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얇은 히터 thermal activity의 올바른 결정을 위한 가열 방법에 따른 실질 가열 두께 연구
정우현(Woo Hyun Jung),조항진(HangJin Jo) 대한기계학회 2020 대한기계학회 춘추학술대회 Vol.2020 No.12
In various industrial field such as nuclear engineering (fuel cladding) and electronics (chip cooling), a critical heat flux of thin heater are getting a lot of interests due to its unusual characteristic, lower CHF value than the thick heater. In case of the thin heater, generally the critical heat flux has a tendency to decrease as the thickness of heater decreased. This phenomenon is interpreted as the thermal property effect of heater, represented by the thermal activity parameter that is composed of heater thickness, density, thermal capacity, and thermal conductivity. In this paper, it is claimed that the heater thickness parameter could be changed according to the heating method; Joule heating method (direct heating) or conduction heating methods (direct heating). By solving the conduction problem of heater numerically with the dry patch mechanism concept for the CHF, giving thinner thickness for the Joule heating method as an effective heating thickness showed consistency on the numerical results.
광섬유 분산온도센서를 이용한 관내 막응축 열전달 및 유동양식 평가
이용남(Yongnam Lee),조항진(HangJin Jo) 대한기계학회 2021 대한기계학회 춘추학술대회 Vol.2021 No.11
The film condensation heat transfer under low-mass-flux condition in horizontal tube was experimentally studied. The condensation experiment was performed under the conditions of a steam pressure of 0.5MPa and a mass flux of 50kg/㎡s with all steam quality range. An optical fiber sensor was used as a distributed temperature sensor (DTS), and the outer tube wall temperature data with intervals of 2.6 mm in the axial direction were measured. In two representative flow patterns (annular and stratified flow), the local heat flux and local heat transfer coefficient in the radial direction were measured and compared with the average radial heat transfer coefficient. Based on the experimental results, it was confirmed that the flow pattern of condensate in tube could be measured only by the tube wall temperature distribution, and using this, the possibility of application in conditions that cannot be visualized such as high temperature or high pressure was suggested.
접촉각에 따른 기포 직경 및 임계열유속 변화에 관한 연구
노현우(Hyunwoo Noh),조항진(HangJin Jo),김설하(Seol Ha Kim),박현선(Hyun Sun Park),김무환(Moo Hwan Kim) 대한기계학회 2014 대한기계학회 춘추학술대회 Vol.2014 No.11
A pool boiling experiment was conducted to investigate the relation among contact angle, bubble diameter, and critical heat flux. Infrared(IR) thermometry was employed to measure the bubble diameter directly in pool boiling experiment conducted on Si and Teflon surface by visualizing the liquid-vapor interface through IR-transparent silicon substrate. Critical heat flux on Si and Teflon surface were about 1,200kW/m² and 160kW/m², respectively. It was observed that bubble behaviors, i.e., nucleation site density, bubble frequency, and bubble diameter, were drastically changed with respect to contact angle conditions at the same heat flux condition. The bubble diameter decreases as the applied heat flux increases and as contact angle decreases.
다공성 매질 방법을 이용한 PCHE의 유동분배 및 열전달 성능 분석
정성석(Seong Seok Chung),조항진(HangJin Jo) 대한기계학회 2023 대한기계학회 춘추학술대회 Vol.2023 No.11
In this study, the flow distribution and heat transfer performance of the Printed Circuit Heat Exchanger (PCHE) were evaluated under different header conditions, including various outlet header shapes, using the porous media method in ANSYS CFX. The PCHE model consists of 7 plates, each etched with 8 straight-type channels. To enhance predictability concerning pressure drop and heat transfer correlations, the simulation was conducted with various outlet header shapes, as the outlet headers contribute significantly to pressure drop. Flow distribution was quantified using CoV (Coefficient of Variance) values, which indicate deviations in mass flow rates in the PCHE. As the pressure drop ratio between the PCHE core and the header increased, flow distribution improved, and the heat transfer coefficient converged to the global heat transfer coefficient when assuming uniform flow distribution.
노현우(Hyunwoo Noh),조항진(HangJin Jo),유동인(Dong In Yu),박현선(Hyun Sun Park),모리야마 키요후미(Kiyofumi Moriyama),김무환(Moo Hwan Kim) 대한기계학회 2015 대한기계학회 춘추학술대회 Vol.2015 No.11
Pool boiling experiments were conducted on flat and structured SiO₂ surfaces to investigate the effects of surface structures on boiling performances. A micro-structured surface was prepared with the MEMS fabrication methodology, and has regularly distributed micro-scale pillar array. Critical heat flux was enhanced on micro-structured surface up to ~1.7 ㎿/㎡, compared to flat surface with ~0.8 ㎿/㎡. Heat transfer coefficient of the micro-structured surface was higher than that of flat one at high heat flux region, and the difference became larger as applied heat flux increased. Droplet and bubble dynamics were studied and the results presented pinning behavior of liquid film and smaller bubble departure diameters on the micro-structured surface. At high heat flux region, liquid path was observed only on micro-structured surface, which guarantees consistent liquid supply rate to the heating surface.
평판형 히터를 이용한 나노 유체 풀비등 임계열유속의 실험적 연구
안호선(Ho Seon Ahn),김선태(Seontae Kim),조항진(Hangjin Jo),제준호(JunHo Je),김무환(Moo Hwan Kim) 대한기계학회 2008 대한기계학회 춘추학술대회 Vol.2008 No.5
The flat plate experimental apparatus supporting only thermal heating was developed to perform the CHF enhancement experiment with nanofluids in pool boiling. Nickel and copper surface was used as heater surfaces and nanofluids was created with A1₂O₃, TiO₂ nanoparticles and deionized water by 2-step methods. And CHF in deionized water enhance on nanoparticles deposited surface. So, CHF enhancement in nanofluids is also achieved by the surface effect. CHF enhancement quantities are different as a kind of surface. Copper surface have more CHF enhancement than nickel in same nanofluids. And boiling in A1₂O₃, TiO₂ nanofluids made different surface shape. Surface investigation (SEM) about the nanoparticles coated surface was performed. And these different surfaces induced a different CHF enhancement ratio.
평판형 히터를 이용한 알루미늄과 타이타늄 산화물 나노유체의 풀비등 임계열유속에 관한 실험적 연구
안호선(HoSeon Ahn),김형대(Hyung Dae Kim),조항진(Hangjin Jo),강순호(Soonho Kang),김무환(Moo Hwan Kim) 대한기계학회 2009 大韓機械學會論文集B Vol.33 No.10
Pool boiling heat transfer and critical heat flux (CHF) of water-based nanofluids with alumina and titania nanoparticles of 0.01% by volume were investigated on a disk heater at saturated and atmospheric conditions. The experimental results showed that the boiling in nanofluids caused the considerable increase in CHF on the flat surface heater. It was revealed by visualization of the heater surface subsequent to the boiling experiments that a major amount of nanoparticles deposited on the surface during the boiling process. Pool boiling of pure water on the surface modified by such nanoparticle deposition resulted in the same CHF increases as what boiling nanofluids, thus suggesting the CHF enhancement in nanofluids was an effect of the surface modification through the nanoparticle deposition during nanofluid boiling. Possible reasons for CHF enhancement in pool boiling of nanofluids are discussed with surface property changes caused by the nanoparticle deposition.