Rapid Prototyping for the Formulation of Monolith and Membrane for CO2 Removal

L. Lai, N. Jusoh, W. Tay, Y. Yeong, P. Kiew
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Abstract

ABSTRACT Sequestration of CO2 is crucial to prevent further worsening of the environmental impact caused by global warming. Monoliths and membranes made from polymeric and inorganic materials have been used for CO2 removal to address environmental issues. Rapid prototyping technology offers a great potential for the fabrication of monoliths and membranes with high flexibility in terms of geometry and structure. This paper reviews the potential of the monolith and membrane fabricated through rapid prototyping for CO2 removal. The printing mechanism, chemical composition used in the fabrication of monoliths and membranes, as well as their CO2 removal capability are reviewed. The potential of monoliths and membranes is expected to be maximized for CO2 removal with the high flexibility in tailoring the geometry, surface area and associated with the fast growth of rapid prototyping technology.
用于去除CO2的单体和膜的快速成型
二氧化碳的封存对于防止全球变暖对环境的影响进一步恶化至关重要。由聚合物和无机材料制成的单体和膜已被用于去除二氧化碳,以解决环境问题。快速成型技术为制造具有高度几何和结构灵活性的单体和膜提供了巨大的潜力。本文综述了通过快速成型技术制备的整体体和膜在去除二氧化碳方面的潜力。综述了单片和膜的打印机理、化学成分及其去除CO2的能力。随着快速成型技术的快速发展,单体材料和膜材料在几何形状、表面积等方面具有高度的灵活性,有望最大限度地发挥其去除二氧化碳的潜力。
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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