芳烃的燃烧化学

IF 32 1区 工程技术 Q1 ENERGY & FUELS Progress in Energy and Combustion Science Pub Date : 2023-05-01 DOI:10.1016/j.pecs.2023.101076
Hanfeng Jin , Wenhao Yuan , Wei Li , Jiuzhong Yang , Zhongyue Zhou , Long Zhao , Yuyang Li , Fei Qi
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引用次数: 8

摘要

芳烃是石油基运输燃料、生物质、煤炭和固体废物等的重要成分。芳烃的反应动力学在很大程度上决定了汽车/喷气发动机、发电厂和工业反应器的燃烧特性和污染物排放。虽然最近有一些综述集中在汽油替代燃料中的芳烃,生物质/煤/固体废物的热化学转化以及燃烧烟灰的形成,但对芳烃燃烧化学的专门研究仍然缺乏。在过去的几十年里,基于热解、氧化、火焰、激波管和快速压缩机的测量,以及量子化学和详细的动力学建模,对反应动力学进行了有价值的研究。重要的进展使人们更好地理解这种物理化学反应系统,从芳香族分解、氧化到污染物的形成。本文将芳烃系统地分为五大类:碱性芳烃、单取代芳烃、多取代芳烃、氢化芳烃和多环芳烃。基本芳香族燃烧化学由基本芳香族分子结构的反应组成。芳基对芳烃衍生物的反应动力学影响很大,导致其燃烧性能与普通石蜡、烯烃和环烷有很大的不同。本文旨在介绍在最近的研究中收集到的知识,突出这一迅速丰富的信息的相关方面,并展望了从根本上全面的芳香族燃烧化学和实际有效的芳香族燃烧模型的挑战。
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Combustion chemistry of aromatic hydrocarbons

Aromatic hydrocarbons are important components of petroleum-based transportation fuels, biomass, coal, and solid waste, etc. The reaction kinetics of aromatic hydrocarbons largely determine the combustion characteristics and pollutant emission of vehicle/jet engines, power plants, and industrial reactors. While a few reviews have recently focused on aromatic hydrocarbons in gasoline surrogate fuels, thermochemical conversion of biomass/coal/solid waste, and combustion soot formation, a dedicated overview of research on the combustion chemistry of aromatic hydrocarbons is still lacking. In the last decades, valuable investigations addressing the reaction kinetics were reported based on the measurements from pyrolysis, oxidation, flames, shock tubes, and rapid compression machines, complemented by quantum chemistry and detailed kinetic modeling. Significant advances have allowed a better understanding of such physicochemical reacting system, from aromatic decomposition, oxidation, to pollutants formation. In the present review, aromatic hydrocarbons are systematically categorized to five common classes: basic, mono-substituted, multi-substituted, hydrogenated, and polycyclic aromatics. Fundamental aromatic combustion chemistry consists of the reactions of basic aromatic molecular structures. Then the aryl group strongly influences the reaction kinetics of aromatic derivates, which leads to very different combustion performance from those ordinary paraffins, olefins, and naphthenes. This paper seeks to provide an introduction to the knowledge gathered in the recent research, highlight pertinent aspects of this rapidly enriching information, and outlook the challenges towards fundamentally comprehensive aromatic combustion chemistry and practically efficient aromatic combustion model.

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来源期刊
Progress in Energy and Combustion Science
Progress in Energy and Combustion Science 工程技术-工程:化工
CiteScore
59.30
自引率
0.70%
发文量
44
审稿时长
3 months
期刊介绍: Progress in Energy and Combustion Science (PECS) publishes review articles covering all aspects of energy and combustion science. These articles offer a comprehensive, in-depth overview, evaluation, and discussion of specific topics. Given the importance of climate change and energy conservation, efficient combustion of fossil fuels and the development of sustainable energy systems are emphasized. Environmental protection requires limiting pollutants, including greenhouse gases, emitted from combustion and other energy-intensive systems. Additionally, combustion plays a vital role in process technology and materials science. PECS features articles authored by internationally recognized experts in combustion, flames, fuel science and technology, and sustainable energy solutions. Each volume includes specially commissioned review articles providing orderly and concise surveys and scientific discussions on various aspects of combustion and energy. While not overly lengthy, these articles allow authors to thoroughly and comprehensively explore their subjects. They serve as valuable resources for researchers seeking knowledge beyond their own fields and for students and engineers in government and industrial research seeking comprehensive reviews and practical solutions.
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