THE DESIGN AND VALIDATION OF ENGINE INTAKE MANIFOLD USING PHYSICAL EXPERIMENT AND CFD

GURU DEEP SINGH; KESHAV KAUSHIK; PRADEEP KUMAR JAIN

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THE DESIGN AND VALIDATION OF ENGINE INTAKE MANIFOLD USING PHYSICAL EXPERIMENT AND CFD

机译：使用物理实验和CFD的发动机进气歧管的设计与验证

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Race-car engineers aim to design an intake manifold which can maintain both low-end and top-end power without compromising the responsiveness of the engine throughout the power band. A major obstacle in achieving this goal is the rule requirement by FSAE for the mandatory presence of air intake restrictor which limits top-end power. In this paper, the selection criteria for design parameters such as runner length, plenum volume and intake geometry have been discussed. The effect of runner length and plenum volume on throttle response and manifold pressure has been studied through a physical exp. on a prototype variable geometry intake manifold. CFD simulations have been performed on ANSYS CFX to optimize the geometry for venturi and plenum. The geometry for which there was minimum pressure loss and maximum mass flow rate was chosen in the final design. The adopted approach was validated by conducting the same exp. on the designed intake manifold.

机译：赛车工程师旨在设计一种进气歧管，其可以在不影响整个动力带内发动机的响应性的情况下保持低端和顶端电源。实现这一目标的主要障碍是FSAE用于限制顶端功率的空气进气门的强制性的规则要求。在本文中，已经讨论了设计参数的选择标准，例如转轮长度，增压室积和进气几何体。通过物理exp，研究了转轮长度和增压室体积对节流响应和歧管压力的影响。在原型变量几何进气歧管上。已经在ANSYS CFX上执行了CFD仿真，以优化Venturi和Bonum的几何形状。在最终设计中选择了最小压力损失和最大质量流量的几何形状。采用的方法通过进行同一exp来验证。在设计的进气歧管上。

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来源
《International journal of automobile engineering research and development》 |2019年第2期|共8页
作者
GURU DEEP SINGH; KESHAV KAUSHIK; PRADEEP KUMAR JAIN;
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作者单位

Department of Mechanical Engineering Delhi Technological University;

Department of Mechanical Engineering Delhi Technological University;

Department of Mechanical Engineering Delhi Technological University;

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原文格式 PDF
正文语种 eng
中图分类汽车工程;
关键词
Air intake manifold; CFD; FSAE; Engine; Converging- diverging nozzle amp; variable length intake manifold;

机译：进气歧管;CFD;FSAE;引擎;融合 - 分歧喷嘴＆amp;可变长度进气歧管;

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1. THE DESIGN AND VALIDATION OF ENGINE INTAKE MANIFOLD USING PHYSICAL EXPERIMENT AND CFD [J] . GURU DEEP SINGH, KESHAV KAUSHIK, PRADEEP KUMAR JAIN International journal of automobile engineering research and development . 2019,第2期

机译：使用物理实验和CFD的发动机进气歧管的设计与验证
2. CFD and Structural Analysis of the Intake Manifold Flap of an Internal Combustion Engine [J] . TUTUNEA Dragos, OPRICA Alexandru, NICU Ana-Maria, Applied Mechanics and Materials . 2018,第期

机译：内燃机进气歧管瓣的CFD和结构分析
3. Robust design approach for intake manifold of the 1 litre turbo charger intercooler diesel engines [J] . J.Hemanandh, S.Ganesan, R. Devaraj, International journal of ambient energy . 2020,第8a14期

机译：1升涡轮机Charger中间冷却器柴油机的鲁棒设计方法
4. Modifying an Intake Manifold to Improve Cylinder-to-Cylinder EGR Distribution in a DI Diesel Engine Using Combined CFD and Engine Experiments [C] . Robert M. Siewert, Roger B. Krieger, Mark S. Huebler, SAE International Fuels and Lubricants Meeting and Exhibition . 2002

机译：使用组合的CFD和发动机实验改进进气歧管以改善DI柴油发动机中的圆柱缸EGR分布
5. Design and CFD analysis of the intake manifold for the Honda CBR250RR engine. [D] . Seshadri, Subhash. 2015

机译：本田CBR250RR发动机进气歧管的设计和CFD分析。
6. An Improved FFR Design with a Ventilation Fan: CFD Simulation and Validation [O] . Xiaotie Zhang, Hui Li, Shengnan Shen, -1

机译：具有通风风扇的改进FFR设计：CFD仿真和验证
7. Analysis of Multicylinder Petrol Engine Intake Manifold Flow using CFD [O] . Sasikumar. A 2017

机译：使用CFD分析多缸汽油发动机进气流动流动

THE DESIGN AND VALIDATION OF ENGINE INTAKE MANIFOLD USING PHYSICAL EXPERIMENT AND CFD

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