Exploring pyrolysis of the aromatics in shale oil by experimental study and kinetic modelling

IF 9 1区工程技术 Q1 ENERGY & FUELS Energy Pub Date : 2023-09-15 DOI:10.1016/j.energy.2023.127998

Yanwen Wang, Xiangxin Han, Xiumin Jiang

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Abstract

In this work, the main aromatics in shale oil from retorting Huadian oil shale and the functional groups during the pyrolysis of shale oil were studied experimentally. The aromatics in shale oil are mainly monocyclic aromatic hydrocarbons (MAHs). Alkylbenzenes are the most abundant in MAHs of shale oil. Then, nonylbenzene was selected as representative to explore the pyrolysis mechanism through theoretical calculation and kinetic modelling due to the activity of its alkyl side-chain and the abundance in alkylbenzenes of shale oil. The bond dissociation energies (BDE) of the C–C and C–H bonds were calculated using the CBS-QB3 quantum chemistry method to study its thermostability. Finally, the detailed pyrolysis kinetic mechanism of nonylbenzene was written by the GRI-Mech3.0 mechanism. A large number of the kinetic parameters were computed by the group-additivity method. In addition, the kinetic parameters of these two non-negligible retroene reactions of nonylbenzene were calculated by the CBS-QB3 method to develop the kinetic model. In summary, the pyrolysis mechanism can improve the understanding of shale oil reactivity due to that it could be chosen as a model compound for novel surrogate shale oil model and has a significant guidance on the development of the kinetic model of alkylbenzenes.

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通过实验研究和动力学模拟探讨页岩油中芳烃的热解过程

对华甸油页岩重整后页岩油中的主要芳烃及其热解过程中的官能团进行了实验研究。页岩油中的芳烃主要为单环芳烃(MAHs)。在页岩油的MAHs中，烷基苯含量最高。然后，以壬基苯为代表，利用其烷基侧链的活性和页岩油中烷基苯的丰度，通过理论计算和动力学建模来探索其热解机理。采用CBS-QB3量子化学方法计算了C-C和C-H键的键解离能(BDE)，研究了其热稳定性。最后，用GRI-Mech3.0机理对壬基苯的热解动力学机理进行了详细的描述。用群可加法计算了大量的动力学参数。此外，采用CBS-QB3方法计算了壬基苯的这两个不可忽略的逆转录反应的动力学参数，建立了动力学模型。综上所述，该热解机理可以提高对页岩油反应性的认识，可以作为新型替代页岩油模型的模型化合物，对烷基苯动力学模型的建立具有重要的指导意义。

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来源期刊

Energy 工程技术-能源与燃料

CiteScore

15.30

自引率

14.40%

发文量

审稿时长

14.2 weeks

期刊介绍： Energy is a multidisciplinary, international journal that publishes research and analysis in the field of energy engineering. Our aim is to become a leading peer-reviewed platform and a trusted source of information for energy-related topics. The journal covers a range of areas including mechanical engineering, thermal sciences, and energy analysis. We are particularly interested in research on energy modelling, prediction, integrated energy systems, planning, and management. Additionally, we welcome papers on energy conservation, efficiency, biomass and bioenergy, renewable energy, electricity supply and demand, energy storage, buildings, and economic and policy issues. These topics should align with our broader multidisciplinary focus.