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W2743457439 endingPage "705" @default.
W2743457439 startingPage "694" @default.
W2743457439 abstract "Taking the exergy loss minimization as the optimization objective, an optimization model of coking process is established based on the material balance and energy balance. The optimization problem is solved with the practical production data of a coking plant. The minimum exergy loss and the optimal design parameters are obtained. Performances of the mixed coal before and after optimizations are compared. Influences of design variables on minimum exergy loss are investigated. The results show that the minimum exergy loss is 3602072.2 kJ/t which decreases by 6.99% compared with that before optimization. Compared with the heat loss minimization objective, the optimization with the exergy loss minimization improves the exergy saving by 2.95%. Increasing the dosage of gas coal and synchronously reducing the dosages of the other coals can reduce the exergy loss of coking process. When the mixture ratio of blast furnace gas to coke oven gas is near to 7:1, the minimum exergy loss is obtained. Improving the desulfurization technology can relax the upper bound of sulfur constraint, and indirectly reduce the exergy loss. In practical production, the dosages of raw materials should be in the ranges where the exergy loss changes more slowly and close to the optimal values." @default.
W2743457439 created "2017-08-17" @default.
W2743457439 creator A5011749925 @default.
W2743457439 creator A5028730873 @default.
W2743457439 creator A5061326214 @default.
W2743457439 creator A5079768155 @default.
W2743457439 date "2017-11-01" @default.
W2743457439 modified "2023-10-13" @default.
W2743457439 title "Exergy analysis and optimization of coking process" @default.
W2743457439 cites W1006438586 @default.
W2743457439 cites W1056036903 @default.
W2743457439 cites W1546997545 @default.
W2743457439 cites W1837359638 @default.
W2743457439 cites W1900845832 @default.
W2743457439 cites W1980306738 @default.
W2743457439 cites W1980442654 @default.
W2743457439 cites W1983857819 @default.
W2743457439 cites W1985120854 @default.
W2743457439 cites W1990289622 @default.
W2743457439 cites W1997401855 @default.
W2743457439 cites W2006982695 @default.
W2743457439 cites W2021195293 @default.
W2743457439 cites W2022383956 @default.
W2743457439 cites W2025916326 @default.
W2743457439 cites W2031813816 @default.
W2743457439 cites W2032399386 @default.
W2743457439 cites W2033301768 @default.
W2743457439 cites W2036832831 @default.
W2743457439 cites W2037506462 @default.
W2743457439 cites W2045197724 @default.
W2743457439 cites W2046632260 @default.
W2743457439 cites W2051131492 @default.
W2743457439 cites W2054452272 @default.
W2743457439 cites W2056420067 @default.
W2743457439 cites W2059475378 @default.
W2743457439 cites W2063984003 @default.
W2743457439 cites W2068672983 @default.
W2743457439 cites W2072409720 @default.
W2743457439 cites W2074948041 @default.
W2743457439 cites W2075032172 @default.
W2743457439 cites W2076747665 @default.
W2743457439 cites W2077006364 @default.
W2743457439 cites W2083309037 @default.
W2743457439 cites W2085683151 @default.
W2743457439 cites W2086769480 @default.
W2743457439 cites W2088228560 @default.
W2743457439 cites W2089194970 @default.
W2743457439 cites W2091416772 @default.
W2743457439 cites W2107557643 @default.
W2743457439 cites W2111211542 @default.
W2743457439 cites W2112563664 @default.
W2743457439 cites W2122568133 @default.
W2743457439 cites W2127739085 @default.
W2743457439 cites W2182022472 @default.
W2743457439 cites W2230178168 @default.
W2743457439 cites W2259540044 @default.
W2743457439 cites W2261224986 @default.
W2743457439 cites W2266301233 @default.
W2743457439 cites W2285129754 @default.
W2743457439 cites W2289684014 @default.
W2743457439 cites W2289738438 @default.
W2743457439 cites W2309971480 @default.
W2743457439 cites W2323059097 @default.
W2743457439 cites W2335328109 @default.
W2743457439 cites W2339486586 @default.
W2743457439 cites W2347081235 @default.
W2743457439 cites W2397833071 @default.
W2743457439 cites W2407504199 @default.
W2743457439 cites W2416541497 @default.
W2743457439 cites W2513247187 @default.
W2743457439 cites W2514704736 @default.
W2743457439 cites W2515816339 @default.
W2743457439 cites W2525427301 @default.
W2743457439 cites W2548048905 @default.
W2743457439 cites W2560289139 @default.
W2743457439 cites W2562929112 @default.
W2743457439 cites W2566377652 @default.
W2743457439 cites W2590636362 @default.
W2743457439 cites W2593643748 @default.
W2743457439 cites W2613051583 @default.
W2743457439 cites W2782934579 @default.
W2743457439 cites W2783577448 @default.
W2743457439 cites W4251229964 @default.
W2743457439 cites W2742316647 @default.
W2743457439 doi "https://doi.org/10.1016/j.energy.2017.08.006" @default.
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