Na2CO3基吸附剂颗粒制备及其脱碳性能

doi:10.16085/j.issn.1000-6613.2018-2402

化工进展 ›› 2019, Vol. 38 ›› Issue (08): 3562-3571.DOI: 10.16085/j.issn.1000-6613.2018-2402

Na₂CO₃基吸附剂颗粒制备及其脱碳性能

雷苏(),曾鹏鑫,王鹏,张路珧,姚睿璇,赵传文(),孙健,郭亚飞,祝秀明,卢平

南京师范大学能源与机械工程学院，江苏南京 210042

收稿日期:2018-12-12 出版日期:2019-08-05 发布日期:2019-08-05
通讯作者: 赵传文
作者简介:雷苏（1998—），女，本科生，研究方向为CO2捕集与利用。E-mail：3291340183@qq.com。
基金资助:
国家自然科学基金(U1510129)

Investigation on granulation and CO₂ uptake of Na₂CO₃-basedsorbent pellets

Su LEI(),Pengxin ZENG,Peng WANG,Luyao ZHANG,Ruixuan YAO,Chuanwen ZHAO(),Jian SUN,Yafei GUO,Xiuming ZHU,Ping LU

College of Energy and Mechanical Engineering, Nanjing Normal University, Nanjing 210042, Jiangsu, China

Received:2018-12-12 Online:2019-08-05 Published:2019-08-05
Contact: Chuanwen ZHAO

摘要/Abstract

摘要：

采用挤压-滚圆法制备Na₂CO₃基CO₂吸附剂微球颗粒，在自行设计的CO₂吸收系统中对制备的样品进行脱碳性能测试。结合相关表征测试，探明不同载体、不同负载量的Na₂CO₃基吸附剂的微观结构、脱碳性能以及机械性能的变化规律和内在原因。研究表明：不同载体的Na₂CO₃基吸附剂颗粒脱碳性能存在明显差异，其中氧化铝负载的吸附剂（Na₂CO₃/Al₂O₃）的脱碳性能最好，可达1.14mmol/g。铝酸钙水泥负载的吸附剂（Na₂CO₃/CA）机械性能较好，但其脱碳性能最差。结合吸附剂脱碳和机械性能的综合考量，Na₂CO₃/Al₂O₃是最为合适的CO₂吸附剂，并进一步研究不同Na₂CO₃负载量的影响。研究发现随着Na₂CO₃负载量的变化，吸附剂的微观结构、脱碳性能以及机械性能都存在明显的差异。虽然60%负载量的Na₂CO₃/Al₂O₃吸附剂颗粒的机械性能和脱碳效果较好，但其成球度较差，影响其实际应用。质量分数40%负载量的Na₂CO₃/Al₂O₃吸附剂颗粒具有良好的脱碳性能、机械性能以及成球度，CO₂脱除量为1.36mmol/g。总体而言，利用挤压-滚圆法制备的Na₂CO₃基吸附剂颗粒具有良好的流动特性、脱碳性能和机械性能，适用于电厂烟气中的CO₂脱除。

关键词: CO₂捕集, Na₂CO₃基吸附剂颗粒, 挤压-滚圆, 负载量, 机械性能

Abstract:

Na₂CO₃-based CO₂ sorbent pellets were prepared via extrusion-spheronization method, and whose CO₂ capture performance was tested using a self-designed CO₂ sorption system. The microstructure, CO₂ capture performance and mechanical properties of Na₂CO₃-based sorbent pellets with different supports and loadings were investigated. The results showed that Na₂CO₃-based sorbent pellets with different supports exhibited relatively large discrepancy on CO₂ capture performance. The alumina-supported sorbent pellet (Na₂CO₃/Al₂O₃) possessed the highest CO₂ capture capacity of 1.14mmol/g. However, the calcium aluminate cement-supported sorbent pellets (Na₂CO₃/CA) exhibited the good mechanical properties and inferior CO₂ capture performance. Comprehensively considering the CO₂ capture performance and mechanical properties, Na₂CO₃/Al₂O₃ is the most suitable CO₂ sorbent. Moreover, the effect of loading amount of Na₂CO₃ on performance of Na₂CO₃/Al₂O₃ sorbent pellets was further studied. It was found that the microstructure, CO₂ capture performance and mechanical properties of Na₂CO₃/Al₂O₃ sorbent pellets were closely related to loading amount of NaCO₃. Although the pellets loaded with 60% of NaCO₃ exhibited the superior mechanical properties and CO₂ capture performance, their poor sphericity impeded the practical application. The Na₂CO₃/Al₂O₃ sorbent pellets loaded with 40% of NaCO₃ exhibited good CO₂ capture performance, mechanical properties and sphericity, whose CO₂ capture capacity is 1.36mmol/g. Therefore, the Na₂CO₃-based sorbent pellets prepared via extrusion-spheronization were suitable to be applied for CO₂ removal in power plant flue gas due to their good fluidization characteristics, CO₂ capture performance and mechanical properties.

Key words: CO₂ capture, Na₂CO₃-based sorbent pellets, extrusion-spheronization, loading amount, mechanical properties

中图分类号:

TK09

雷苏,曾鹏鑫,王鹏,张路珧,姚睿璇,赵传文,孙健,郭亚飞,祝秀明,卢平. Na₂CO₃基吸附剂颗粒制备及其脱碳性能[J]. 化工进展, 2019, 38(08): 3562-3571.

Su LEI,Pengxin ZENG,Peng WANG,Luyao ZHANG,Ruixuan YAO,Chuanwen ZHAO,Jian SUN,Yafei GUO,Xiuming ZHU,Ping LU. Investigation on granulation and CO₂ uptake of Na₂CO₃-basedsorbent pellets[J]. Chemical Industry and Engineering Progress, 2019, 38(08): 3562-3571.

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Na₂CO₃基吸附剂颗粒制备及其脱碳性能

Investigation on granulation and CO₂ uptake of Na₂CO₃-basedsorbent pellets

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