Modeling and simulation of aircraft electrical system based on Dymola

Run Dong; Qiaoying Zhang; Xiaohua Wu; Weilin Li; Ting Wang; Shuxian Li; Xiaoli Duan; Yang Yang

Modeling and simulation of aircraft electrical system based on Dymola

Run Dong, Qiaoying Zhang, Xiaohua Wu, Weilin Li, Ting Wang, Shuxian Li, Xiaoli Duan, Yang Yang

School of Automation

Research output: Contribution to conference › Paper › peer-review

Abstract

More-electric aircraft is the inevitable developing trend of future. The electrical system is coupled of different areas subsystems, such as mechanical; electrical, and control etc. Multidomain simulation technology meets the demand of electrical system of the multi-domain integrated modeling. This paper has completed the modeling of multi-electric aircraft electrical system based on Dymola and FMI generalization interface protocol. According to the overall system design requirements, a cosimulation method based on FMI standard protocol interfaces is proposed, which is used to model and simulate typical constant power load. It is verified that the electrical system can be automatically distributed and reorganized under different working conditions. The high reliability design requirement of multi-electric aircraft is guaranteed. This provides important support for the research and design of multi-electric aircraft.

Original language	English
Pages	776-782
Number of pages	7
State	Published - 2018
Event	CSAA/IET International Conference on Aircraft Utility Systems, AUS 2018 - Guiyang, China Duration: 19 Jun 2018 → 22 Jun 2018

Conference

Conference	CSAA/IET International Conference on Aircraft Utility Systems, AUS 2018
Country/Territory	China
City	Guiyang
Period	19/06/18 → 22/06/18

Keywords

Dymola
FMI
Multi-domain modeling
Multi-electric aircraft

Cite this

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title = "Modeling and simulation of aircraft electrical system based on Dymola",

abstract = "More-electric aircraft is the inevitable developing trend of future. The electrical system is coupled of different areas subsystems, such as mechanical; electrical, and control etc. Multidomain simulation technology meets the demand of electrical system of the multi-domain integrated modeling. This paper has completed the modeling of multi-electric aircraft electrical system based on Dymola and FMI generalization interface protocol. According to the overall system design requirements, a cosimulation method based on FMI standard protocol interfaces is proposed, which is used to model and simulate typical constant power load. It is verified that the electrical system can be automatically distributed and reorganized under different working conditions. The high reliability design requirement of multi-electric aircraft is guaranteed. This provides important support for the research and design of multi-electric aircraft.",

keywords = "Dymola, FMI, Multi-domain modeling, Multi-electric aircraft",

author = "Run Dong and Qiaoying Zhang and Xiaohua Wu and Weilin Li and Ting Wang and Shuxian Li and Xiaoli Duan and Yang Yang",

note = "Publisher Copyright: {\textcopyright} 2018 IET Conference Publications. All rights reserved.; CSAA/IET International Conference on Aircraft Utility Systems, AUS 2018 ; Conference date: 19-06-2018 Through 22-06-2018",

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pages = "776--782",

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TY - CONF

T1 - Modeling and simulation of aircraft electrical system based on Dymola

AU - Dong, Run

AU - Zhang, Qiaoying

AU - Wu, Xiaohua

AU - Li, Weilin

AU - Wang, Ting

AU - Li, Shuxian

AU - Duan, Xiaoli

AU - Yang, Yang

PY - 2018

Y1 - 2018

N2 - More-electric aircraft is the inevitable developing trend of future. The electrical system is coupled of different areas subsystems, such as mechanical; electrical, and control etc. Multidomain simulation technology meets the demand of electrical system of the multi-domain integrated modeling. This paper has completed the modeling of multi-electric aircraft electrical system based on Dymola and FMI generalization interface protocol. According to the overall system design requirements, a cosimulation method based on FMI standard protocol interfaces is proposed, which is used to model and simulate typical constant power load. It is verified that the electrical system can be automatically distributed and reorganized under different working conditions. The high reliability design requirement of multi-electric aircraft is guaranteed. This provides important support for the research and design of multi-electric aircraft.

AB - More-electric aircraft is the inevitable developing trend of future. The electrical system is coupled of different areas subsystems, such as mechanical; electrical, and control etc. Multidomain simulation technology meets the demand of electrical system of the multi-domain integrated modeling. This paper has completed the modeling of multi-electric aircraft electrical system based on Dymola and FMI generalization interface protocol. According to the overall system design requirements, a cosimulation method based on FMI standard protocol interfaces is proposed, which is used to model and simulate typical constant power load. It is verified that the electrical system can be automatically distributed and reorganized under different working conditions. The high reliability design requirement of multi-electric aircraft is guaranteed. This provides important support for the research and design of multi-electric aircraft.

KW - Dymola

KW - FMI

KW - Multi-domain modeling

KW - Multi-electric aircraft

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M3 - 论文

AN - SCOPUS:85054666880

SP - 776

EP - 782

T2 - CSAA/IET International Conference on Aircraft Utility Systems, AUS 2018

Y2 - 19 June 2018 through 22 June 2018

ER -

Modeling and simulation of aircraft electrical system based on Dymola

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