NUMERICAL MODELING OF TEMPERATURE PLUME FORMATION OF NON-ISOTHERMAL LIQUID INJECTIONS

ГОРЕНИЕ И ПЛАЗМОХИМИЯ Pub Date : 2022-02-21 DOI:10.18321/cpc482

S. Bolegenova, A. Askarova, Shynar Ospanova, A. Aldiyarova

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Abstract

This paper presents the results of computational experiments to study the formation of a spray and a temperature plume of non-isothermal liquid injections under high turbulence. Numerical modeling of atomization and combustion of liquid fuel injections and the influence of the initial gas temperature in the combustion chamber on these processes has been carried out. The temperature in the combustion chamber varied from 700 K to 1500 K for two types of liquid fuels: octane and dodecane. The distributions of liquid fuel droplets along the radii and temperature at various points in time are constructed. The influence of the initial temperature on the concentration characteristics of various types of fuel is revealed. As a result, it was found that at a pressure of over 80 bar with high turbulence, the gas temperature equal to 900 K was taken as optimal. At this temperature, the chamber is heated to high temperatures and the concentration of the resulting reaction products is the lowest. The obtained results can be applied in the construction of the liquid fuels’ combustion theory and will contribute to a deeper understanding of the complex physical and chemical phenomena that occur in combustion chambers.

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非等温液体注入温度羽流形成的数值模拟

本文介绍了高紊流条件下非等温液体注入射流和温度羽流形成的计算实验结果。本文对喷射液体燃料的雾化和燃烧过程进行了数值模拟，并对燃烧室初始气体温度对这些过程的影响进行了数值模拟。对于辛烷和十二烷这两种液体燃料，燃烧室的温度从700 K到1500 K不等。构造了燃料液滴在不同时间点沿半径和温度的分布。揭示了初始温度对各类燃料浓度特性的影响。结果发现，在压力大于80bar且湍流度高的情况下，以900k的气体温度为最优。在这个温度下，腔室被加热到高温，所得到的反应产物的浓度最低。所得结果可应用于液体燃料燃烧理论的构建，有助于更深入地理解燃烧室中发生的复杂物理和化学现象。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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