INVESTIGATION OF THE INFLUENCE OF LIQUID FUEL INJECTION RATE ON THE COMBUSTION PROCESS USING KIVA–II SOFTWARE

Q3 Engineering
I.E. Berezovskaya
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引用次数: 0

Abstract

In this work, the ignition of liquid fuel was studied at various rates of fuel injection into the combustion chamber. The studied processes are described by the following equations: continuity, momentum, energy, k-ɛ turbulence model and others. The computational experiment was carried out using the KIVA-II software. The numerical method is efficient and takes into account various factors such as multistage chemical chain reactions, transfer of momentum, heat and mass by convection, radiation, turbulence, etc. In order to select the optimal parameters of the organization of these processes influence of the heptane injection rate into the combustion chamber on the process of combustion and self-ignition of heptane was studied. The injection rate of heptane varied from 160 m/s to 400 m/s an interval of 30 m/s. The size and temperature distributions of heptane droplets before evaporation, the concentration fields of carbon dioxide, and the temperature fields in the combustion chamber depending on the rate of fuel injection through the injector into the combustion chamber were obtained. The optimal range of heptane injection speed was determined, which is 250 m/s - 280 m/s, in order to increase the efficiency of the combustion chamber and reduce the negative impact on the environment.
利用kiva-ii软件研究液体燃料喷射速率对燃烧过程的影响
在这项工作中,研究了液体燃料在不同喷油速率下的燃烧。研究过程用连续性、动量、能量、k- ε湍流模型等方程来描述。计算实验采用KIVA-II软件进行。数值方法是有效的,并且考虑了多种因素,如多级化学链式反应、动量、热量和质量的对流、辐射、湍流等传递。为了选择这些过程的最佳组织参数,研究了正庚烷喷入燃烧室的速率对正庚烷燃烧和自燃过程的影响。庚烷的注入速度为160 ~ 400 m/s,注入间隔为30 m/s。得到了蒸发前庚烷液滴的大小和温度分布、二氧化碳浓度场以及燃烧室温度场随喷油器喷油速率的变化。为了提高燃烧室效率,减少对环境的负面影响,确定了庚烷喷射速度的最佳范围为250 ~ 280 m/s。
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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CiteScore
1.10
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0.00%
发文量
15
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