水泥生产过程中CO₂捕获与矿化封存技术集成
Integration of CO₂ capture and mineralization sequestration in cement production
ES评分 0
| DOI |
10.12208/j.sdr.20250145 |
| 刊名 |
Scientific Development Research
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| 年,卷(期) |
2025, 5(4) |
| 作者 |
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| 作者单位 |
内蒙古蒙西水泥股份有限公司 内蒙古鄂尔多斯
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| 摘要 |
水泥生产是全球二氧化碳排放的重要来源之一,寻找有效的减排技术成为应对气候变化的关键课题。CO₂捕获与矿化封存技术为解决水泥工业碳排放提供了一条有效途径。本研究探讨了将CO₂捕获与矿化封存技术集成应用于水泥生产过程中的可行性与挑战。通过对现有技术的综合分析,评估了其在水泥生产过程中的适应性、经济性及环境效益。实验结果表明,合理的技术集成不仅能显著减少CO₂排放,还能促进副产品的利用。本文为水泥行业的低碳转型提供了可行的技术路径和策略,具有重要的实践意义。
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| Abstract |
Cement production stands as a major contributor to global carbon dioxide emissions, making the development of effective emission reduction technologies a critical challenge in combating climate change. CO₂ capture and mineralized storage technology offers a viable solution for addressing carbon emissions in the cement industry. This study investigates the feasibility and challenges of integrating CO₂ capture and mineralized storage into cement production processes. Through comprehensive analysis of existing technologies, we evaluate their adaptability, economic viability, and environmental benefits in cement manufacturing. Experimental results demonstrate that strategic integration of these technologies not only significantly reduces CO₂ emissions but also enhances by-product utilization. The findings provide actionable technical pathways and strategies for the low-carbon transformation of the cement industry, offering substantial practical implications for sustainable development.
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| 关键词 |
水泥生产;CO₂捕获;矿化封存;碳减排;技术集成
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| KeyWord |
Cement production; CO₂ capture; Mineralized storage; Carbon emission reduction; Technology integration
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| 基金项目 |
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| 页码 |
46-49 |
王金海*.
水泥生产过程中CO₂捕获与矿化封存技术集成 [J].
科学发展研究.
2025; 5; (4).
46 - 49.