期刊名称:Bulletin of the Institute of Heat Engineering
印刷版ISSN:2083-4187
出版年度:2015
卷号:95
期号:4
页码:288
语种:English
出版社:Warsaw University of Technology
摘要:In this paper, feed water heating repowering of Shahid Montazeri steam power plant has been studied in three differentmodes. Efficiencies of energy and exergy have been selected as objective functions. Cycle-tempo softwarewas used for simulations. In the first case, a low pressure heat recovery heat exchanger and a EGT-RLM600-PCgas turbine were used. Efficiencies of energy and exergy increase to 3.8% & 3.79% respectively and cooling towerwater temperature difference increases to 0.652oC. In the second case, a high pressure heat recovery heat exchangerand a Siemens (KWU) V64.3 gas turbine were used. Efficiencies of energy and exergy increase to 6.68%and 6.65% respectively. In the third case, both heat recovery heat exchangers are and Westinghouse-401 gasturbines were used. Efficiencies of energy and exergy increase to 8.93% & 9.05% respectively. This is the bestplan in terms of efficiency and cycle power promotion.
其他摘要:In this paper, feed water heating repowering of Shahid Montazeri steam power plant has been studied in three different modes. Efficiencies of energy and exergy have been selected as objective functions. Cycle-tempo software was used for simulations. In the first case, a low pressure heat recovery heat exchanger and a EGT-RLM600-PC gas turbine were used. Efficiencies of energy and exergy increase to 3.8% & 3.79% respectively and cooling tower water temperature difference increases to 0.652oC. In the second case, a high pressure heat recovery heat exchanger and a Siemens (KWU) V64.3 gas turbine were used. Efficiencies of energy and exergy increase to 6.68% and 6.65% respectively. In the third case, both heat recovery heat exchangers are and Westinghouse-401 gas turbines were used. Efficiencies of energy and exergy increase to 8.93% & 9.05% respectively. This is the best plan in terms of efficiency and cycle power promotion.
关键词:Mohammad Montazeri Power Plant; Repowering; Parallel Feed Water Heating; Exergy efficiency; Cycle-Tempo
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