Feature Papers in Membrane Processing and Engineering
A topical collection in Membranes (ISSN 2077-0375).
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Editor
Topical Collection Information
Dear Colleagues,
The scope for the Topic Collection includes but is not limited to the following: Fundamentals of process modeling and technoeconomic assessment; New concepts in hybrid processes and process integration; Innovations in module modeling and design; Advances in real-time process monitoring, control, and automation; Fundamentals of predicting and preventing membrane fouling; Innovations in MF and UF; Case studies in process scale-up; Membrane distillation and pervaporation: innovations in process design and scalability; Process innovations in electrofunctional and electrocatalytic membrane processes; New concepts in osmotically-driven membrane processes.
Dr. Jia Wei Chew
Collection Editor
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Published Papers (2 papers)
Open AccessEditor’s ChoiceReview
Recent Advances and Challenges in Anion Exchange Membranes Development/Application for Water Electrolysis: A Review
by
Lu Liu, Hongyang Ma, Madani Khan and Benjamin S. Hsiao
Cited by 4 | Viewed by 4234
Abstract
In recent years, anion exchange membranes (AEMs) have aroused widespread interest in hydrogen production via water electrolysis using renewable energy sources. The two current commercial low-temperature water electrolysis technologies used are alkaline water electrolysis (AWE) and proton exchange membrane (PEM) water electrolysis. The
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In recent years, anion exchange membranes (AEMs) have aroused widespread interest in hydrogen production via water electrolysis using renewable energy sources. The two current commercial low-temperature water electrolysis technologies used are alkaline water electrolysis (AWE) and proton exchange membrane (PEM) water electrolysis. The AWE technology exhibited the advantages of high stability and increased cost-effectiveness with low hydrogen production efficiency. In contrast, PEM water electrolysis exhibited high hydrogen efficiency with low stability and cost-effectiveness, respectively. Unfortunately, the major challenges that AEMs, as well as the corresponding ion transportation membranes, including alkaline hydrogen separator and proton exchange membranes, still face are hydrogen production efficiency, long-term stability, and cost-effectiveness under working conditions, which exhibited critical issues that need to be addressed as a top priority. This review comprehensively presented research progress on AEMs in recent years, providing a thorough understanding of academic studies and industrial applications. It focused on analyzing the chemical structure of polymers and the performance of AEMs and established the relationship between the structure and efficiency of the membranes. This review aimed to identify approaches for improving AEM ion conductivity and alkaline stability. Additionally, future research directions for the commercialization of anion exchange membranes were discussed based on the analysis and assessment of the current applications of AEMs in patents.
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Open AccessReview
Electro-Driven Materials and Processes for Lithium Recovery—A Review
by
Anna Siekierka, Marek Bryjak, Amir Razmjou, Wojciech Kujawski, Aleksandar N. Nikoloski and Ludovic F. Dumée
Cited by 19 | Viewed by 6035
Abstract
The mass production of lithium-ion batteries and lithium-rich e-products that are required for electric vehicles, energy storage devices, and cloud-connected electronics is driving an unprecedented demand for lithium resources. Current lithium production technologies, in which extraction and purification are typically achieved by hydrometallurgical
[...] Read more.
The mass production of lithium-ion batteries and lithium-rich e-products that are required for electric vehicles, energy storage devices, and cloud-connected electronics is driving an unprecedented demand for lithium resources. Current lithium production technologies, in which extraction and purification are typically achieved by hydrometallurgical routes, possess strong environmental impact but are also energy-intensive and require extensive operational capabilities. The emergence of selective membrane materials and associated electro-processes offers an avenue to reduce these energy and cost penalties and create more sustainable lithium production approaches. In this review, lithium recovery technologies are discussed considering the origin of the lithium, which can be primary sources such as minerals and brines or e-waste sources generated from recycling of batteries and other e-products. The relevance of electro-membrane processes for selective lithium recovery is discussed as well as the potential and shortfalls of current electro-membrane methods.
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