Full-Text Search:
Home|Journal Papers|About CNKI|User Service|FAQ|Contact Us|中文
《》 1990-01
Add to Favorite Get Latest Update

The Application of the Maximum Principle of Minimum Entropy Production in Finite Time Thermodynamics

Chen Wenzhen Sun Fengrui Chen Lingen  
In this paper, the authors try to find a new analytical method for finite time thermodynamics from the changes of thermodynamic entropy used for describing the state. The maximum principle of minimum entropy production for selecting working parameters, which reveals the inherent relation between the "rate" of finite time thermodynamics based on time and the entropy production of non-equilibrium thermodynamics, is put forward. The optimum working parameters of the forward and reverse endoreversible Carnot cycles can be obtained from it. The principle also provides a new clue for the study of the wide application of finite time thermodynamics.
Download(CAJ format) Download(PDF format)
CAJViewer7.0 supports all the CNKI file formats; AdobeReader only supports the PDF format.
【Co-citations】
Chinese Journal Full-text Database 2 Hits
1 XIAO Yue-lei 1, FU Qin-sheng 1, FENG Xiao 2, LU Li-ping 1 ( 1.School of Energy and Power Engineering, Xi′an Jiaotong Univ., Xi′an 710049, China; 2.School of Environmental and Chemical Engineering, Xi′an Jiaotong Univ., Xi′an 710049, China );Actual inevitable exergy loss in vapor-compression refrigeration cycle with non-azeotropic refrigerant mixtures[J];Journal of Thermal Science and Technology;2003-04
2 LIU Bin;YANG Zhao Dept of Refrigeration Engineering,Tianjin University of Commerce,Tianjin 300314.China Thermal Energy Institute,Tianjin University,Tianjin 300700,China;Effect of the Temperature and Heat Exchange Characteristics on Energy Efficiency of Water-Chiller[J];Construction Machinery For Hydraulic Engineering & Power Station;2004-03
【Co-references】
Chinese Journal Full-text Database 10 Hits
1 Chen Lingen, Sun Fengrui, Chen Wenzhen (Naval Academy of Engineering);THE INFLUENCE OF HEAT-TRANSFER LAW ON THE ECOLOGICAL OPTIMIZATION CRETERION FOR CARNOT REFRIGERTTORS[J];Cryogenics and Superconductivity;1992-01
2 Yan Zijum (University of Amoy);THE RELATION BETWEEN OPTIMAL EFFICIENCY AND POWER OF A CARNOT HEAT ENGINE[J];Journal of Engineering Thermophysics;1985-01
3 Chen Lingen, Sun Fengrui, Chen Wenzhen(Naval Academy of Engineering);INFLUENCE OF HEAT TRANSFER LAW ON THE PERFORMANCE OF A CARNOT ENGINE[J];Journal of Engineering Thermophysics;1990-03
4 Chen Wenzhen, Sun Fengrui, Chen Lingen(Naval Academy of Engineering, Wuhan 430033);AREA PERFORWANCE OF A HEAT ENGINE BETWEEN HEAT RESERVOIRS UNDER STABLE ENERGY TRANSFER[J];Journal of Engineering Thermophysics;1990-04
5 C.W.Lee,J.B.Seo,J.W.Song,M.Y.Kim,H.Y.Lee,Y.S.Park,et al.Department of Radiology and Research Institute of Radiology,Asan Medical Center,University of Ulsan College of Medicine,388-1 Poongnap2-dong,Songpa-gu,Seoul 138-736,Rupublic of Korea.;Evaluation of computer-aided detection and dual energy software in detection of peripheral pulmonary embolism on dual-energy pulmonary CT angiography[J];International Journal of Medical Radiology;2011-02
6 Sun Fengrui Lai Ximian (Naval Academy of Engineering);The Thermal Efficiency-Output Power“Holographic”Spectrum of the Heat Engine Working between Heat Sources[J];Journal of Engineering for Thermal Energy and Power;1988-03
7 Sun Fengrui Chen Lingen Chen Wenzhen;Finite Time Thermodynamics Analysis and Evaluation for a Heat Engine with Steady-state Energy Conversion between Heat Sources[J];Journal of Engineering for Thermal Energy and Power;1989-02
8 Yan Zijun (Xiamen University);η and P of an Endoreversible Carnot Engine at Maximum η~λap[J];Journal of Engineering for Thermal Energy and Power;1989-06
9 Chen Lingeng, Sun Fengrui, Chen Wenzhen(Naval Academy of Engineering, Wuhan);The Relationship between Carnot Heat Pump Optimum Heat Supply Factor and Heat Supply Flow Rate under the Heat Transfer Condition of q(T, Tw)=α(1/Tw-1/T)[J];Journal of Engineering for Thermal Energy and Power;1990-03
10 Chen Lin-gen Sun Feng-rui Chen Wen-zhen (Naval Academy of Engineering);THE RELATION BETWEEN OPTIMAL PERFORMANCE COEFFICIENT AND RATE OF HEATING OF A ENDOREVERSIBLE THREE SOURCE HEAT PUMP WITH NONLINEAR HEAT TRANSFER[J];Acta Energiae Solaris Sinica;1990-03
【Secondary References】
Chinese Journal Full-text Database 10 Hits
1 ;Specific Heating Load Optimization of a Semiconductor Heat Pump[J];;1996-04
2 Yuan Duqi(Dept ofPhys.);PERFORMANCE LIMIT OF FINIET TIME THERMODYNAMICS FOR RUEL CELL[J];JOURNAL OF BAOJI COLLEGE OF ARTS AND SCIENCE(NATURAL SCIENCE EDITION);1994-02
3 Chen Lingen, Sun Fengrui and Chen Wenzhen;The Maximum Power Output of Closed-Brayton Cycle Gas Turbine[J];Ship Engineering;1993-04
4 Chen Lingen and Sun Fengrui;Effect of Regeneration on the Performance of Closed-cycle Gas Turbine[J];Ship Engineering;1995-02
5 Sun Fengrui;Chen Lingen;Heat Transfer Surface Area Minimization for Naval Air-conditioning Plants[J];Ship Engineering;1997-03
6 Chen Lin-gen (Naval Academy of Engineering), Sun Fend- rui, Chen Wenzhen;;Temporary Thermodynamic Optimal Performance of a CombinedPower Plant[J];POWER ENGINEERING;1994-02
7 Yao Shou-guang (East China Shipbuilding Institute)Abstarct:Starting from the actual working conditions of open cycle gas turbines,the paper elaborates, in an;Finite Time Thermodynamic Analysis of Irreversible Cycles of True Gas Turbines[J];POWER ENGINEERING;1995-03
8 Chen Lingen;Sun Fengrui;Chen Wenzhen;Finite-Time Thermodynamics for an Endoreversible-Combined Refrigeration Cycle[J];GRYOGENICS;1994-05
9 Wu Feng; Chen Lingen; Sun Fengrui;Optimum Performance of a Quantum Carnot Refrigerator With the Refrigeration Rate in Cooperation with the Entropy Production Rate[J];GRYOGENICS;1996-01
10 Jin Xiaochang Wu Feng Chen Lingen;Exergeoeconomic Optimization of Quantum Stirling Refrigeration at Classical Limit[J];GRYOGENICS;1998-01
©2006 Tsinghua Tongfang Knowledge Network Technology Co., Ltd.(Beijing)(TTKN) All rights reserved