Research on Opposed Piston Two-Stroke Engine for Unmanned Aerial Vehicle by Thermodynamic Simulation

Lei Zhou; Hongxing Zhang; Zhenfeng Zhao; Fujun Zhang

doi:10.4271/2017-01-2408

Research on Opposed Piston Two-Stroke Engine for Unmanned Aerial Vehicle by Thermodynamic Simulation

Lei Zhou^*, Hongxing Zhang, Zhenfeng Zhao, Fujun Zhang

^*Corresponding author for this work

School of Mechanical Engineering

Harbin Institute of Technology

Research output: Contribution to journal › Conference article › peer-review

4 Citations (Scopus)

Abstract

The Opposed Piston Two-Stroke (OPTS) engine has many advantages on power density, fuel tolerance, fuel flexibility and package space. A type of self-balanced opposed-piston folded-crank train two-stroke engine for Unmanned Aerial Vehicle (UAV) was studied in this paper. AVL BOOST was used for the thermodynamic simulation. It was a quasi-steady, filling-and-emptying flow analysis - no intake or exhaust dynamics were simulated. The results were validated against experimental data. The effects of high altitude environment on engine performance have been investigated. Moreover, the matching between the engine and turbocharger was designed and optimized for different altitude levels. The results indicated that, while the altitude is above 6000m, a multi-stage turbocharged engine system need to be considered and optimized for the UAV.

Original language	English
Journal	SAE Technical Papers
Volume	2017-October
DOIs	https://doi.org/10.4271/2017-01-2408
Publication status	Published - 2017
Event	SAE 2017 International Powertrains, Fuels and Lubricants Meeting, FFL 2017 - Beijing, China Duration: 15 Oct 2017 → 19 Oct 2017

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title = "Research on Opposed Piston Two-Stroke Engine for Unmanned Aerial Vehicle by Thermodynamic Simulation",

abstract = "The Opposed Piston Two-Stroke (OPTS) engine has many advantages on power density, fuel tolerance, fuel flexibility and package space. A type of self-balanced opposed-piston folded-crank train two-stroke engine for Unmanned Aerial Vehicle (UAV) was studied in this paper. AVL BOOST was used for the thermodynamic simulation. It was a quasi-steady, filling-and-emptying flow analysis - no intake or exhaust dynamics were simulated. The results were validated against experimental data. The effects of high altitude environment on engine performance have been investigated. Moreover, the matching between the engine and turbocharger was designed and optimized for different altitude levels. The results indicated that, while the altitude is above 6000m, a multi-stage turbocharged engine system need to be considered and optimized for the UAV.",

author = "Lei Zhou and Hongxing Zhang and Zhenfeng Zhao and Fujun Zhang",

note = "Publisher Copyright: Copyright {\textcopyright} 2017 SAE International.; SAE 2017 International Powertrains, Fuels and Lubricants Meeting, FFL 2017 ; Conference date: 15-10-2017 Through 19-10-2017",

year = "2017",

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T1 - Research on Opposed Piston Two-Stroke Engine for Unmanned Aerial Vehicle by Thermodynamic Simulation

AU - Zhou, Lei

AU - Zhang, Hongxing

AU - Zhao, Zhenfeng

AU - Zhang, Fujun

PY - 2017

Y1 - 2017

N2 - The Opposed Piston Two-Stroke (OPTS) engine has many advantages on power density, fuel tolerance, fuel flexibility and package space. A type of self-balanced opposed-piston folded-crank train two-stroke engine for Unmanned Aerial Vehicle (UAV) was studied in this paper. AVL BOOST was used for the thermodynamic simulation. It was a quasi-steady, filling-and-emptying flow analysis - no intake or exhaust dynamics were simulated. The results were validated against experimental data. The effects of high altitude environment on engine performance have been investigated. Moreover, the matching between the engine and turbocharger was designed and optimized for different altitude levels. The results indicated that, while the altitude is above 6000m, a multi-stage turbocharged engine system need to be considered and optimized for the UAV.

AB - The Opposed Piston Two-Stroke (OPTS) engine has many advantages on power density, fuel tolerance, fuel flexibility and package space. A type of self-balanced opposed-piston folded-crank train two-stroke engine for Unmanned Aerial Vehicle (UAV) was studied in this paper. AVL BOOST was used for the thermodynamic simulation. It was a quasi-steady, filling-and-emptying flow analysis - no intake or exhaust dynamics were simulated. The results were validated against experimental data. The effects of high altitude environment on engine performance have been investigated. Moreover, the matching between the engine and turbocharger was designed and optimized for different altitude levels. The results indicated that, while the altitude is above 6000m, a multi-stage turbocharged engine system need to be considered and optimized for the UAV.

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DO - 10.4271/2017-01-2408

M3 - Conference article

AN - SCOPUS:85034448629

SN - 0148-7191

VL - 2017-October

JO - SAE Technical Papers

JF - SAE Technical Papers

T2 - SAE 2017 International Powertrains, Fuels and Lubricants Meeting, FFL 2017

Y2 - 15 October 2017 through 19 October 2017

ER -

Research on Opposed Piston Two-Stroke Engine for Unmanned Aerial Vehicle by Thermodynamic Simulation

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