A Computational Investigation into the Effects of Piston Bowl Geometry on Fuel-Air Mixing and Performance in a High-Intensified Diesel Engine

机译：活塞碗几何形状对高强度柴油机燃料-空气混合和性能影响的计算研究

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a computational investigation is performed to evaluate the effects of piston bowl geometry on fuel-air mixing and engine performance in a high-intensified diesel engine.Fourteen different shapes of diesel engine piston bowl are selected and simulated by CFD FIRE.The main results suggest that an optimal value exist to maximize indicated power,respectively,of piston bowl diameter,re-entrant angle and bowl bottom radius.Piston bowl diameter and bowl bottom radius are found to have a more significant impact on performance than re-entrant angle.Because variations of piston bowl diameter and bowl bottom radius are found to have a bigger effect on piston bowl geometry,which mainly affect fuel-air mixing process near bowl side-wall and bottom of central convexity,resulting in marked effects on combustion process and performance.This study underlines the need to carefully consider fuel-air mixing process induced by piston bowl geometry.

机译：通过计算研究来评估高强度柴油机中活塞碗几何形状对燃油-空气混合和发动机性能的影响.CFD FIRE选择并模拟了14种不同形状的柴油机活塞碗。主要结果表明：存在一个最佳值以分别最大化活塞碗直径，凹角和凹腔底部半径的指示功率。发现活塞碗直径和凹腔底部半径比凹腔角度对性能的影响更大。活塞碗直径和碗底部半径的变化对活塞碗几何形状有较大影响，这主要影响碗壁侧壁附近和中心凸面底部附近的燃油-空气混合过程，从而对燃烧过程和性能产生显着影响。研究强调需要仔细考虑由活塞碗几何形状引起的燃料-空气混合过程。

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来源
《2013 International conference on materials for renewable energy amp; environment》|2013年|1248-1251|共4页
会议地点 Chengdu(CN)
作者
Dong Hu; Guoxiu Li; Yusong Yu;
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作者单位

School of Mechanical and Electronic Control Engineering, Beijing Jiaotong University Beijing, China;

School of Mechanical and Electronic Control Engineering, Beijing Jiaotong University Beijing, China;

School of Mechanical and Electronic Control Engineering, Beijing Jiaotong University Beijing, China;

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会议组织
原文格式 PDF
正文语种 eng
中图分类 TB346;
关键词
piston bowl geometry; piston bowl diameter; re-entrant angle; bowl bottom radius; fuel-air mixing;

机译：活塞碗几何形状;活塞碗直径;凹角;碗底半径;燃料-空气混合;
入库时间 2022-08-26 14:01:23

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A Computational Investigation into the Effects of Piston Bowl Geometry on Fuel-Air Mixing and Performance in a High-Intensified Diesel Engine

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