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W3024793844 endingPage "112919" @default.
W3024793844 startingPage "112919" @default.
W3024793844 abstract "• A novel MVRCRD is proposed and its application to the MeAc hydrolysis process. • DWC, MVRC and DED technologies are integrated in the MeAc hydrolysis process. • The DED-MVRCRD-DWC has the largest economic benefits with no heat input. Heat integrated technologies can be used to revamp the methyl acetate (MeAc) hydrolysis process which help to recover the waste heat energy or replace the steam by the electric energy. A novel middle vapor recompression reactive distillation column (MVRCRD) was proposed to improve the performance of original reactive distillation column (RD). Also, an innovative design of MeAc hydrolysis process, combining MVRCRD with dividing wall column (DWC) and double-effect distillation (DED) technologies (DED-MVRCRD-DWC) scheme, was developed to as much as possible integrate the heat energy in the whole process. The MeAc hydrolysis schemes with DWC and DED technologies were also established for comparison. All the schemes were optimized by the genetic algorithm (GA) with the target of minimum total annual cost (TAC). The performance of energy, exergy, economy and environmental impact were investigated. Besides, the TAC contribution factor ( τ ) was proposed to estimate the relation between the TAC and products quality. The results show the MVRCRD is a high energy efficiency column compared with the conventional RD. The DED-MVRCRD-DWC scheme can default all the heat energy input and require fewer cold utilities, just at some cost of electricity. With different water product purity demand, it has the largest TAC saving above 60% among the schemes. The TAC contribution factor indicates the DED-MVRCRD-DWC with water product purity of 87.4% possesses the most economic benefits. More than 30% CO 2 emission can be reduced in both DED-RD-DWC and DED-MVRCRD-DWC schemes. As a consequence, the heat integrated technologies achieve a high performance and are very economically and environmentally favorable for the MeAc hydrolysis process." @default.
W3024793844 created "2020-05-21" @default.
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W3024793844 date "2020-07-01" @default.
W3024793844 modified "2023-10-12" @default.
W3024793844 title "Energy, exergy, economic, and environmental analysis for methyl acetate hydrolysis process with heat integrated technology used" @default.
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W3024793844 doi "https://doi.org/10.1016/j.enconman.2020.112919" @default.
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