Journal ArticleDOI
Heat transfer and bubble detachment in subcooled pool boiling from a downward-facing microheater array in a nonuniform electric field.
Zan Liu,Cila Herman,Jungho Kim +2 more
TLDR
Boiling heat transfer results with and without the electric field are presented andconsiderably greater heat transfer enhancement was measured than under similar conditions in +1 g.Abstract:
The effects of a nonuniform electric field on vapor bubble detachment and heat transfer in subcooled pool boiling from a microheater array are investigated. The heater array faced downward to simulate a -1 g gravity condition and to eliminate the dominant masking effect of the buoyancy force. Experiments were conducted at different subcooling levels for various wall temperatures and electric field magnitudes. A dielectric fluid, FC-72, was used as the working fluid at ambient pressure. The array of 3 x 3 independently controlled microheaters was maintained at constant temperature and the rate of heat transfer from each heater was measured. Bubble images were recorded using a high-speed camera. The electric field was applied between the horizontal downward-facing microheater array, which was grounded, and a spherical, off-axis electrode beneath it. Boiling heat transfer results with and without the electric field are presented in this study. In the absence of the nonuniform electric field, compared to the same bulk fluid temperature and wall superheat settings in the +1 g situation, a much larger primary bubble was formed on the heater array, due to the coalescence of the secondary bubbles that nucleated on the heater array. The vapor bubble remained on the heater array surface and no bubble detachment was observed. With the nonuniform electric field applied, bubbles were lifted and sheared off from the heater array surface. The electric field was able to break up the primary bubble into several smaller bubbles--considerably greater heat transfer enhancement was measured than under similar conditions in +1 g.read more
Citations
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Journal ArticleDOI
Electric field effects during nucleate boiling from an artificial nucleation site
TL;DR: In this paper, an experimental study of saturated pool boiling from a single artificial nucleation site on a polished copper surface has been performed, where isolated bubbles grow and depart from the artificial cavity and the bubble dynamics are recorded with a high speed camera.
Journal ArticleDOI
AC voltage induced electrohydrodynamic two-phase convective boiling heat transfer in horizontal annular channels
TL;DR: In this article, an experimental study of alternating current (AC) induced electrohydrodynamic (EHD) flow and heat transfer augmentation for boiling inside an annular channel containing working fluid refrigerant HFC-134a has been conducted in a single-pass, counter-flow heat exchanger with a rod electrode placed concentric to a grounded tube.
Dissertation
Bubble dynamics and boiling heat transfer : a study in the absence and in the presence of electric fields
TL;DR: In this paper, an experimental investigation of saturated pool boiling from a single or two neighbouring artificial nucleation sites on a polished copper surface has been performed, and the bubble growth dynamics has been characterized for different wall superheats and a experimental growth law has been established.
DissertationDOI
Nucleate boiling on passive and active flexible microstructured surfaces
Abstract: Nucleate boiling is an efficient heat transfer process, which is crucial for numerous industrial applications such as cooling of electronic devices, spray cooling, mixing and cooling in nuclear power plant. Common methods to enhance the heat transfer rate in nucleate boiling, include modification of wettability and surface roughness using structured surfaces. While the physical mechanisms of boiling phenomena on smooth surfaces have been extensively investigated, studies of boiling processes on structured surfaces have been lacking, in particular on surfaces fabricated with passive structures such as micro-structures, nano-structures, and micro-nano hybrid structure, as well as on surfaces fabricated with active structures. The first part of this thesis focuses on enhancement of boiling heat transfer using surfaces fabricated with passive nanopillars. The pillar length and surface area enhancement ratio were varied and demonstrated to correlate with the heat transfer coefficient of the boiling process. Furthermore, a predictive model of critical heat flux and critical temperature for boiling on such surfaces is proposed which shows that the predicted results are consistent with the experimentally measured ones. The second part focuses on the dependence of convective boiling heat transfer on actuation of strip arrays fabricated on a surface. Actuation of the strip array as a novel method was introduced to dissipate the heat from the surface in a controllable way. By regulating the frequency of actuation, the heat flux through the surface can be controlled dynamically. Also, a model was derived which related the enhancement of convective heat transfer with the extra mass transfer rate caused by the array actuation. During the derivation, a new coefficient was proposed which represented for the extra mass transfer process, which can be used to further develop the model with different properties of actuators such as shape, stiffness or surface roughness. The last part is an exploratory research on the nucleation, growth and detachment of individual vapour bubbles generated from a heated cavity with the present of a nearby actuated strip. It was proposed to fabricate on the heated surface an actuated strip and a micro-cavity with a precise position and size. The dynamics of the vapour bubble using high-speed imaging coupled with measurement of the local temperature on the heated surface using micro-sensors fabricated on the surface were studied. It was found that the actuation caused the bubble to oscillate around the cavity and to depart faster from the surface with a smaller departure diameter.
Journal ArticleDOI
The effects of bubble detachment shape on rising bubble hydrodynamics
TL;DR: In this paper, the authors measured local velocities and aspect ratios of rising bubbles to investigate the effects of bubble detachment shape on rising bubble hydrodynamics, and found that there is a notable correspondence between the variation of local velocity and aspect ratio which reflects the relevance of the detachment shape of the bubbles to their surface energy.
References
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Book ChapterDOI
Electrohydrodynamically Enhanced Heat Transfer in Liquids—A Review
TL;DR: In this paper, the authors provide a useful synopsis of the field of electrohydrodynamically coupled heat transfer in liquids, so the equations of motion are those of a viscous incompressible fluid.
Journal ArticleDOI
Electrohydrodynamic enhancement of heat transfer and fluid flow
TL;DR: A comprehensive review of past work on EHD single and two-phase heat transfer, as well as past work in the related area of EHD-induced flow, is presented in this paper.
Book ChapterDOI
Enhancement of heat transfer and mass transport in single-phase and two-phase flows with electrohydrodynamics
Jamal Seyed-Yagoobi,J.E. Bryan +1 more
TL;DR: This chapter is to provide prospective researchers with an initial background on EHD-enhanced heat transfer and mass transport and information and approaches to studying electric field, fluid flow field, and heat transfer coupled problems.
Journal ArticleDOI
Experimental study on nucleate boiling enhancement and bubble dynamic behavior in saturated pool boiling using a nonuniform dc electric field
Y.C. Kweon,Moo Hwan Kim +1 more
TL;DR: In this paper, a single-photo/high photography method is applied to measure boiling parameters and the experimental results show the shift of the boiling curve and the delay of ONB and CHF to a higher heat flux by an electric field.
Journal ArticleDOI
Augmentation of boiling heat transfer by utilizing the EHD effect—EHD behaviour of boiling bubbles and heat transfer characteristics
Junji Ogata,Akira Yabe +1 more
TL;DR: In this article, the authors investigated the mechanism of augmentation of boiling heat transfer by utilizing electrohydrodynamic (EHD) phenomena, and performed basic experiments and analyses of bubble behaviour under applied electric fields and temperature gradients.
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