论文信息 - Limiting thermodynamic efficiencies of thermochemical cycles used for hydrogen generation

Limiting thermodynamic efficiencies of thermochemical cycles used for hydrogen generation

Thermochemical cycles can provide a transformation mechanism for highly endothermic reactions at moderate temperatures and worthwhile yields but without the generation of waste streams. These have a general applicability but have been predominantly used for energy transformation from heat to stored chemical free energy in the form of hydrogen, with a view to a future hydrogen economy. Thermal efficiency is a key parameter in such a transformation, and the study presents a simple methodology for the determination of the limiting efficiency available, for the purpose of decision making in further cycle implementation and to develop consistency with other heat-to-work processes. The method is applied to 21 previously reported cycles, for which no such efficiency information has been reported, and discusses the features of the cycles which give rise to high and low efficiencies.

R. W. K. Allen | R. Allen | B. Ewan | B. C. R. Ewan

[1] G. E. Beghi,et al. A decade of research on thermochemical hydrogen at the Joint Research Centre, Ispra , 1986 .

[2] Nigel P. Brandon,et al. A critical pathway energy efficiency analysis of the thermochemical UT-3 cycle , 2005 .

[3] K. F. Knoche,et al. Vapor pressures of the system HI/H2O/I2 and H2 , 1986 .

[4] K. F. Knoche,et al. Thermochemical production of hydrogen by a vanadium/chlorine cycle. Part 1: An energy and exergy analysis of the process , 1984 .

[5] A. Steinfeld. Solar hydrogen production via a two-step water-splitting thermochemical cycle based on Zn/ZnO redox reactions , 2002 .

[6] Jean-Marc Borgard,et al. Upper bound and best estimate of the efficiency of the iodine sulphur cycle , 2005 .

[7] C. J. Warde,et al. The Westinghouse Sulfur Cycle for the thermochemical decomposition of water , 1977 .

[8] C. Bamberger,et al. Hydrogen production from water by thermochemical cycles; a 1977 update☆ , 1978 .

[9] Yutaka Tamaura,et al. Production of solar hydrogen by a novel, 2-step, water-splitting thermochemical cycle , 1995 .

[10] Atsushi Tsutsumi,et al. Solar UT-3 thermochemical cycle for hydrogen production , 1996 .

[11] J. E. Funk,et al. Energy Requirements in Production of Hydrogen from Water , 1966 .