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《化学科学与工程前沿(英文)》 >> 2024年 第18卷 第1期 doi: 10.1007/s11705-023-2375-z

Effect of cis/trans molecular structures on pyrolysis performance and heat sink of decalin isomers

1. Key Laboratory for Green Chemical Technology of the Ministry of Education, School of Chemical Engineering and Technology, Tianjin University, Tianjin 300072, China 2. Collaborative Innovative Center of Chemical Science and Engineering (Tianjin), Tianjin 300072, China 3. Haihe Laboratory of Sustainable Chemical Transformations, Tianjin 300192, China 4. Zhejiang Institute of Tianjin University, Ningbo 315201, China

收稿日期: 2023-07-26 修回日期: 2023-10-11 录用日期: 2023-12-27 发布日期: 2024-01-15

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摘要

Decalin is considered as an important compound of high-energy-density endothermic fuel, which is an ideal on-board coolant for thermal management of advanced aircraft. However, decalin contains two isomers with a tunable composition, and their effects on the pyrolysis performance, such as the heat sink and coking tendency have not been demonstrated. Herein, we investigated the pyrolysis of decalin isomers, i.e., cis-decalin, trans-decalin and their mixtures (denoted as mix-decalin), in order to clarify the effects of the cis-/trans-structures on the pyrolysis performance of decalin fuels. The pyrolysis results confirmed that conversion of the tested fuels (600–725 °C, 4 MPa) decreased in the order cis-decalin > mix-decalin > trans-decalin. Detailed analyses of the pyrolysis products were used to compare the product distributions from cis-decalin, mix-decalin and trans-decalin, and the yields of some typical components (such as cyclohexene, 1-methylcyclohexene, benzene and toluene) showed significant differences, which could be ascribed to deeper cracking of cis-decalin. Additionally, the heat sinks and coking tendencies of the decalins decreased in the order cis-decalin > mix-decalin > trans-decalin. This work demonstrates the relationship between the cis/trans structures and the pyrolysis performance of decalin, which provides a better understanding of the structure-activity relationships of endothermic hydrocarbon fuels.

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