ILs play an essential role in advanced separation technologies, providing solutions for the sustainable development of petrochemical separation. Due to the unique properties of ILs, the separation process minimizes energy consumption, reduces waste emissions, and provides efficient separation results. IL-assisted advanced separation technologies help reduce energy and resource waste and overcome challenges.
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This special issue focuses on specific topics of ILs-assisted advanced separation technologies, including, but not limited to:
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Guest editors:
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Prof. Guoxuan LiQingdao University of Science and Technology, Qingdao, China(Chemical Process Integration; Ionic Liquids; Advanced Separation Technologies; Chemical Engineering Thermodynamics)
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Prof. Mara G. FreireUniversity of Aveiro, Aveiro, Portugal(Ionic Liquids; Separation processes; Ionic liquid-based materials)
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Prof. Zhigang LeiShihezi University, Shihezi, China(Chemical Process Integration; Ionic Liquids; Advanced Separation Technologies; Chemical Engineering Thermodynamics)
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Prof. Yinglong WangQingdao University of Science and Technology, Qingdao, China(Process Integration; Ionic Liquids; Advanced Separation Technologies; Chemical Process Simulation)
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Prof. Cintia MarangoniFederal University of Santa Catarina, FLORIANOPOLIS, Brazil(Advanced distillation processes; Membrane separation processes; Process simulation and control)
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Manuscript submission information:
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Manuscript submission open date: 01/05/2024
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Manuscript submission deadline: 31/12/2024