二苯并噻吩的氢化脱硫：一种机器学习方法

IF 2.5 4区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

ChemistryOpen Pub Date : 2024-04-12 DOI:10.1002/open.202400062

Dr. Guadalupe Castro, Dr. Julián Cruz-Borbolla, Dr. Marcelo Galván, Dr. Alfredo Guevara-García, Dr. Joel Ireta, Dr. Myrna H. Matus, Dr. Amilcar Meneses-Viveros, Dr. Luis Ignacio Perea-Ramírez, Miriam Pescador-Rojas

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引用次数: 0

摘要

加氢脱硫（HDS）工艺在工业中被广泛用于消除燃料中的硫化合物。然而，去除二苯并噻吩（DBT）及其衍生物是一项挑战。在此，我们使用机器学习（ML）算法研究了影响催化剂在 DBT 加氢脱硫过程中效率的关键因素。应用 Lasso、Ridge 和 Random Forest 回归技术估算了 DBT 的转化率和选择性。对于 DBT 转化率的估计，随机森林和 Lasso 可以提供充分的预测。同时，正则化回归也有类似的结果，适用于选择性估计。根据回归系数，结构参数是选择性的重要预测因素，尤其是孔径和板坯长度。这些特性可以与活性位点的可用性等方面联系起来。通过 ML 技术获得的关于 HDS 催化剂的见解与之前实验报告的解释一致。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Hydrodesulfurization of Dibenzothiophene: A Machine Learning Approach

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Hydrodesulfurization of Dibenzothiophene: A Machine Learning Approach

The hydrodesulfurization (HDS) process is widely used in the industry to eliminate sulfur compounds from fuels. However, removing dibenzothiophene (DBT) and its derivatives is a challenge. Here, the key aspects that affect the efficiency of catalysts in the HDS of DBT were investigated using machine learning (ML) algorithms. The conversion of DBT and selectivity was estimated by applying Lasso, Ridge, and Random Forest regression techniques. For the estimation of conversion of DBT, Random Forest and Lasso offer adequate predictions. At the same time, regularized regressions have similar outcomes, which are suitable for selectivity estimations. According to the regression coefficient, the structural parameters are essential predictors for selectivity, highlighting the pore size, and slab length. These properties can connect with aspects like the availability of active sites. The insights gained through ML techniques about the HDS catalysts agree with the interpretations of previous experimental reports.

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来源期刊

ChemistryOpen CHEMISTRY, MULTIDISCIPLINARY-

CiteScore

4.80

自引率

4.30%

发文量

143

审稿时长

1 months

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