• Title/Summary/Keyword: Pulsating heat pipe

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A comparative study on the flow patterns in closed loop pulsating heat pipe charged with various working fluids (다양한 작동유체로 충전된 폐쇄 루프 맥동 히트파이프 내부 유동패턴 비교)

  • Kang, Seok Gu;Kim, Seong Keun;Ahmad, Hibal;Jung, Sung Yong
    • Journal of the Korean Society of Visualization
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    • v.17 no.3
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    • pp.52-58
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    • 2019
  • Thermal performance and flow patterns inside the closed loop pulsating heat pipe (CLPHP) were experimentally investigated. For investigating the effect of working fluids, CLPHP was filled with various working fluids including methanol, acetone and ethanol. The thermal resistance was calculated by temperatures in evaporator and condenser and flow patterns were visualized by a digital camera. The thermal resistances for all fluids were decreased as the heat increases. Flow patterns change from static slug to elongated slug flows, bulk circulation and annular flows as the heat increases. Dry-out occurs after annular flows. For reasonable comparison of thermal performances, normalized CHF, Kutateladze number (Ku), was compared. Even though ethanol has smallest CHF, Ku of ethanol is similar with that of methanol. In addition, acetone has the highest Ku that means CLPHP with acetone provides the higher thermal performance compared with CLPHP with other fluids.

Numerical Analysis of Pulsating Heat Pipe Based on Separated Flow Model

  • Kim Jong-Soo;Im Yong-Bin;Bui Ngoc Hung
    • Journal of Mechanical Science and Technology
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    • v.19 no.9
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    • pp.1790-1800
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    • 2005
  • The examination on the operating mechanism of a pulsating heat pipe (PHP) using visualization revealed that the working fluid in the PHP oscillated to the axial direction by the contraction and expansion of vapor plugs. This contraction and expansion is due to the formation and extinction of bubbles in the evaporating and condensing section, respectively. In this paper, a theoretical model of PHP was presented. The theoretical model was based on the separated flow model with two liquid slugs and three vapor plugs. The results show that the diameter, surface tension and charge ratio of working fluid have significant effects on the performance of the PHP. The following conclusions were obtained. The periodic oscillations of liquid slugs and vapor plugs were obtained under specified parameters. When the hydraulic diameter of the PHP was increased to d=3mm, the frequency of oscillation decreased. By increasing the charging ratio from 40 to 60 by volume ratio, the pressure difference between the evaporating section and condensing section increased, the amplitude of oscillation reduced, and the oscillation frequency decreased. The working fluid with higher surface tension resulted in an increase in the amplitude and frequency of oscillation. Also the average temperature of vapor plugs decreased.

High-Power LED Thermal Spreaders Design Using Pulsating Heat Pipe (진동형 히트파이프를 이용한 고출력 LED 조명 방열 설계)

  • Jang, Jeong-Wan;Kim, Jong-Soo;Ha, Soo-Jung
    • Proceedings of the SAREK Conference
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    • 2009.06a
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    • pp.1379-1384
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    • 2009
  • High power light emitting diode(LEDs), a strong candidate for the next generation general illumination applications are of interest. With major advantages of power saving, increased life expectancy and faster response time over traditional incandescent bulb, the LEDs are rapidly taking over many applications such as LCD backlighting, traffic light, automotive lighting, signage, etc. The increased electrical currents used to drive the LEDs have focused more attention on the thermal management because the efficiency and reliability of the solid-state lighting devices strongly depend on successful thermal management. There exist some problems that are caused by heat generation in the LED package, such as wire breakage, yellowing of epoxy resin, lifted chip caused by reflow of thermal paste chip attach and interfacial separation between LED package and silicon resin. The goal of this study is to analyze high power LED thermal properties of using pulsating heat pipe.

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ESCO Report - 진동형 히트파이프를 이용한 히트싱크의 냉각 성능에 관한 연구

  • Choe, U-Seok
    • The Magazine for Energy Service Companies
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    • s.62
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    • pp.58-65
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    • 2010
  • 최근 가정용 컴퓨터와 노트북 등의 중앙처리장치(CPU) 속도가 급격히 빨라지고 있다. 더욱이 화석 에너지 고갈 위기에 따라 제품의 발열량은 급속도로 늘어날 전망이라는 관측이 나왔다. 때문에 에너지절약에 대한 해결이 동반된 연구가 이뤄져야 한다는 목소리가 커지고 있다. 이러한 문제를 해결하기 위해 발열원에 히트싱크를 직접 부착하는 강제대류 방식에 대한 연구가 진행되고 있고, 최근 들어 열전소자를 이용한 냉각방식과 히트파이프를 이용한 방식도 대두되고 있다. 그 중 열저항 특성 연구에 집중했던 기존 방식에서 벗어나 Pulsating Heat Pipe(PHP)를 열확산기로 적용시킨 연구방식을 소개한다.

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The quality improvement study on the crack of heat exchanger lubricating oil port in military aircraft (군용항공기 열교환기 윤활유 유입포트 균열개선 연구)

  • Park, Sung-Jae;Choi, Jae-Ho;Choi, Gil-Gyu;Lee, Dong-Ki
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.21 no.4
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    • pp.164-172
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    • 2020
  • The fuel oil/heat exchanger installed in military aircraft is a device that cools the lubricant oil supplied to other devices, such as an AMAD, and a hydraulic pump using the low temperature of the fuel is cracked at the AMAD lubricant inlet port. If a crack in the heat exchanger occurs, the lubricant oil supplied to other equipment is not cooled. Therefore, the flight can no longer be performed. In this study, non-destructive inspection and microscopic examination of the fracture surface of the oil port were performed to analyze the crack tendency. The oil pipe connected to the oil port is a titanium pipe, which is fastened with over torque and has been identified as the leading cause of heat exchanger oil port cracks. In addition, it was verified as the main reason for cracking by finite element analysis. The material and diameter of the pipe were changed to improve this defect, and the applied torque was adjusted. In addition, the bending value of the pipe was adjusted to minimize the fatigue accumulation due to pulsating pressure. As a result, no cracks occurred on the heat exchanger via the ground test after the installation of an improved pipe under the same conditions.

Prediction of Vehicle Exhaust Noise using 3-Dimensional CFD Analysis (3차원 유동해석을 통한 차량 배기소음 예측에 관한 연구)

  • 진봉용;이상호;조남효
    • Transactions of the Korean Society of Automotive Engineers
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    • v.9 no.5
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    • pp.148-156
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    • 2001
  • Computational Fluid Dynamics (CFD) analysis was carried out to investigate exhaust gas flow and acoustic characteristics in the exhaust system of a passenger car. Transient 3-dimensional flow field in the front and rear mufflers was simulated by CFD and far-field sound pressure was modeled by a simple monopole source method. Engine performance simulation was also performed to obtain the boundary condition of instantaneous fluid flow variation at the inlet of the exhaust system. Detailed exhaust gas flow characteristics such as velocity and pressure distribution inside the mufflers were presented and the pulsating pressure amplitude was compared at several positions in the exhaust system to deduce sound pressure level. The present method of the acoustic analysis coupled with CFD techniques would be very effective for the prediction of sound noise from vehicle exhaust systems although the effects of the inlet boundary condition and heat transfer on the accuracy of the prediction have to be validated through further studies.

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