Fuzzy logic speed control for the engine of an air-powered vehicle

Qihui Yu; Yan Shi; Maolin Cai; Weiqing Xu

doi:10.1177/1687814016641838

Fuzzy logic speed control for the engine of an air-powered vehicle

Qihui Yu
, Yan Shi^*
, Maolin Cai
, Weiqing Xu

^*Corresponding author for this work

School of Automation Science and Electrical Engineering

Beihang University
Pneumatic and Thermodynamic Energy Storage and Supply Beijing Key Laboratory

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

To improve the condition of air and eliminate exhaust gas pollution, this article proposes a compressed air power system. Instead of an internal combustion engine, the automobile is equipped with a compressed air engine, which transforms the energy of compressed air into mechanical motion energy. A prototype was built, and the compressed air engine was tested on an experimental platform. The output torque and energy efficiency were obtained from experimental results. When the supply pressure was set at 2 MPa and the speed was 420 r min^-1, the output torque, the output power, and the energy efficiency were 56 N m, 1.93 kW, and 25%, respectively. To improve the efficiency of the system, a fuzzy logic speed control strategy is proposed and simulated. The experimental study verified that the theoretical evaluation of the system was reasonable, and this research can be referred to as the design and control of air-powered vehicles.

Original language	English
Pages (from-to)	1-11
Number of pages	11
Journal	Advances in Mechanical Engineering
Volume	8
Issue number	3
DOIs	https://doi.org/10.1177/1687814016641838
State	Published - Mar 2016

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

Compressed air power
automobile
experimental platform
speed control

Access to Document

10.1177/1687814016641838

Cite this

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title = "Fuzzy logic speed control for the engine of an air-powered vehicle",

abstract = "To improve the condition of air and eliminate exhaust gas pollution, this article proposes a compressed air power system. Instead of an internal combustion engine, the automobile is equipped with a compressed air engine, which transforms the energy of compressed air into mechanical motion energy. A prototype was built, and the compressed air engine was tested on an experimental platform. The output torque and energy efficiency were obtained from experimental results. When the supply pressure was set at 2 MPa and the speed was 420 r min-1, the output torque, the output power, and the energy efficiency were 56 N m, 1.93 kW, and 25\%, respectively. To improve the efficiency of the system, a fuzzy logic speed control strategy is proposed and simulated. The experimental study verified that the theoretical evaluation of the system was reasonable, and this research can be referred to as the design and control of air-powered vehicles.",

keywords = "Compressed air power, automobile, experimental platform, speed control",

author = "Qihui Yu and Yan Shi and Maolin Cai and Weiqing Xu",

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AU - Yu, Qihui

AU - Shi, Yan

AU - Cai, Maolin

AU - Xu, Weiqing

N1 - Publisher Copyright: © SAGE Publications Ltd, unless otherwise noted. Manuscript content on this site is licensed under Creative Commons Licenses.

PY - 2016/3

Y1 - 2016/3

N2 - To improve the condition of air and eliminate exhaust gas pollution, this article proposes a compressed air power system. Instead of an internal combustion engine, the automobile is equipped with a compressed air engine, which transforms the energy of compressed air into mechanical motion energy. A prototype was built, and the compressed air engine was tested on an experimental platform. The output torque and energy efficiency were obtained from experimental results. When the supply pressure was set at 2 MPa and the speed was 420 r min-1, the output torque, the output power, and the energy efficiency were 56 N m, 1.93 kW, and 25%, respectively. To improve the efficiency of the system, a fuzzy logic speed control strategy is proposed and simulated. The experimental study verified that the theoretical evaluation of the system was reasonable, and this research can be referred to as the design and control of air-powered vehicles.

AB - To improve the condition of air and eliminate exhaust gas pollution, this article proposes a compressed air power system. Instead of an internal combustion engine, the automobile is equipped with a compressed air engine, which transforms the energy of compressed air into mechanical motion energy. A prototype was built, and the compressed air engine was tested on an experimental platform. The output torque and energy efficiency were obtained from experimental results. When the supply pressure was set at 2 MPa and the speed was 420 r min-1, the output torque, the output power, and the energy efficiency were 56 N m, 1.93 kW, and 25%, respectively. To improve the efficiency of the system, a fuzzy logic speed control strategy is proposed and simulated. The experimental study verified that the theoretical evaluation of the system was reasonable, and this research can be referred to as the design and control of air-powered vehicles.

KW - Compressed air power

KW - automobile

KW - experimental platform

KW - speed control

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DO - 10.1177/1687814016641838

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JO - Advances in Mechanical Engineering

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ER -

Fuzzy logic speed control for the engine of an air-powered vehicle

Abstract

UN SDGs

Keywords

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