Numerical Simulation and Optimization for Combustion of an Opposed Piston Two-Stroke Engine for Unmanned Aerial Vehicle (UAV)

Lei Zhou; Hao Li; Zeyu Chen; Zhenfeng Zhao; Fujun Zhang

doi:10.4271/2020-01-0782

Numerical Simulation and Optimization for Combustion of an Opposed Piston Two-Stroke Engine for Unmanned Aerial Vehicle (UAV)

Lei Zhou^*, Hao Li, Zeyu Chen, Zhenfeng Zhao, Fujun Zhang

^*此作品的通讯作者

机械与车辆学院

Harbin Institute of Technology

科研成果: 期刊稿件 › 会议文章 › 同行评审

7 引用（Scopus）

摘要

An opposed piston two-stroke engine is more suitable for use in an unmanned aerial vehicle because of its small size, excellent self-balancing, stable operation, and low noise. Consequently, in this study, based on experimental data for a prototype opposed piston two-stroke engine, numerical simulation models were established using GT-POWER for 1D simulation and AVL-FIRE for 3D CFD simulation. The mesh grid and solver parameters for the numerical model of the CFD simulation were determined to guarantee the accuracy of the numerical simulation, before studying and optimizing the ventilation efficiency of the engine with different dip angles. Furthermore, the fuel spray and combustion were analyzed and optimized in details.

源语言	英语
期刊	SAE Technical Papers
卷	2020-April
期	April
DOI	https://doi.org/10.4271/2020-01-0782
出版状态	已出版 - 14 4月 2020
活动	SAE 2020 World Congress Experience, WCX 2020 - Detroit, 美国期限: 21 4月 2020 → 23 4月 2020

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Zhou, L., Li, H., Chen, Z., Zhao, Z., & Zhang, F. (2020). Numerical Simulation and Optimization for Combustion of an Opposed Piston Two-Stroke Engine for Unmanned Aerial Vehicle (UAV). SAE Technical Papers, 2020-April(April). https://doi.org/10.4271/2020-01-0782

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AU - Zhang, Fujun

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N2 - An opposed piston two-stroke engine is more suitable for use in an unmanned aerial vehicle because of its small size, excellent self-balancing, stable operation, and low noise. Consequently, in this study, based on experimental data for a prototype opposed piston two-stroke engine, numerical simulation models were established using GT-POWER for 1D simulation and AVL-FIRE for 3D CFD simulation. The mesh grid and solver parameters for the numerical model of the CFD simulation were determined to guarantee the accuracy of the numerical simulation, before studying and optimizing the ventilation efficiency of the engine with different dip angles. Furthermore, the fuel spray and combustion were analyzed and optimized in details.

AB - An opposed piston two-stroke engine is more suitable for use in an unmanned aerial vehicle because of its small size, excellent self-balancing, stable operation, and low noise. Consequently, in this study, based on experimental data for a prototype opposed piston two-stroke engine, numerical simulation models were established using GT-POWER for 1D simulation and AVL-FIRE for 3D CFD simulation. The mesh grid and solver parameters for the numerical model of the CFD simulation were determined to guarantee the accuracy of the numerical simulation, before studying and optimizing the ventilation efficiency of the engine with different dip angles. Furthermore, the fuel spray and combustion were analyzed and optimized in details.

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Numerical Simulation and Optimization for Combustion of an Opposed Piston Two-Stroke Engine for Unmanned Aerial Vehicle (UAV)

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