麦壳衍生 HZSM-5 催化剂在热解聚苯乙烯和聚丙烯过程中的协同增值:通过机器学习模型加强可持续废物能源转化

IF 2.7 4区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES Journal of Material Cycles and Waste Management Pub Date : 2024-08-13 DOI:10.1007/s10163-024-02048-9
Prathiba Rex, Kalil Rahiman
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引用次数: 0

摘要

本研究旨在建立塑料催化热解模型并对其进行优化,其中使用了一种从农业生物质废弃物中提取的催化剂。对聚苯乙烯(PSW)和聚丙烯(PPW)进行了热解和催化热解实验。选择农业生物质废物(麦壳),用硫酸(HZSM-5SA)和盐酸(HZSM-5CA)进行酸处理,然后用作催化剂。热解和催化热解在半间歇式反应器中进行,反应温度为 500 ℃,比例为 10:1、10:2 & 10:3。在比例为 10:2 时,含有 HZSM-5SA 的 PSW 产油率为 91.19%,含有 HZSM-5SA 的 PPW 产油率为 85.73%。催化剂 HZSM-5SA 有效降低了反应温度和时间,PSW 的反应温度从 450 ℃ 降至 437 ℃,反应时间从 22 分钟降至 14 分钟。PPW 的催化剂活性也得到了观察,反应温度从 471 ℃ 降至 456 ℃,反应时间从 34 分钟降至 19 分钟。测定了油的性质,发现使用 HZSM-5SA 的 PSW 得到的油的运动粘度为 2.53 厘斯,与柴油的巴拉特阶段(BS VI 2020)相吻合。使用随机森林、支持向量、K-近邻、决策树、AdaBoost 和梯度提升等六种机器学习(ML)模型对热解产物的总转化率进行了预测。在所有模型中,梯度提升回归模型的 R2 值和 RMSE 值分别为 0.984 和 0.019,评价指标良好。本研究说明了如何使用 ML 模型预测总转化率及其与目标变量和特征变量的相关矩阵。本研究还强调了可从生物质(麦壳)中制备出具有成本效益的催化剂,以及使用 ML 模型训练数据集和评估实际值与预测值。
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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Synergistic valorization of wheat husk-derived HZSM-5 catalyst in pyrolysis of polystyrene and polypropylene: sustainable waste-to-energy conversion enhanced by machine learning models

The current study aims to model and optimize the catalytic pyrolysis of plastics, incorporating an agricultural biomass waste-derived catalyst. Polystyrene (PSW) and polypropylene (PPW) are experimented with thermal and catalytic pyrolysis. Agricultural biomass waste (wheat husk) was selected and acid treated with sulfuric acid (HZSM-5SA) and hydrochloric acid (HZSM-5CA), and then used as catalyst. Thermal and catalytic pyrolysis were conducted in a semi batch reactor, with reaction temperature (500 ℃) and different ratios (10:1, 10:2 & 10:3). At a ratio 10:2, PSW with HZSM-5SA produced 91.19 wt.% of oil yield and PPW with HZSM-5SA produced 85.73 wt.% of oil yield. The catalyst HZSM-5SA was effective in the reduction of reaction temperature and time, it decreased from 450 ℃ to 437 ℃ and 22 min to 14 min for PSW. Catalyst activity was also observed for PPW, the reaction temperature decreased from 471 ℃ to 456 ℃ and 34 min to 19 min. Oil properties were determined and it was found that the kinematic viscosity of oil obtained from PSW with HZSM-5SA was 2.53 cSt, which coincide with the diesel Bharat Stage (BS VI 2020). Total conversion of pyrolysis products was predicted using six Machine Learning (ML) models such as Random Forest, Support Vector, K-Nearest Neighbor, Decision Tree, AdaBoost, and Gradient Boost. Among all the models, the Gradient Boost regressor model had a good evaluation metrics of R2 value of 0.984 and RMSE of 0.019, respectively. This study illustrates the use of ML models to predict the total conversion and their correlation matrix with target and feature variables. This study also highlights that cost-effective catalyst can be prepared from biomass (wheat husk) and the use of ML models to train the datasets and evaluate the actual and predicted values.

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来源期刊
CiteScore
5.30
自引率
16.10%
发文量
205
审稿时长
4.8 months
期刊介绍: The Journal of Material Cycles and Waste Management has a twofold focus: research in technical, political, and environmental problems of material cycles and waste management; and information that contributes to the development of an interdisciplinary science of material cycles and waste management. Its aim is to develop solutions and prescriptions for material cycles. The journal publishes original articles, reviews, and invited papers from a wide range of disciplines related to material cycles and waste management. The journal is published in cooperation with the Japan Society of Material Cycles and Waste Management (JSMCWM) and the Korea Society of Waste Management (KSWM).
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