Fundamental study on a swing rotary expander for a smallsized regenerative device using the engine waste heat of a vehicle

Name: Otaka, Toshio

Organization : Kokushikan University

Email : otaka@kokushikan.ac.jp

Name: Abe, Makoto

Organization : ISUZU Advanced Engineering Center, Ltd.

LCSH: Waste heat

LCSH: Expanders, Gas

LCSH: Rotary combustion engines

LCSH: Energy conservation

Abstract: The problem of the greenhouse effect from carbon dioxide could be improved by recognizing the importance of efficient use of energy in terms of high-energy conservation measures. Accordingly, attention is drawn to the waste heat regeneration system, which is driven by low-temperature waste heat, such as engine waste heat or radiator exhaust heat. The trilateral cycle as a regeneration system using lowtemperature waste heat with high efficiency has undergone limited studies. The authors have designed and developed a 1 kW class swing rotary expander (hereafter referred to as the "EXI01") for the regeneration system use. The EXI01 does not have an intake valve. The EXI01 is installed on a flange case for the convenience of experiments and driven by a waste heat source of 363 K temperature using HFC134a as a working fluid. The EXI01 was evaluated using a dedicated evaluation device. This paper presents some thermodynamic characteristics shown by shaft power analysis and experiments on a swing rotary expander using dry air as working fluid. These results reveal the usefulness of a small-size regenerative device using the engine waste heat of a vehicle. Furthermore, these results demonstrate that the system containing a swing rotary expander is a promising candidate for a new waste heat regeneration system

King Mongkut's University of Technology North Bangkok. Central Library

Address: BANGKOK

Email: library@kmutnb.ac.th

Created: 2022

Modified: 2023-05-25

Issued: 2023-05-25

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BibliograpyCitation : In King Mongkut's University of Technology Thonburi. Faculty of Engineering. Department of Mechanical Engineering. The 12th TSME International Conference on Mechanical Engineering (TSME-ICoME12 2022) (pp.415-421). Bangkok : King Mongkut's University of Technology Thonburi

eng

©copyrights King Mongkut's University of Technology North Bangkok

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