Maximizing Biochemical and Energy Recovery from Wastewater Using Vapor-Gap Membranes

IF 7.4 Q1 ENGINEERING, ENVIRONMENTAL

ACS ES&T engineering Pub Date : 2024-06-07 DOI:10.1021/acsestengg.4c00144

Sifat Kalam, Abhishek Dutta, Xuesong Li, Sangsuk Lee, Duong Nguyen, Anthony P. Straub* and Jongho Lee*,

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Abstract

Carbon, nutrients, and heat are available in vast quantities in wastewater. However, technologies that can effectively extract chemicals and energy are needed to realize wastewater as a sustainable resource. Recent advances in wetting-resistant porous membranes, termed vapor-gap membranes (VGMs), have demonstrated that they are well-suited to the facile, selective, and cost-effective recovery of volatile resources and energy from wastewater. In this review, we examine the promise and limitations of VGM-based processes with a particular focus on two types of resources from wastewater: dissolved volatile compounds and low-grade heat. We begin by discussing the driving forces and selective mechanisms required for the extraction of different resources through VGMs. Then, the current status and challenges for the recovery of volatile compounds using VGMs are presented. We also analyze the resource potential of thermal energy in wastewater and its recovery using VGMs. Based on the membrane capabilities, process requirements, and resource availability, we assess the feasibility of wastewater valorization using VGMs and identify the research needs to achieve high recovery efficiency, long-term reliability, and scalability.

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利用蒸汽间隙膜最大限度地回收废水中的生化物质和能源

废水中含有大量的碳、养分和热量。然而，要使废水成为可持续资源，就需要能够有效提取化学品和能源的技术。最近在耐湿多孔膜（称为蒸汽隙膜（VGM））方面取得的进展表明，它们非常适合于从废水中方便、有选择性和经济高效地回收挥发性资源和能源。在本综述中，我们将探讨基于 VGM 工艺的前景和局限性，并特别关注废水中的两类资源：溶解挥发性化合物和低品位热量。我们首先讨论了通过 VGM 提取不同资源所需的驱动力和选择机制。然后，介绍了利用 VGM 回收挥发性化合物的现状和挑战。我们还分析了废水中热能的资源潜力以及利用 VGMs 回收热能的情况。基于膜能力、工艺要求和资源可用性，我们评估了使用 VGMs 进行废水价值化的可行性，并确定了实现高回收效率、长期可靠性和可扩展性的研究需求。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ACS ES&T engineering ENGINEERING, ENVIRONMENTAL-

CiteScore

8.50

自引率

0.00%

发文量

期刊介绍： ACS ES&T Engineering publishes impactful research and review articles across all realms of environmental technology and engineering, employing a rigorous peer-review process. As a specialized journal, it aims to provide an international platform for research and innovation, inviting contributions on materials technologies, processes, data analytics, and engineering systems that can effectively manage, protect, and remediate air, water, and soil quality, as well as treat wastes and recover resources. The journal encourages research that supports informed decision-making within complex engineered systems and is grounded in mechanistic science and analytics, describing intricate environmental engineering systems. It considers papers presenting novel advancements, spanning from laboratory discovery to field-based application. However, case or demonstration studies lacking significant scientific advancements and technological innovations are not within its scope. Contributions containing experimental and/or theoretical methods, rooted in engineering principles and integrated with knowledge from other disciplines, are welcomed.

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