基于生物矿化策略的二氧化碳储存。

On carbon dioxide storage based on biomineralization strategies.

机构信息

CO2 Sequestration Research Department, Korea Institute of Geoscience & Mineral Resources, Gwahangno 92, Yuseonggu, Daejeon 305-350, Republic of Korea.

出版信息

Micron. 2010 Jun;41(4):273-82. doi: 10.1016/j.micron.2009.11.012. Epub 2009 Dec 14.

DOI:10.1016/j.micron.2009.11.012

PMID:20144548

Abstract

This study focuses on the separation and storage of the global warming greenhouse gas CO(2), and the use of natural biocatalysts in the development of technologies to improve CO(2) storage rates and provide new methods for CO(2) capture. Carbonic anhydrase (CA) has recently been used as a biocatalyst to sequester CO(2) through the conversion of CO(2) to HCO(-) in the mineralization of CaCO(3). Biomimetic CaCO(3) mineralization for carbon capture and storage offers potential as a stable CO(2) capture technology. In this report, we review recent developments in this field and assess disadvantages and improvements in the use of CA in industrial applications. We discuss the contribution that understanding of mechanisms of CO(2) conversion to CO(3)(-) in the formation and regeneration of bivalve shells will make to developments in biomimetic CO(2) storage.

摘要

本研究侧重于全球变暖温室气体 CO(2)的分离和储存，以及利用天然生物催化剂开发提高 CO(2)储存率的技术，并为 CO(2)捕获提供新方法。碳酸酐酶 (CA) 最近已被用作生物催化剂，通过将 CO(2)转化为 CaCO(3)的矿化中的 HCO(-)来固定 CO(2)。仿生 CaCO(3)矿化用于碳捕获和储存有望成为一种稳定的 CO(2)捕获技术。在本报告中，我们回顾了该领域的最新进展，并评估了 CA 在工业应用中的使用的缺点和改进。我们讨论了对双壳类动物贝壳形成和再生中 CO(2)转化为 CO(3)(-)机制的理解将对仿生 CO(2)储存的发展做出的贡献。

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基于生物矿化策略的二氧化碳储存。

On carbon dioxide storage based on biomineralization strategies.

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