclei in the region of rareearth elements\[J\]. Acta Phys Slovaca,2004,54:191.[8] Weisskopf V. Statistics and nuclear reactions\[J\]. Phys Rev,1937,52:295.[9] Dietrich F S. Simple Derivation of the HauserFeshbach and WeisskopfEwing Formulae, with Application to Surrogate Reactions\[M\]. Livermore:Lawrence Livermore National Laboratory,2004:201222.[10] Landsberg P T, Badescu V. Some methods of analyzing solar cell efficiency\[C\]//Sieniutycz S, De Vos A. Thermodynamics of Energy Conversion and Transport. New York:SpringerVerlag,2000.[11] Landsberg P T. Thermodynamics and Statistical Mechanics\[M\]. New York:Dover,1990:98105.[12] Cole A J. Statistical models for nuclear decay\[C\]//From Evaporation to Vaporization. Bristol:IoP Publishing Ltd,2000.[13] Gadioli E, Hodgson P E. Preequilibrium Nuclear Reactions\[M\]. New York:Oxford University Press,1992:122130.[14] Likhachev V P, Mesa J, ArrudaNeto J D T, et al. Photonuclear reactions at intermediate energies investigated via the Monte Carlo multicollisional intranuclear cascade model\[J\]. Phys Rev,2002,C65:064611.[15] Schmidt K H. Relevant highenergy data for ADS\[C\]//Second IP EUROTRANS Internal Training Course,Nuclear Data for Transmutation:Status,Needs and Methods. Santiago:Universidad Santiago de Compostela(Spain),2006.[16] 王羽中,闫柯柱. 二维简谐势阱中理想气体玻色爱因斯坦凝聚的转变温度\[J\]. 曲阜师范大学学报:自然科学版,2003,29(4):6568.[17] 安丽,丁峰. Baierein猜测与三维 Bose体系中外场对体系熵的影响\[J\]. 曲阜师范大学学报:自然科学版,2001,27(3):5153.[18] Moran M J, Shapiro H N. Fundamentals of Engineering Thermodynamics\[M\]. 3rd. New York:John Wiley and Sons,1995:145147.[19] Szargut J, Morris D R, Steward F R. Exergy Analysis of Thermal, Chemical and Metallurgical Processes\[M\]. New York:Hemisphere Publishing,1988:285286.[20] Bejan A. Advanced Engineering Thermodynamics\[M\]. 2nd. New York:John Wiley and Sons,1997.[21] Jeter S J. Maximum conversion efficiency for the utilization of direct solar radiation\[J\]. Sol Energy,1981,26:231236.[22] Landsberg P T, Mallinson J R. Thermodynamic constraints, effective temperatures and solar cells\[C\]//Coll Int sur l’Electricité Solaire. Toulouse:Cnes,1976:2735.[23] Petela R. Exergy of heat radiation\[J\]. J Heat Transfer,1964,86:187.[24] Press W H. Theoretical maximum for energy from direct and diffuse sunlight\[J\]. Nature,1976,264:734.[25] Spanner D C. Introduction to Thermodynamics\[M\]. London:Academic Press,1964:218.[26] Sieniutycz S, Kuran P. Modeling thermal behavior and work flux in finiterate systems with radiation\[J\]. Int J Heat Mass Transfer,2006,49(1718):3264.[27] Karlsson S. Exergy of incoherent electromagnetic radiation\[J\]. Phys Scr,1982,26:329.
