Numerical Simulation of a Reactivity Controlled Compression Ignition Engine in order to Investigate the Effects of Adding Water to Low Reactivity Fuel

Iranian Journal of Energy and Environment Pub Date : 2022-01-01 DOI:10.5829/ijee.2022.13.04.07

S. Talesh Amiri, R. Shafaghat, O. Jahanian, G. Sadripour

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Abstract

For decreasing the fuel consumption of internal combustion engines, and also reducing the emissions, investigation of the effective parameters on power, emissions, and the combustion phasing is important. In this study, the influence of adding water to a Reactivity Controlled Compression Ignition (RCCI) engine has been numerically investigated. For this purpose, water with different mass fractions was added to the air-fuel mixture. In order to simulate the engine, AVL Fire software was used. The results show that substituting a portion of gasoline fuel with water, up to 10% mass fraction, raises the combustion chamber pressure. In this condition, the production of hydroxyl free radicals, as one of the characteristics for the start of combustion, occurs earlier. Furthermore, Indicated Mean Effective Pressure (IMEP) remains unchanged. By further increasing the water mass the production of hydroxyl radical decreases, and the high-temperature heat release is delayed; also comparing to when water was not added, average

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为研究低反应性燃料加水的影响，对反应性控制的压缩点火发动机进行了数值模拟

为了降低内燃机的燃油消耗，同时减少排放，研究动力、排放和燃烧相位的有效参数是很重要的。本文研究了加水对反应性控制压缩点火(RCCI)发动机性能的影响。为此，在空气-燃料混合物中加入不同质量分数的水。为了对发动机进行仿真，使用了AVL Fire软件。结果表明，用水代替部分汽油燃料，达到10%的质量分数，可提高燃烧室压力。在这种情况下，羟基自由基的产生，作为燃烧开始的特征之一，发生得更早。此外，指示平均有效压力(IMEP)保持不变。随着水质量的进一步增加，羟基自由基的生成减少，高温放热延迟;也和没有加水的时候比较，平均

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Iranian Journal of Energy and Environment

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