The objectives of this paper are to develop a combined power generation cycle using refuse incineration and LNG cold energy, and to conduct parametric analysis to investigate the effects of key parameters on the thermal and exergy efficiencies. The combined cycle consists of an ammonia–water Rankine cycle with refuse incinerator and a LNG cold energy cycle. The combined cycle is compared with the conventional steam Rankine cycle. It was found that the thermal and the exergy efficiencies of the combined cycle were 1.53 and 1.43 times higher than those of the conventional cycle, respectively. The ammonia condensing temperature, turbine inlet and outlet pressures and overall conductance (UA) of the condenser are considered as the key parameters. The thermal and the exergy efficiencies increase with increasing the turbine inlet pressure. As the turbine outlet pressure increases, the thermal efficiency of the combined cycle decreases while the exergy efficiency increases. The present model can be applied to obtain optimum conditions of the key parameters for performance improvement of the combined cycle.
[1]
Takata Yasuyuki,et al.
A Program Package for Thermophysical Properties of Fluids : PROPATH Version 11.2 : New Substances and How to Use in MS-EXCEL
,
2000
.
[2]
Richard C. Bailie,et al.
Energy conversion engineering
,
1978
.
[3]
P. Nag,et al.
Exergy analysis of the Kalina cycle
,
1998
.
[4]
G Acker,et al.
EXPERIENCE USING LNG AS A MARINE ENGINE FUEL
,
1989
.
[5]
S. T. Ro,et al.
Analysis of the liquefaction process of exhaust gases from an underwater engine
,
1998
.