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Development of the solid sorbent technology for post combustion CO2 capture towards commercial prototype
International Journal of Greenhouse Gas Control ( IF 3.9 ) Pub Date : 2021-06-20 , DOI: 10.1016/j.ijggc.2021.103368
Sander van Paasen , Melina Infantino , Joseph Yao , Stefan H.A.M. Leenders , Jolinde M. van de Graaf , Andreas Klingler , Florian Zerobin , Tobias Pröll , Gerhard Schöny , Johannes Fuchs , Hermann Hofbauer

The Solid Sorbent Technology (SST) is a breakthrough technology which separates CO2 from flue gas in a continuous Temperature Swing Adsorption (TSA) fluidized bed process using solid adsorbent. The technology simultaneously delivers > 90% CO2 capture efficiency and > 95% CO2 purity with low to no process related emissions and at lower capture costs compared to state-of-the-art liquid amines technology. This paper will discuss results of a 900 h piloting campaign using Lewatit VP OC 1065 adsorbent and its impact on the cost comparison with liquid amines technology. The successful operation of the pilot plant and finalization of the test campaign marked the progression of the technology readiness level from TRL4 to TRL6.



中文翻译:

面向商业原型的燃烧后 CO 2捕获固体吸附剂技术的开发

固体吸附剂技术 (SST) 是一项突破性技术,它使用固体吸附剂在连续变温吸附 (TSA) 流化床工艺中从烟气中分离 CO 2。与最先进的液体胺技术相比,该技术同时提供 > 90% 的 CO 2捕获效率和 > 95% 的 CO 2纯度,与工艺相关的排放很少或没有,并且捕获成本更低。本文将讨论使用 Lewatit VP OC 1065 吸附剂的 900 小时试点活动的结果及其对与液体胺技术的成本比较的影响。试点工厂的成功运行和测试活动的完成标志着技术准备水平从 TRL4 升级到 TRL6。

更新日期:2021-06-20
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