Climate control system for electric vehicles

Author

Cobb, Douglas A. ; Edwards, Thomas C.

Author_Institution

Solar Car Corp., Melbourne, FL, USA

fYear

1994

Firstpage

37

Lastpage

41

Abstract

Recognizing the underlying motivation in electric car design to conserve energy and the necessity for effective climate control, a technical solution to minimize energy requirements for both air conditioning and heating to extend the range ofan electric vehicle is needed. Currently. available compressor systems are inadequate in efficiency, size and weight. Here, the authors present a solution to this technical problem which optimizes the coefficient of performance of the air conditioning system through a custom-engineered compressor known as the orbital vane compressor, currently being developed. This compressor is a highly efficient anti-friction noncontact sealing rotary vane machine which has fewer moving parts than conventional compressors and operates on a variety of refrigerants, including those that are ozone-safe.

Keywords

air conditioning; automotive electronics; compressors; design engineering; electric propulsion; electric vehicles; energy conservation; space heating; air conditioning; anti-friction noncontact sealing rotary vane machine; climate control system; coefficient of performance; compressor systems; electric car design; electric vehicles; energy requirements; orbital vane compressor; refrigerants; space heaters; Air conditioning; Automotive engineering; Control systems; Cooling; Costs; Electric vehicles; Production systems; Thermal engineering; Thermal factors; Thermal loading;

fLanguage

English

Publisher

ieee

Conference_Titel

Southcon/94. Conference Record

Conference_Location

Orlando, FL, USA

Print_ISBN

0-7803-9988-9

Type

conf

DOI

10.1109/SOUTHC.1994.498072

Filename

498072