• 대한기계학회논문집B
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• 제21권12호
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• pp.1563-1575
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• 1997

To understand EHD nucleate boiling heat transfer enhancement, EHD effects on R-113 nucleate boiling heat transfer in a non-uniform electric field were investigated. The pool boiling heat transfer and the dynamic behavior of bubbles in d.c./a.c. electric fields under a saturated or subcooled boiling were studied by using a plate-wire electrode and a high speed camera. From the pool boiling heat transfer study, the shift of the pool boiling curve, the increase of the heat transfer and the delay of ONB and CHF points to higher heat fluxes were observed. From the dynamic behavior of bubbles, it was observed that bubbles departed away from the whole surface of the heated wire in radial direction due to EHD effects by a nonuniform electric field. With increasing applied voltages, the bubble size decreased and the active nucleation site and the departure number of bubbles showed the different trend. The present study indicates that the EHD nucleate boiling heat transfer is closely connection with the dynamic behavior of bubbles and the secondary flow induced near the heated surface. Therefore, the basic studies on the bubble behavior such as bubble frequency, bubble diameter, bubble velocity and flow characteristics are necessary for complete understanding of the enhancement mechanism of the boiling heat transfer using an electric field.

• 대한기계학회논문집B
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• 제35권7호
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• pp.665-676
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• 2011

본 연구에서는 순수 물에 탄소나노튜브를 분산시킨 나노유체를 작동유체로 하여 $60^{\circ}C$ 에서 정사각형 구리 평면 히터를 이용하여 핵 비등 열전달계수와 임계 열유속을 측정하였다. 탄소나노튜브의 체적비는 0.0001%, 0.001%, 0.01%까지 변화시켜 실험을 수행하였다. 탄소나노튜브는 고분자 물질을 사용하여 분산시키지 않고 탄소나노튜브에 직접 산화처리를 하여 분산시켰다. 실험 결과 나노유체의 열전달계수는 순수 물과 비교해 모든 체적비에서 증가하였다. 산화 처리를 한 탄소나노튜브는 비등이 일어나는 동안 열 경계층 안에서 열전도도가 큰 탄소나노튜브가 침착되지 않고 열전달 표면에 자주 접촉함으로써 열 경계층을 교란시켜 비등 열전달을 촉진시키는 것으로 사료된다. 임계 열유속은 체적비 0.001%에서 순수 물의 결과에 비해 150%까지 증가하였다. 이는 열전달 표면에서 탄소나노튜브가 매우 얇게 침착되어 생긴 나노 막으로 인해 거대한 기포막의 형성이 억제되고 핵 비등이 높은 열유속에서도 지속되어 임계 열유속이 증가하는 것으로 판단된다.

• 에너지공학
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• 제9권1호
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• pp.60-67
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• 2000

본 연구는 열에너지 교환을 목적으로 이용되는 환상휜의 비등열전달에서 간섭판의 영향을 고찰한 실험적인 연구이다. 휜과 인접한 간섭판의 간격과, 휜 높이의 변화에 따라 비등열전달에 미치는 영향을 구했다. 휜 간격은 단독 환상휜에 간섭판을 0.05mm에서 2mm 가지 6가지 종류, 그리고 휜 높이는 3 mm , 8mm, 13 mm 의 3 종류로 변화시켰다. 실험결과 휜 높이가 제일 큰 13 mm 간섭판 간격이 0.25mm 로 비교적 좁은 간격임에도, 핵비등영역에서는 열전달 촉진효과가있었다. 그러나 간섭판의 간격이 0.05mm 로 더좁아지면 저열류속 영역에서는 휜 간격 내에 유체가 유입이 어려워 휜 선단만에서의 비등열전달과 일치한다. 이러한 경향은 휜 높이가 작아져도 비슷하다. 또한 휜과 간섭판의 간격이 0.25mm이상이면 간섭판의 영향이 적어, 확대 전열면으로서 전열 촉진효과를 얻을 수 있다.

