Search Results

Power density optimisation of endoreversible closed intercooled regenerated Brayton cycle

Authors: Chen, L.G.; Wang, J.H.; Sun, F.R.

Source: Journal of the Energy Institute, Volume 80, Number 2, June 2007 , pp. 105-109(5)

Publisher: Maney Publishing

Optimum distribution of heat exchanger inventory and optimum thermal capacitance rate matching for power optimisation of a regenerated closed Brayton cycle

Authors: Chen, Lingen; Sun, Fengrui; Wu, Chih

Source: International Journal of Energy Technology and Policy, Volume 5, Number 1, 23 February 2007 , pp. 70-88(19)

Publisher: Inderscience Publishers

Optimal heat conductance distribution and optimal intercooling pressure ratio for power optimisation of irreversible closed intercooled regenerated Brayton cycle

Authors: Wang, W.H.; Chen, L.G.; Sun, F.R.; Wu, C.

Source: Journal of the Energy Institute, Volume 79, Number 2, June 2006 , pp. 116-119(4)

Publisher: Maney Publishing

Power and efficiency analysis of an endoreversible closed intercooled regenerated Brayton cycle

Authors: Chen, Lingen; Wang, Wenhua; Sun, Fengrui; Wu, Chih

Source: International Journal of Exergy, Volume 1, Number 4, 5 December 2004 , pp. 475-494(20)

Publisher: Inderscience Publishers

Closed intercooled regenerator Brayton-cycle with constant-temperature heat-reservoirs

Authors: Chen L.; Wang W.; Sun F.; Wu C.

Source: Applied Energy, Volume 77, Number 4, April 2004 , pp. 429-446(18)

Publisher: Elsevier

Finite time thermodynamic analysis of an irreversible regenerative closed cycle brayton heat engine

Authors: Kaushik S.C.; Tyagi S.K.

Source: International Journal of Solar Energy, Volume 22, Numbers 3-4, Numbers 3-4/September-December 2002 2003 , pp. 141-151(11)

Publisher: Taylor and Francis Ltd

Performance analysis for an irreversible variable temperature heat reservoir closed intercooled regenerated Brayton cycle

Authors: Wang W.; Chen L.; Sun F.; Wu C.

Source: Energy Conversion and Management, Volume 44, Number 17, October 2003 , pp. 2713-2732(20)

Publisher: Elsevier

Finite time thermodynamic analysis of an irreversible regenerative closed cycle brayton heat engine

Authors: Kaushik S.C.; Tyagi S.K.

Source: International Journal of Solar Energy, Volume 22, Numbers 3-4, Numbers 3-4/September-December 2002 , pp. 141-151(11)

Publisher: Taylor and Francis Ltd

Performance comparison of an irreversible closed Brayton cycle under maximum power density and maximum power conditions

Authors: Chen L.; Zheng J.; Sun F.; Wu C.

Source: Exergy, Volume 2, Number 4, 2002 , pp. 345-351(7)

Publisher: Elsevier

Performance comparison of an endoreversible closed variable temperature heat reservoir Brayton cycle under maximum power density and maximum power conditions

Authors: Chen L.; Zheng J.; Sun F.; Wu C.

Source: Energy Conversion and Management, Volume 43, Number 1, January 2002 , pp. 33-43(11)

Publisher: Elsevier

Power Density Optimization for an Irreversible Closed Brayton Cycle

Authors: Chen L.; Zheng J.; Sun F.; Wu C.

Source: Open Systems and Information Dynamics, Volume 8, Number 3, September 2001 , pp. 241-260(20)

Publisher: Springer

Power Density Analysis for a Regenerated Closed Brayton Cycle

Authors: Chen L.; Zheng J.; Sun F.; Wu C.

Source: Open Systems and Information Dynamics, Volume 8, Number 4, December 2001 , pp. 377-391(15)

Publisher: Springer

Optimum distribution of heat exchanger inventory for power density optimization of an endoreversible closed Brayton cycle

Authors: Chen L.; Zheng J.; Sun F.; Wu C.

Source: Journal of Physics D: Applied Physics, Volume 34, Number 3, 2001 , pp. 422-427(6)

Publisher: Institute of Physics Publishing

Performance of heat-transfer irreversible regenerated Brayton refrigerators

Authors: Chen L.; Zhou S.; Sun F.; Wu C.

Source: Journal of Physics D: Applied Physics, Volume 34, Number 5, 2001 , pp. 830-837(8)

Publisher: Institute of Physics Publishing

Power density analysis and optimization of a regenerated closed variable-temperature heat reservoir Brayton cycle

Authors: Chen L-G.; Zheng J-L.; Sun F-R.; Wu C.

Source: Journal of Physics D: Applied Physics, Volume 34, Number 11, 2001 , pp. 1727-1739(13)

Publisher: Institute of Physics Publishing

The solar thermal decarbonization of natural gas

Authors: Hirsch D.; Epstein M.; Steinfeld A.

Source: International Journal of Hydrogen Energy, Volume 26, Number 10, October 2001 , pp. 1023-1033(11)

Publisher: Elsevier

Development of a compact laminar flow heat exchanger with stainless steel micro-tubes

Authors: Saji N.; Nagai S.; Tsuchiya K.; Asakura H.; Obata M.

Source: Physica C, Volume 354, Number 1, May 2001 , pp. 148-151(4)

Publisher: Elsevier

Liquid nitrogen fueled, closed Brayton cycle cryogenic heat engine

Author: Ordonez C.A.

Source: Energy Conversion and Management, Volume 41, Number 4, March 2000 , pp. 331-341(11)

Publisher: Elsevier

Developments in Turbo Brayton technology for low temperature applications

Authors: Swift W.L.; Zagarola M.V.; Nellis G.F.; McCormick J.A.; Sixsmith H.; Gibbon J.A.

Source: Cryogenics, Volume 39, Number 12, December 1999 , pp. 989-995(7)

Publisher: Elsevier

Nonsteady behaviour of solar dynamic power systems with Stirling cycle for space stations

Authors: Audy C.; Fischer M.; Messerschmid E.W.

Source: Aerospace Science and Technology, Volume 3, Number 1, January 1999 , pp. 49-58(10)

Publisher: Elsevier