Experimental study of a nitrogen loop heat pipe for cooling large area heat source

Yongbo Tao; Lizhan Bai; Yuandong Guo; Guiping Lin; Jiang He; Jianyin Miao; Hongxing Zhang

Experimental study of a nitrogen loop heat pipe for cooling large area heat source

Yongbo Tao
, Lizhan Bai
, Yuandong Guo
, Guiping Lin
, Jiang He
, Jianyin Miao
, Hongxing Zhang

School of Aeronautic Science and Engineering

Research output: Contribution to conference › Paper › peer-review

Abstract

A cryogenic loop heat pipe (CLHP) is an efficient two-phase heat transfer device. It works without mechanical moving parts, external power, vibrations and electromagnetic interference. Hence, the CLHP can isolate optics and detectors from mechanical vibrations and improve image quality of large Far Infrared space telescopes. In this experiment, the working fluid was nitrogen and the operating temperature range was 80-120K. The method of supercritical startup was by applying capillary pump with power In this paper, the effects of different capillary pump powers on supercritical startup characteristics, relationship between charge pressure and heat transfer limit were studied. In the end, the responsiveness and temperature stability with heat load changing cyclically were investigated. The CLHP could achieve successful startup under auxiliary heat load of 2W and got a heat transport capacity of 3W.

Original language	English
Pages	1359-1362
Number of pages	4
State	Published - 2018
Event	CSAA/IET International Conference on Aircraft Utility Systems, AUS 2018 - Guiyang, China Duration: 19 Jun 2018 → 22 Jun 2018

Conference

Conference	CSAA/IET International Conference on Aircraft Utility Systems, AUS 2018
Country/Territory	China
City	Guiyang
Period	19/06/18 → 22/06/18

Keywords

Charge pressure
Heat transfer limit
Operating characteristics
Power cycle variation
Supercritical startup

Cite this

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title = "Experimental study of a nitrogen loop heat pipe for cooling large area heat source",

abstract = "A cryogenic loop heat pipe (CLHP) is an efficient two-phase heat transfer device. It works without mechanical moving parts, external power, vibrations and electromagnetic interference. Hence, the CLHP can isolate optics and detectors from mechanical vibrations and improve image quality of large Far Infrared space telescopes. In this experiment, the working fluid was nitrogen and the operating temperature range was 80-120K. The method of supercritical startup was by applying capillary pump with power In this paper, the effects of different capillary pump powers on supercritical startup characteristics, relationship between charge pressure and heat transfer limit were studied. In the end, the responsiveness and temperature stability with heat load changing cyclically were investigated. The CLHP could achieve successful startup under auxiliary heat load of 2W and got a heat transport capacity of 3W.",

keywords = "Charge pressure, Heat transfer limit, Operating characteristics, Power cycle variation, Supercritical startup",

author = "Yongbo Tao and Lizhan Bai and Yuandong Guo and Guiping Lin and Jiang He and Jianyin Miao and Hongxing Zhang",

note = "Publisher Copyright: {\textcopyright} 2018 IET Conference Publications. All rights reserved.; CSAA/IET International Conference on Aircraft Utility Systems, AUS 2018 ; Conference date: 19-06-2018 Through 22-06-2018",

year = "2018",

language = "英语",

pages = "1359--1362",

}

TY - CONF

T1 - Experimental study of a nitrogen loop heat pipe for cooling large area heat source

AU - Tao, Yongbo

AU - Bai, Lizhan

AU - Guo, Yuandong

AU - Lin, Guiping

AU - He, Jiang

AU - Miao, Jianyin

AU - Zhang, Hongxing

PY - 2018

Y1 - 2018

N2 - A cryogenic loop heat pipe (CLHP) is an efficient two-phase heat transfer device. It works without mechanical moving parts, external power, vibrations and electromagnetic interference. Hence, the CLHP can isolate optics and detectors from mechanical vibrations and improve image quality of large Far Infrared space telescopes. In this experiment, the working fluid was nitrogen and the operating temperature range was 80-120K. The method of supercritical startup was by applying capillary pump with power In this paper, the effects of different capillary pump powers on supercritical startup characteristics, relationship between charge pressure and heat transfer limit were studied. In the end, the responsiveness and temperature stability with heat load changing cyclically were investigated. The CLHP could achieve successful startup under auxiliary heat load of 2W and got a heat transport capacity of 3W.

AB - A cryogenic loop heat pipe (CLHP) is an efficient two-phase heat transfer device. It works without mechanical moving parts, external power, vibrations and electromagnetic interference. Hence, the CLHP can isolate optics and detectors from mechanical vibrations and improve image quality of large Far Infrared space telescopes. In this experiment, the working fluid was nitrogen and the operating temperature range was 80-120K. The method of supercritical startup was by applying capillary pump with power In this paper, the effects of different capillary pump powers on supercritical startup characteristics, relationship between charge pressure and heat transfer limit were studied. In the end, the responsiveness and temperature stability with heat load changing cyclically were investigated. The CLHP could achieve successful startup under auxiliary heat load of 2W and got a heat transport capacity of 3W.

KW - Charge pressure

KW - Heat transfer limit

KW - Operating characteristics

KW - Power cycle variation

KW - Supercritical startup

UR - https://www.scopus.com/pages/publications/85054648303

M3 - 论文

AN - SCOPUS:85054648303

SP - 1359

EP - 1362

T2 - CSAA/IET International Conference on Aircraft Utility Systems, AUS 2018

Y2 - 19 June 2018 through 22 June 2018

ER -

Experimental study of a nitrogen loop heat pipe for cooling large area heat source

Abstract

Conference

Keywords

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