FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1991452002> ?p ?o ?g. }

• W1991452002 endingPage "575" @default.
• W1991452002 startingPage "565" @default.
• W1991452002 abstract "• A design of a hybrid process consisting of distillation and pervaporation has been elaborated. • The use of pervaporation decreases the energy requirements associated to the distillation column. • In the hybrid, the highest energy consumption is obtained when more methanol is present in the mixture. • The hybrid process produces the lowest environmental impact. • Solvent recovery is a key issue to minimize the environmental burdens. Separation processes are among the most energy-intensive stages in the chemical industry, and the evaluation and minimization of environmental impacts is part of the challenges faced by environmental engineering. Pressure swing distillation is a commonly used technique for separation of the mixture methanol/tetrahydrofuran (THF); the separation is not feasible with conventional distillation due to the presence of an azeotrope. In this work, the design of a hybrid process consisting of distillation and pervaporation is elaborated as an alternative for the separation and evaluated from a technical and an environmental point of view. Three different compositions of the feed stream are considered: 25, 50 and 75 wt% methanol in THF and the simulation of pressure swing distillation and the hybrid process allows comparison of the energy requirements. In addition, the effect of the membrane performance on the purity of the products and the energy demand were studied. Life cycle assessment (LCA) was used to evaluate the environmental impact of both alternatives compared to incineration. From the LCA, it was observed that the hybrid process produces the lowest impact, indicating that solvent recovery is a key issue to minimize the environmental burdens. Thus, integration of membrane technology in a hybrid configuration should be considered in the design and development of more environmentally friendly processes." @default.
• W1991452002 created "2016-06-24" @default.
• W1991452002 creator A5001717161 @default.
• W1991452002 creator A5020494082 @default.
• W1991452002 creator A5037818782 @default.
• W1991452002 creator A5078003594 @default.
• W1991452002 creator A5086496130 @default.
• W1991452002 date "2014-01-01" @default.
• W1991452002 modified "2023-09-23" @default.
• W1991452002 title "Simulation and environmental evaluation of process design: Distillation vs. hybrid distillation–pervaporation for methanol/tetrahydrofuran separation" @default.
• W1991452002 cites W1563851099 @default.
• W1991452002 cites W1965736487 @default.
• W1991452002 cites W1966159481 @default.
• W1991452002 cites W1971381218 @default.
• W1991452002 cites W1972742727 @default.
• W1991452002 cites W1973144363 @default.
• W1991452002 cites W1979912845 @default.
• W1991452002 cites W1979982619 @default.
• W1991452002 cites W1980233528 @default.
• W1991452002 cites W1987997180 @default.
• W1991452002 cites W1990965624 @default.
• W1991452002 cites W1995240157 @default.
• W1991452002 cites W1995991728 @default.
• W1991452002 cites W1996043048 @default.
• W1991452002 cites W1998050824 @default.
• W1991452002 cites W1999422312 @default.
• W1991452002 cites W1999895235 @default.
• W1991452002 cites W2005026599 @default.
• W1991452002 cites W2005368791 @default.
• W1991452002 cites W2008875826 @default.
• W1991452002 cites W2015174400 @default.
• W1991452002 cites W2027455598 @default.
• W1991452002 cites W2028022870 @default.
• W1991452002 cites W2028158304 @default.
• W1991452002 cites W2029480594 @default.
• W1991452002 cites W2037934085 @default.
• W1991452002 cites W2041836350 @default.
• W1991452002 cites W2072567820 @default.
• W1991452002 cites W2074322797 @default.
• W1991452002 cites W2080847007 @default.
• W1991452002 cites W2085021670 @default.
• W1991452002 cites W2169724003 @default.
• W1991452002 cites W4230384091 @default.
• W1991452002 doi "https://doi.org/10.1016/j.apenergy.2013.06.040" @default.
• W1991452002 hasPublicationYear "2014" @default.
• W1991452002 type Work @default.
• W1991452002 sameAs 1991452002 @default.
• W1991452002 citedByCount "59" @default.
• W1991452002 countsByYear W19914520022014 @default.
• W1991452002 countsByYear W19914520022015 @default.
• W1991452002 countsByYear W19914520022016 @default.
• W1991452002 countsByYear W19914520022017 @default.
• W1991452002 countsByYear W19914520022018 @default.
• W1991452002 countsByYear W19914520022019 @default.
• W1991452002 countsByYear W19914520022020 @default.
• W1991452002 countsByYear W19914520022021 @default.
• W1991452002 countsByYear W19914520022022 @default.
• W1991452002 countsByYear W19914520022023 @default.
• W1991452002 crossrefType "journal-article" @default.
• W1991452002 hasAuthorship W1991452002A5001717161 @default.
• W1991452002 hasAuthorship W1991452002A5020494082 @default.
• W1991452002 hasAuthorship W1991452002A5037818782 @default.
• W1991452002 hasAuthorship W1991452002A5078003594 @default.
• W1991452002 hasAuthorship W1991452002A5086496130 @default.
• W1991452002 hasConcept C111919701 @default.
• W1991452002 hasConcept C127413603 @default.
• W1991452002 hasConcept C139719470 @default.
• W1991452002 hasConcept C151572726 @default.
• W1991452002 hasConcept C154030694 @default.
• W1991452002 hasConcept C162324750 @default.
• W1991452002 hasConcept C178790620 @default.
• W1991452002 hasConcept C185592680 @default.
• W1991452002 hasConcept C19924549 @default.
• W1991452002 hasConcept C204030448 @default.
• W1991452002 hasConcept C21880701 @default.
• W1991452002 hasConcept C2778348673 @default.
• W1991452002 hasConcept C2778706760 @default.
• W1991452002 hasConcept C2780232233 @default.
• W1991452002 hasConcept C39432304 @default.
• W1991452002 hasConcept C41008148 @default.
• W1991452002 hasConcept C41625074 @default.
• W1991452002 hasConcept C43617362 @default.
• W1991452002 hasConcept C50670333 @default.
• W1991452002 hasConcept C548081761 @default.
• W1991452002 hasConcept C55493867 @default.
• W1991452002 hasConcept C69141292 @default.
• W1991452002 hasConcept C98045186 @default.
• W1991452002 hasConceptScore W1991452002C111919701 @default.
• W1991452002 hasConceptScore W1991452002C127413603 @default.
• W1991452002 hasConceptScore W1991452002C139719470 @default.
• W1991452002 hasConceptScore W1991452002C151572726 @default.
• W1991452002 hasConceptScore W1991452002C154030694 @default.
• W1991452002 hasConceptScore W1991452002C162324750 @default.
• W1991452002 hasConceptScore W1991452002C178790620 @default.
• W1991452002 hasConceptScore W1991452002C185592680 @default.
• W1991452002 hasConceptScore W1991452002C19924549 @default.
• W1991452002 hasConceptScore W1991452002C204030448 @default.
• W1991452002 hasConceptScore W1991452002C21880701 @default.

• next