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eArticleIt is difficult to fabricate and maintain moving parts of expander at cryogenic temperature. This paper describes numerical analysis and experimental investigation on a cryogenic reciprocating expander without moving piston. An intake valve which take...
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RISS 인기검색어
https://www.riss.kr/link?id=A105931762
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2018
-
작성언어
English
- 주제어
-
등재정보
KCI등재,SCOPUS,ESCI
-
자료형태
학술저널
- 발행기관 URL
-
수록면
21-27(7쪽)
-
KCI 피인용횟수
0
- DOI식별코드
- 제공처
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
It is difficult to fabricate and maintain moving parts of expander at cryogenic temperature. This paper describes numerical analysis and experimental investigation on a cryogenic reciprocating expander without moving piston. An intake valve which takes high-pressure gas, and an exhaust valve which discharges low-pressure gas, are connected to a tube. The inside pressure of the tube is pulsated for work production. This geometric configuration is similar to that of pulse tube refrigerator but without regenerator. An orifice valve and a reservoir are installed to control the phase of the mass flow and the pressure. At the warm end, a heat exchanger rejects the heat which is converted from the produced work of the expanded gas. For the numerical analysis, mass conservation, energy conservation, and local mass function for valves are used as the governing equations. Before performing cryogenic experiments, we carried out the expander test at room temperature and compared the performance results with the numerical results. For cryogenic experiments, the gas is pre-cooled by liquid nitrogen, and then it enters the pulse tube expander. The experiments are controlled by the opening of the orifice valve. Numerical analysis also found the expander conditions that optimize the expander performance by changing the intake pressure and valve timing as well as the opening of the orifice valve. This paper discusses the experimental data and the numerical analysis results to understand the fundamental behavior of such a newly developed non-mechanical expander and elucidate its potential feature for cryogenic application.
참고문헌 (Reference)
1 J. Yuan, "Thermodynamic analysis of active valve pulse tube refrigerators" 39 : 283-292, 1999
2 Y. Kim, "Study on the layered active magnetic regenerative refrigerator with multi-magnetic refrigerant" KAIST 2012
3 P. Incopera, "Principles of heat and mass transfer" Wiley 2013
4 K. Wang, "Modeling of pulse tube refrigerators with inertance tube and mass-spring feedback mechanism" 171 : 172-183, 2016
5 A. Cengel, "Fluid mechanics, Fundamentals and Application" McGrawHill 2006
6 C. L. Hannon, "Floating piston expander development for a small-scale Collins type 10 K cryocooler for space applications" 710 : 1650-1660, 2004
7 R. Radebaugh, "Development of the pulse tube refrigerator as an efficient and reliable cryocooler" 96 : 2000
8 Jeongmin Cha, "Development of cryogenic free-piston reciprocating expander utilizing phase controller" 한국초전도.저온공학회 18 (18): 42-47, 2016
9 J. Cha, "Development of cryogenic free-piston reciprocating expander utilizing phase controller" KAIST 2016
10 S. Zhu, "Active-buffer pulse-tube refrigerator" 291-294, 1997
1 J. Yuan, "Thermodynamic analysis of active valve pulse tube refrigerators" 39 : 283-292, 1999
2 Y. Kim, "Study on the layered active magnetic regenerative refrigerator with multi-magnetic refrigerant" KAIST 2012
3 P. Incopera, "Principles of heat and mass transfer" Wiley 2013
4 K. Wang, "Modeling of pulse tube refrigerators with inertance tube and mass-spring feedback mechanism" 171 : 172-183, 2016
5 A. Cengel, "Fluid mechanics, Fundamentals and Application" McGrawHill 2006
6 C. L. Hannon, "Floating piston expander development for a small-scale Collins type 10 K cryocooler for space applications" 710 : 1650-1660, 2004
7 R. Radebaugh, "Development of the pulse tube refrigerator as an efficient and reliable cryocooler" 96 : 2000
8 Jeongmin Cha, "Development of cryogenic free-piston reciprocating expander utilizing phase controller" 한국초전도.저온공학회 18 (18): 42-47, 2016
9 J. Cha, "Development of cryogenic free-piston reciprocating expander utilizing phase controller" KAIST 2016
10 S. Zhu, "Active-buffer pulse-tube refrigerator" 291-294, 1997
11 Z. Gan, "A single-stage GM-type pulse tube cryocooler operating at 10.6 K" 49 : 198-201, 2009
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분석정보
인용정보 인용지수 설명보기
학술지 이력
| 연월일 | 이력구분 | 이력상세 | 등재구분 |
|---|---|---|---|
| 2023 | 평가예정 | 해외DB학술지평가 신청대상 (해외등재 학술지 평가) | |
| 2021-06-23 | 학회명변경 | 한글명 : 한국초전도.저온공학회 -> 한국초전도저온학회영문명 : 미등록 -> The Korean Society of Superconductivity and Cryogenics (KSSC) |  |
| 2020-01-01 | 평가 | 등재학술지 유지 (해외등재 학술지 평가) | |
| 2017-08-01 | 평가 | SCOPUS 등재 (기타) | |
| 2016-01-01 | 평가 | 등재학술지 유지 (계속평가) | |
| 2013-03-26 | 학술지명변경 | 한글명 : 한국초전도.저온공학회논문지 -> 한국초전도.저온논문지외국어명 : Superconductivity and Cryogenics -> Progress in Superconductivity and Cryogenics | |
| 2013-03-01 | 평가 | 등재학술지 유지 (기타) | |
| 2011-01-01 | 평가 | 등재학술지 유지 (등재유지) | |
| 2009-04-06 | 학술지명변경 | 외국어명 : Journal of the Koera Institute of Applied Superconductivity and Cryogenics -> Superconductivity and Cryogenics | |
| 2008-01-01 | 평가 | 등재학술지 선정 (등재후보2차) | |
| 2007-01-01 | 평가 | 등재후보 1차 PASS (등재후보1차) |  |
| 2005-01-01 | 평가 | 등재후보학술지 선정 (신규평가) | |
학술지 인용정보
| 기준연도 | WOS-KCI 통합IF(2년) | KCIF(2년) | KCIF(3년) |
|---|---|---|---|
| 2016 | 0.22 | 0.22 | 0.17 |
| KCIF(4년) | KCIF(5년) | 중심성지수(3년) | 즉시성지수 |
| 0.11 | 0.08 | 0.253 | 0.15 |
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