• 설비공학논문집
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• 제12권11호
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• pp.963-971
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• 2000

In order to investigate the effects of an electric field on EHD(Electro-hydrodynamic) nucleate boiling hat transfer characteristics in a nonuniform electric field under saturated pool boiling, the basic study has been performed experimentally. In the present study, the working fluid is R-113 and the plate-wire electrode system is used to generate a steep electric field gradient. Boiling parameters are investigated by using a high speed camera. The electric field distribution around a wire is obtained to understand the effect of an electric field on bubble departure/movement. The experimental results show EHD effects are much more considerable when the applied voltage increases. Bubbles depart away from the heated wire in radial direction. It is confirmed that the mechanisms of EHD nucleate boiling are closely connected with the dynamic behavior of bubbles. The boiling parameters are significantly changed by the electric field strength. With increasing applied voltages, the bubble size decreases and the nucleation site density, bubble velocity and bubble frequency increase.

• 설비공학논문집
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• 제23권3호
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• pp.194-200
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• 2011

In this work, nucleate pool boiling heat transfer coefficients(HTCs) of pure water are measured on horizontal 26 fpi low fin, Turbo-B and Thermoexcel-E square surfaces of 9.53 mm length. HTCs are taken from 10 $kW/m^2$ to critical heat flux for all surfaces. Test results show that critical heat fluxes(CHFs) of all enhanced surfaces are greatly improved as compared to that of a plain surface. CHFs of water on the 26 fpi low fin surface, Thermoexcel-E surface, and Turbo-B are increased up to 320%, 275%, and 150% as compared to that of the plain surface, respectively. CHF of the Turbo-B enhanced surface is lower than that of the 26 fpi low fin surface due to the surface geometry. The heat transfer enhancement ratios of the Thermoexcel-E surface, low fin surface and Turbo-B enhanced surface are 1.6~2.9, 1.6~2.1, 1.4~1.7 respectively in the range of heat fluxes tested. Judging from these results, it can be said that these types of enhanced surfaces can be used in heat transfer applications at high heat fluxes.

• 설비공학논문집
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• 제6권4호
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• pp.365-379
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• 1994

Pool boiling experiments were carried out to study the effect of electric field on nucleate boiling heat transfer. CFC-11 and its alternative HCFC-123 were used as working fluids. Boiling on both single tube and a bundle of five tubes was investigated. Heat flux varied from 5 to $25kW/m^2$ while the applied voltage changed from 0 to 1kV. The results showed that at low heat flux where boiling was not present or very weak, electric field-induced forced convection helped increase the heat transfer coefficients of CFC-11 and HCFC-123 significantly(4-15 times increase). However, at higher heat flux, nucleate boiling of CFC-11 which is a highly dielectric fluid, was not affected significantly by the application of electric field. In contrast to CFC-11, even at high heat flux, nucleate boiling of CFC-11 which has a relatively larger electric conductivity than CFC-11, was vigorously increased up to 2-4 times. The additional power required to apply the electric field was 1-2% of the total power consumption by the heater. The increase in overall heat transfer coefficient of evaporators with HCFC -123 was about 40%, suggesting a considerable reduction in evaporator size with EHD technique.

• 대한기계학회논문집
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• 제18권5호
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• pp.1264-1274
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• 1994

Heat transfer performance of integral-fin tube which is used in recipro turbo refrigerator or high compact heat exchangers is studied. Eight tubes with trapezoidal shaped integral-fins having fin densities from 748 to 1654 fpm and 10, 30 internal grooves are tested. A plain tube having the same(inner and outer) diameter as the fin tubes is also tested for comparison. Pool boiling heat transfer of R-11 is investigated experimentally and theoretically on single tube arrangement. The refrigerant evaporates at saturation state of 1 bar on the outside tube surface and heat is supplied by not water which circulates inside of the tube. From the result of eight fin tubes and one plain tube tested, a tube having 1299 fpm-30 grooves shows the best performance. A maximum overall heat transfer coefficient of this tube is about 4000 $W/m^{2}K$ at 2.8m/s of water velocity. The maximum heat transfer enhancement (i.e., the ratio of overall heat transfer coefficients of finned to plain tubes)is about 2.1.

