An experimental and kinetic modeling study on the ignition property of an alternative gas to liquid jet fuel

IF 5.8 2区 工程技术 Q2 ENERGY & FUELS
Quan-De Wang , Bi-Yao Wang , Qian Yao , Jinhu Liang , Ping Zeng , Jian-Gang Liu , Zu-Xi Xia
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Abstract

Alternative jet fuel from Fischer-Tropsch (FT) synthesis represents an important kind of aviation fuel in the near future. However, the combustion properties of FT jet fuel have not been fully explored yet. Herein, this work reports an experimental and kinetic modeling study on the ignition characteristics of a coal-derived FT jet fuel. To facilitate its usage as a “drop-in” fuel in current aircraft and infrastructure, a blended fuel of the present FT fuel with a traditional RP-3 jet fuel with relatively high aromatic hydrocarbons is also prepared and studied. Specifically, a shock tube facility is employed to measure the ignition delay times (IDTs) of the FT, RP-3, and the blended jet fuels under the combustion conditions, i.e., temperature ranging from 1000–1800 K, pressure at 3 and 10 bar, equivalence ratio at 0.5, 1.0, and 2.0. Two-dimensional gas chromatography (GC × GC) analysis is adopted to determine the chemical compositions of the FT and RP-3 jet fuels, which is then used to aid the development of surrogate models. Most importantly, the contemporary combustion chemical kinetic mechanism via detailed generation, automatic generation, lumping, decoupling and HyChem methods are employed to model the IDTs, and the mechanism reproducibility of these mechanisms are systematically compared. The present work should be valuable to understand the chemical structure effect on alternative jet fuels and also provides important information for the development of different kinds of combustion kinetic mechanisms.
液体喷气燃料替代气体点火特性的实验和动力学模型研究
由费托合成(FT)的替代喷气燃料在不久的将来将成为一种重要的航空燃料。然而,人们对 FT 喷射燃料的燃烧特性尚未进行充分的探索。在此,本研究报告对煤衍生 FT 喷射燃料的点火特性进行了实验和动力学建模研究。为了便于在现有飞机和基础设施中将其用作 "即插即用 "燃料,还制备并研究了一种将现有的煤基碳氢化合物燃料与芳香烃含量相对较高的传统 RP-3 喷射燃料混合的燃料。具体来说,采用冲击管设备来测量 FT、RP-3 和混合喷气燃料在燃烧条件下的点火延迟时间 (IDT),即温度为 1000-1800 K,压力为 3 和 10 bar,当量比为 0.5、1.0 和 2.0。采用二维气相色谱法(GC × GC)分析确定 FT 和 RP-3 喷射燃料的化学成分,然后用于帮助开发代用模型。最重要的是,通过详细生成、自动生成、叠加、解耦和 HyChem 等方法,采用当代燃烧化学动力学机理建立 IDT 模型,并系统地比较了这些机理的机理重现性。本研究对理解替代喷气燃料的化学结构效应具有重要价值,同时也为开发不同类型的燃烧动力学机制提供了重要信息。
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来源期刊
Combustion and Flame
Combustion and Flame 工程技术-工程:化工
CiteScore
9.50
自引率
20.50%
发文量
631
审稿时长
3.8 months
期刊介绍: The mission of the journal is to publish high quality work from experimental, theoretical, and computational investigations on the fundamentals of combustion phenomena and closely allied matters. While submissions in all pertinent areas are welcomed, past and recent focus of the journal has been on: Development and validation of reaction kinetics, reduction of reaction mechanisms and modeling of combustion systems, including: Conventional, alternative and surrogate fuels; Pollutants; Particulate and aerosol formation and abatement; Heterogeneous processes. Experimental, theoretical, and computational studies of laminar and turbulent combustion phenomena, including: Premixed and non-premixed flames; Ignition and extinction phenomena; Flame propagation; Flame structure; Instabilities and swirl; Flame spread; Multi-phase reactants. Advances in diagnostic and computational methods in combustion, including: Measurement and simulation of scalar and vector properties; Novel techniques; State-of-the art applications. Fundamental investigations of combustion technologies and systems, including: Internal combustion engines; Gas turbines; Small- and large-scale stationary combustion and power generation; Catalytic combustion; Combustion synthesis; Combustion under extreme conditions; New concepts.
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