期刊
CASE STUDIES IN THERMAL ENGINEERING
卷 44, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.csite.2023.102863
关键词
Hydrogen combustion; Combined cycle; Water recovery; Performance analysis; Gas turbine
This paper proposes the concept of a hydrogen-fired combined cycle with water recovery to reuse the condensed water as an industrial heat supply, effectively addressing the wastage of water in the previous design. The results show that the efficiency of hydrogen-fired combined cycles with and without water recovery increased by 1.92% and 1.35% respectively compared to the natural-gas-fired combined cycle. In addition, the levelized cost of energy will be significantly lower for the hydrogen-fired combined cycle with water recovery compared to the natural-gas-fired combined cycle in 2050.
Hydrogen can alleviate the increasing environmental pollution and has good development prospects in power generation due to its high calorific value and low environmental impact. The previously designed hydrogen-fired combined cycle ignored water recycling, which led to an inefficient application of hydrogen and the wastage of water. This paper proposes the concept of a hydrogen-fired combined cycle with water recovery to reuse the condensed water as an industrial heat supply. It was applied to an F-class combined cycle power plant. The results demonstrate that the efficiency of hydrogen-fired combined cycles with and without water recovery increased by 1.92% and 1.35%, respectively, compared to that of the natural-gas-fired combined cycle under full working conditions. In addition, an economic comparison of the three cycles was conducted. The levelized cost of energy of the hydrogen-fired combined cycle with water recovery will be 52.22% lower than that of the natural-gas-fired combined cycle in 2050. This comparative study suggested that water recovery supplementation could improve the gas turbine efficiency. The proposed hydrogen-fired combined cycle with water recovery would provide both environmental and economic benefits.
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