模拟正庚烷低温氧化和自燃现象的制表化学工具的开发和参数评价

IF 1.5 Q3 ENGINEERING, CHEMICAL
G. Vourliotakis, D. Kolaitis, M. Founti
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引用次数: 4

摘要

对预燃化学现象的精确建模需要对各自的低温氧化反应进行详细的描述。由于需要模拟在“稳定”冷火焰状态下运行的柴油喷雾蒸发装置,因此制定并评估了“制表化学”工具。该工具是通过使用完全搅拌反应器假设进行大量动力学模拟而构建的。正庚烷被用作柴油的替代燃料,并利用了一个详细的正庚烷机理。三个独立的参数(温度,燃料浓度和停留时间)被使用,跨越低温氧化和自燃制度。热释放率、燃料消耗和稳定或中间物质产生的模拟结果用于评估独立参数对系统热化学行为的影响。结果提供了在CFD代码中评估工具性能所需的物理和化学信息。多维热化学行为“图”被创建,证明冷火焰活动是有利的燃料丰富的条件下,冷火焰温度边界延长随着燃料浓度或停留时间的增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development and Parametric Evaluation of a Tabulated Chemistry Tool for the Simulation of n-Heptane Low-Temperature Oxidation and Autoignition Phenomena
Accurate modelling of preignition chemical phenomena requires a detailed description of the respective low-temperature oxidative reactions. Motivated by the need to simulate a diesel oil spray evaporation device operating in the “stabilized” cool flame regime, a “tabulated chemistry” tool is formulated and evaluated. The tool is constructed by performing a large number of kinetic simulations, using the perfectly stirred reactor assumption. n-Heptane is used as a surrogate fuel for diesel oil and a detailed n-heptane mechanism is utilized. Three independent parameters (temperature, fuel concentration, and residence time) are used, spanning both the low-temperature oxidation and the autoignition regimes. Simulation results for heat release rates, fuel consumption and stable or intermediate species production are used to assess the impact of the independent parameters on the system’s thermochemical behaviour. Results provide the physical and chemical insight needed to evaluate the performance of the tool when incorporated in a CFD code. Multidimensional thermochemical behaviour “maps” are created, demonstrating that cool flame activity is favoured under fuel-rich conditions and that cool flame temperature boundaries are extended with increasing fuel concentration or residence time.
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来源期刊
Journal of Combustion
Journal of Combustion ENGINEERING, CHEMICAL-
CiteScore
2.00
自引率
28.60%
发文量
8
审稿时长
20 weeks
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