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Synthesis of the optimal heat and water recovery system for reduction of the refinery CO₂ emission
Haeun Yoo,Kosan Roh,Ali S. Al Hunaidy,Hasan Imran,Jay H. Lee 제어로봇시스템학회 2017 제어로봇시스템학회 국제학술대회 논문집 Vol.2017 No.10
Petroleum refinery is one of the major CO₂ emitters in the global industrial sector. The refinery has a number of various CO₂ emission points including the utility plants and furnaces. Also, it consumes a large amount of industrial water as feedstock for utility. In particular, for those located in the Middle East area which is arid, the supply of the water resource turns out to be a serious problem, so it is highly demanded to utilize the water resource more efficiently. To overcome these challenges, the heat and water recovery (HWR) system applied to the steam plant of the petroleum refinery is proposed. The system allows recovering heat energy of hot flue gas streams to heat the condensate water through heat exchangers. Moreover, the flue gas streams are further cooled below the water dew point to recover water. The goal of this study is to formulate and solve an optimization problem for the heat exchanger network (HEN) synthesis of the system. The potential to CO₂ reduction and cost saving are obtained with the optimal HEN configuration. In addition, sensitivity analysis is conducted by perturbing several economic parameters that affect the optimization results.