• 에너지공학
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• 제7권2호
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• pp.194-201
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• 1998

전기 철도 차량의 A.C 모터 속도제어에는 여러 개의 GTO thyristor와 다이오드가 필요하다. 그런데 이러한 반도체 소자들은 약 1~2 kW의 열을 발생하기 때문에 냉각장치가 필요하며 이러한 반도체의 냉각에는 Perfluorocarbon(PFC)을 작동유체로 하는 히트파이프를 많이 사용하고 있다. 본 연구에서는 PFC 히트파이프의 증발 및 응축 열전달 계수에 미치는 관련변수로 주입율, 관의 내부 표면상태, 경사각, 증기압, 열유속 등의 영향을 파악하고, 열전달 계수를 예측할 수 있는 상관식을 제시하고자 하였다. 이를 위해 내부 표면에 그루브가 설치된 동관과 표면이 매끈한 외경 15.88mm인 동관을 이용하여 주입율이 다른 총 길이 520mm의 PFC 히트파이프와 열사이폰을 제작하고 실험을 수행하였다. 증발 열전달 계수는 열유속 15~45 kW/$m^2$의 범위일 때 2 kW/$m^2$K~5.5 kW/$m^2$K 사이의 분포를 보였다. 실험결과는 수정계수 CR=1.3을 적용할 때 Rohsenow의 핵비등 상관식과 실험치가 매우 접근된 결과를 보였으며 이러한 결과는 내부 벽면 그루브의 열전달 촉진효과이다. 응축 열전달 계수의 측정치는 1.5kW/$m^2$K~3.5kW/$m^2$K 사이의 분포를 보였으며 Nusselt 막응축 모델에 수정계수 CN=4를 도입함으로써 매우 접근된 예측이 가능하였다. 증발부 체적에 대한 작동유체 주입율은 40~100%의 범위가 적절하였다. 그리고 30$^{\circ}$이상의 경사각에서는 경사각의 영향이 미소하였다.

• 설비공학논문집
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• 제23권3호
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• pp.179-187
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• 2011

In this work, nucleate pool boiling heat transfer coefficients(HTCs) of 5 refrigerants of differing vapor pressure are measured on horizontal low fin and Turbo-B square surfaces of 9.53 mm length. Tested refrigerants are R32, R22, R134a, R152a and R245fa and HTCs are taken from 10 $kW/m^2$ to critical heat fluxes for all refrigerant at $7^{\circ}C$. Wall and fluid temperatures are measured directly by thermocouples located underneath the test surface and in the liquid pool. Test results show that Critical heat fluxes(CHFs) of all enhanced surfaces are greatly improved as compared to that of a plain surface in all tested refrigerants. CHFs of all refrigerants on the 26 fpi low fin surface are increased up to 240% as compared to that of the plain surface. HTCs on both low fin and Turbo-B surfaces increase with heat flux. After certain heat flux, however, they decrease. CHFs of the Turbo-B enhanced surface are lower than that of the 26 fpi low fin surface. This phenomenon is due to the difference in surface structure of the low fin and Turbo-B surface.

• 설비공학논문집
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• 제24권9호
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• pp.685-692
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• 2012

In this work, nucleate pool boiling heat transfer coefficients(HTCs) of 5 refrigerants of different vapor pressure are measured on horizontal Thermoexcel-E square surface of 9.53 mm length. Tested refrigerants are R32, R22, R134a, R152a and R245fa. HTCs are taken from 10 $kW/m^2$ to critical heat fluxes for all refrigerant at $7^{\circ}C$. Wall and fluid temperatures are measured directly by thermocouples located underneath the test surface and in the liquid pool. Test results show that critical heat fluxes(CHFs) of Thermoexcel-E enhanced surface are greatly improved as compared to that of a plain surface in all tested refrigerants. CHFs of all refrigerants on the Thermoexcel-E surface are increased up to 100% as compared to that of the plain surface. The improvement of Thermoexcel-E surface in CHF, however, is lower than that of the low fin surface. HTCs on Thermoexcel-E surface increase with heat flux. But after certain heat flux, HTCs began to decrease due to the difficulty in bubble removal caused by the inherent complex nature of this surface. Therefore, at heat fluxes close to the critical one, sudden decrease in HTCs needs to be considered in thermal design with Thermoexcel-E surface.