分子筛基CO_(2)吸附剂研究进展

Research progresses on zeolite-based CO_(2) adsorbents

固体吸附法有望显著降低CO_(2)捕集技术的成本,并由此推动碳捕集利用与封存技术大面积应用,为碳中和目标的高质量实现提供重要保障。高性能吸附剂是目前吸附法CO_(2)捕集技术的研究热点方向,受到了来自学术界和工业界的广泛关注。本文聚焦分子筛基CO_(2)吸附剂,围绕近年来该领域的研发工作,综述了纯硅铝分子筛、离子交换改性、胺基化功能改性、疏水化改性、“Trapdoor”吸附新策略5类分子筛基吸附剂的设计策略、合成方法、强化CO_(2)吸附原理等方面的研究进展,对比了其优劣势。在此基础上,结合碳捕集技术潜在的应用场景讨论了温度、压力、烟气组成的影响,并围绕分子筛基CO_(2)吸附剂面向规模化应用可能存在的技术问题对进一步的工作方向提出了建议。

Solid phase adsorption is expected to significantly reduce the cost of CO_(2) capture,and thereby promote the wide deployment of carbon capture,utilization and storage,which is of vital importance for high quality achievement of carbon neutrality.High performance adsorbent is the current research hotspot in this field,which has received extensive attention from both academia and industrial aspects.This paper focused on zeolite-based CO_(2) adsorbents.Following the research and development trend of the materials,the recent progresses were reviewed from the aspects of pure silicon aluminum molecular sieve,ion exchange modification,amination function modification,hydrophobic modification and new adsorption mechanism of“Trapdoor”.The design strategy,synthesis method,mechanism of enhancing CO_(2) adsorption and related contents were summarized,and their pros and cons were compared.Based on this,the influence of temperature,pressure and composition of flue gas was discussed in the context of potential scenarios of CO_(2) capture.Moreover,by taking considerations on possible issues of large-scale application,suggestions for further work were proposed.