3-Dimentional Numerical Transient Simulation and Research on Flow Distribution Unevenness in Intake Manifold for a Turbocharged Diesel Engine-Reference-Cited by-同舟云学术

3-Dimentional Numerical Transient Simulation and Research on Flow Distribution Unevenness in Intake Manifold for a Turbocharged Diesel Engine

Published:2024-04-09 Issue: Volume: Page:
ISSN:0148-7191
Container-title:SAE Technical Paper Series
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Author:

Yang Shuai¹,Yan Kai¹,Liu Haifeng¹,Fu Yahao¹,Liu Hairan²,Li Tong³

Affiliation:

1. Tongji University

2. STIEI

3. Columbia University

Abstract

<div class="section abstract"><div class="htmlview paragraph">The design of engine intake system affects the intake uniformity of each cylinder of the engine, which in turn has an important impact on the engine performance, the uniform distribution of EGR exhaust gas and the combustion process of each cylinder. In this paper, the constant-pressure supercharged diesel engine intake pipe is used as the research model to study the intake air flow unevenness of the intake pipe of the supercharged diesel engine. The pressure boundary condition at the outlet of each intake manifold is set as the dynamic pressure change condition. The three-dimensional numerical simulation of the transient flow process in the intake manifold of diesel engine is simulated and analyzed by using numerical method, and the change of the Intake air flow field in the intake manifold under different working conditions during the intake overlapping period is discussed. The dynamic effects of diesel engine intake boost pressure, rotated speed, and intake pipe geometrical characteristic on the air mass flow at the outlet of each intake manifold, intake air distribution quality, and maximum intake unevenness are analyzed. According to numerical calculation result, it was obtained that the main reasons affecting the intake unevenness of each cylinder of diesel engine and the methods to reduce the intake unevenness: The lower the intake boost pressure of diesel engine, the greater the maximum intake unevenness. The greater the intake overlapping angle, the greater the maximum intake unevenness. When the diesel engine was working at low rotated speed, the maximum intake unevenness was higher than that at high rotated speed due to the long intake overlapping time. By increasing the boost pressure of the intake air, the unevenness intake air distribution of the diesel engine during the intake process could be reduced.</div></div>

Publisher

SAE International

Reference12 articles.

1. Yang , S. , Zhou , Y. , Zou , R.L. et al. 1-Dimensional Simulation on Influence of EGR on Diesel Engine Operating Process Transactions of the Chinese Society for Agricultural Machinery 39 11 2008 1 5

2. Qiu , Z.D. , Shen , J. , and Feng , G.D. Effects of Inlet Manifold Dimensions on Volumetric Efficiency of Engines Journal of Guangxi University of Technology 11 2 2000 41 44

3. Du , W. , Liu , F.S. , and Li , Z.J. Experimental Study on Fluctuation of Intake Pressure in Turbocharged Diesel Engine Chinese Internal Combustion Engine Engineering 29 6 2008 37 40

4. Ma , Y. , Nan , C.Y. , and Ou , L.J. Optimization Analysis of Intake Manifold Structure of Vehicle Diesel Engine Internal Combustion Engines 1 1 2019 40 46

5. Yi , Z.F. , Zhen , L. , Tian , Y.W. et al. Effect of Supercharging on the Intake Flow Characteristics of a Swirl-Supported Engine SAE Technical Paper 2020-01-0794 2020 https://doi.org/10.4271/2020-01-0794