Regeneration method for spent FCC catalysts: Brief Review

Asian Journal of Research in Chemistry Pub Date : 2023-07-01 DOI:10.22271/reschem.2023.v4.i2a.96

Didi Dwi Anggoro, Luqman Buchori, Muhammad Fadila Putra, Brilliant Umara Le Monde

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Abstract

Throughout refinement, catalysts are switched off in commercial catalytic processes. When they are not tuned, catalysts become dangerous. Deactivation catalyst is mostly wasted FCC catalyst as a result of heavy metal coke, poison, and sintering. Regenerating a deactivated catalyst could eliminate the metals while resurrecting the very desirable catalytic activity. While there are a few a variety of physical, chemical, and thermal treatment methods for removing metals, it is still difficult to discover reliable, effective, and cost-effective regeneration strategies for catalytic processes in commercial application. In addition, the effect of relevant reaction parameters on the route for regenerating utilized catalyst was investigated, and suggestions were made for the future of this research. This brief review offers an important evaluation of the material recently made publicly available on the reuse of used FCC catalyst by oxidation, gasification, and chemical processes, could potentially provide some insight into the development and improvement of catalysts as well as associated processes.

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FCC废催化剂的再生方法综述

在整个精炼过程中，催化剂在商业催化过程中是关闭的。如果不调整，催化剂就会变得危险。失活催化剂多为废催化裂化催化剂，主要是重金属结焦、中毒、烧结等原因造成的。再生失活的催化剂可以消除金属，同时恢复非常理想的催化活性。虽然有几种不同的物理、化学和热处理方法来去除金属，但仍然很难发现可靠、有效和具有成本效益的再生策略用于商业应用的催化过程。此外，还考察了相关反应参数对废催化剂再生路线的影响，并对今后的研究提出了建议。本文简要回顾了最近公开的关于催化裂化催化剂的氧化、气化和化学工艺的再利用的重要评价，可能为催化剂及其相关工艺的开发和改进提供一些潜在的见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Asian Journal of Research in Chemistry

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