将捕获一氧化碳后的废铁吸附剂FFH作为循环经济的一个要素进行管理的可能性。

Possibilities of Managing Waste Iron Sorbent FFH after CO Capture as an Element of a Circular Economy.

作者信息

Kamizela Tomasz, Kowalczyk Mariusz, Worwąg Małgorzata, Wystalska Katarzyna, Zabochnicka Magdalena, Kępa Urszula

机构信息

Faculty of Infrastructure and Environment, Czestochowa University of Technology, J.H. Dąbrowskiego 69, 42-201 Częstochowa, Poland.

出版信息

Materials (Basel). 2024 Jun 4;17(11):2725. doi: 10.3390/ma17112725.

DOI:10.3390/ma17112725

PMID:38893989

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11173496/

Abstract

With a growing need to reduce greenhouse gas emissions, innovative carbon dioxide sorbents are being sought. One of the sorbents being tested is nanoparticle ferric hydrosol (FFH). In parallel with sorbent testing, it is also necessary to test the used sorbent after carbon dioxide capture (FFHCO2) and to develop an optimal method for its processing and management. The research described in this article evaluated the potential use of FFHCO2 in dewatering, coagulation and bioleaching processes. The research results indicate that the basic strategy for dealing with waste FFHCO2 sorbent should be to minimize the amount of waste by volume reduction-dewatering. Recycling of FFHCO2 as an iron waste coagulant or its processing products by bioleaching had no technological justification. It is only proposed to recover the material-iron compounds-if it is environmentally and economically justified.

摘要

随着减少温室气体排放的需求不断增加，人们正在寻找创新的二氧化碳吸附剂。正在测试的一种吸附剂是纳米颗粒氢氧化铁溶胶（FFH）。在进行吸附剂测试的同时，还需要对捕获二氧化碳后的用过的吸附剂（FFHCO₂）进行测试，并开发一种优化的处理和管理方法。本文所述的研究评估了FFHCO₂在脱水、混凝和生物浸出过程中的潜在用途。研究结果表明，处理废弃FFHCO₂吸附剂的基本策略应该是通过减少体积脱水来尽量减少废物量。将FFHCO₂作为铁废物混凝剂或其生物浸出处理产品进行回收利用没有技术依据。仅建议在环境和经济合理的情况下回收物质——铁化合物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a6ec/11173496/c42d61fb73cb/materials-17-02725-g001.jpg

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将捕获一氧化碳后的废铁吸附剂FFH作为循环经济的一个要素进行管理的可能性。

Possibilities of Managing Waste Iron Sorbent FFH after CO Capture as an Element of a Circular Economy.

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