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绿色能源生产:使用负载在活性炭上的Mn/Zn双金属将废塑料加氢处理成柴油燃料。

Green energy production: hydroprocessing of waste plastic to diesel fuel using bimetal of Mn/Zn supported on activated carbon.

作者信息

Gacem Amel, Yadav Krishna Kumar, Khalid Mohammad, Alqhtani Haifa A, Bin-Jumah May, Kavitha C, Tamizhdurai P

机构信息

Department of Physics, Faculty of Sciences, University 20 Août 1955 Skikda Algeria.

Department of Environmental Science, Parul Institute of Applied Sciences, Parul University Vadodara Gujarat 391760 India.

出版信息

RSC Adv. 2025 Mar 11;15(10):7769-7785. doi: 10.1039/d5ra00082c. eCollection 2025 Mar 6.

DOI:10.1039/d5ra00082c
PMID:40070392
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11895529/
Abstract

This research introduces a Mn/Zn-activated carbon (AC) bimetallic catalyst for hydroprocessing polypropylene pyrolysis oil (PPO) into hydroprocessed polypropylene pyrolysis oil blend (HPPO-B), which closely mimics commercial diesel. Under optimized conditions (70 bar, 350 °C), the catalyst efficiently converts PPO into iso-alkanes, -alkanes, and aromatics, achieving a 95% compositional match with diesel. HPPO-B meets European EN590 diesel standards, with viscosity (3.9 mm s), density (855 kg m), and cetane index (64), ensuring compatibility with diesel engines. Combustion tests show HPPO-B exhibits peak pressure and heat release rates within 96% and 95% of diesel values, respectively. Emission analysis reveals slightly higher CO (4-9 ppm) and CO (2.4-8.7%) emissions but lower unburned hydrocarbon (UHC) emissions (up to 9.5% reduction). The catalyst supports hydroisomerization, hydrogenation, aromatization, and hydrocracking, producing a fuel with a balanced iso-alkane to -alkane ratio (2.8 : 1), similar to diesel (2.2 : 1). HPPO-B also contains 7% more aromatics, improving fuel stability. The study confirms HPPO-B can be blended with diesel up to 40% without major performance or emission compromises. This research presents a sustainable solution for plastic waste management, converting polypropylene into transport fuel and promoting hydroprocessing as an environmentally friendly approach to mitigating plastic pollution.

摘要

本研究引入了一种锰/锌活性炭(AC)双金属催化剂,用于将聚丙烯热解油(PPO)加氢处理成加氢处理聚丙烯热解油混合物(HPPO - B),该混合物与商用柴油极为相似。在优化条件(70巴,350℃)下,该催化剂能有效地将PPO转化为异烷烃、正构烷烃和芳烃,与柴油的成分匹配度达到95%。HPPO - B符合欧洲EN590柴油标准,其粘度(3.9毫米²/秒)、密度(855千克/米³)和十六烷指数(64),确保了与柴油发动机的兼容性。燃烧测试表明,HPPO - B的峰值压力和热释放率分别在柴油值的96%和95%以内。排放分析显示,一氧化碳(4 - 9 ppm)和二氧化碳(2.4 - 8.7%)排放略高,但未燃烧碳氢化合物(UHC)排放较低(最多降低9.5%)。该催化剂支持加氢异构化、氢化、芳构化和加氢裂化,生产出具有平衡的异烷烃与正构烷烃比例(2.8∶1)的燃料,与柴油(2.2∶1)相似。HPPO - B的芳烃含量也多7%,提高了燃料稳定性。该研究证实,HPPO - B可与柴油以高达40%的比例混合,而不会对性能或排放造成重大影响。本研究为塑料垃圾管理提供了一种可持续解决方案,将聚丙烯转化为运输燃料,并推广加氢处理作为减轻塑料污染的环保方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3f40/11895529/abc50c988314/d5ra00082c-f8.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3f40/11895529/abc50c988314/d5ra00082c-f8.jpg
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