Control of an Ultrahigh-Speed Centrifugal Compressor for the Air Management of Fuel Cell Systems

Author

Dongdong Zhao ; Blunier, Benjamin ; Fei Gao ; Manfeng Dou ; Miraoui, Abdellatif

Author_Institution

Inst. of REPM Electr. Machines & Control Technol., Northwestern Polytech. Univ., Xi´an, China

Volume

50

Issue

3

fYear

2014

fDate

May-June 2014

Firstpage

2225

Lastpage

2234

Abstract

This paper proposes a control technology of an ultrahigh-speed centrifugal compressor for the air management of proton exchange membrane fuel cells for automotive applications. The mathematical model of the air management system (AMS) is experimentally validated. The implementation of a fast butterfly valve with a proportional-integral controller overcomes the difficulty of pressure ratio control, to make the system work on the optimal operating points. The application of a reference limiter restricts the trajectory of the operating points in the right region of the surge line to ensure the safety of the compressor. Experimental results show the goodness of the reference tracking property, in terms of mass flow and pressure. Meanwhile, the surge phenomenon is prevented by the reference limiter.

Keywords

PI control; angular velocity control; automobiles; pressure control; proton exchange membrane fuel cells; AMS; PEMFC; PI controller; air management system; automotive applications; mass flow; optimal operating; pressure ratio control; proportional-integral controller; proton exchange membrane fuel cells; reference limiter; reference tracking property; surge line; ultrahigh-speed centrifugal compressor; Automotive applications; Couplings; Fuel cells; Manifolds; Mathematical model; Surges; Valves; Automotive applications; compressors; fuel cells; surge protection; ultra high speed; ultrahigh speed;

fLanguage

English

Journal_Title

Industry Applications, IEEE Transactions on

Publisher

ieee

ISSN

0093-9994

Type

jour

DOI

10.1109/TIA.2013.2282838

Filename

6605633