Journal ArticleDOI
An Investigation of Flat-Plate Oscillating Heat Pipes
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TLDR
In this article, two layers of channels were created by machining grooves on both sides of a copper plate in order to increase the channel number per unit volume, and the channels had rectangular crosssections with hydraulic diameters ranging from 0.762 mm to 1.389 mm.Abstract:
The heat transfer performance of flat-plate oscillating heat pipes (FP-OHPs) was investigated experimentally and theoretically. Two layers of channels were created by machining grooves on both sides of a copper plate in order to increase the channel number per unit volume. The channels had rectangular cross-sections with hydraulic diameters ranging from 0.762 mm to 1.389 mm. Acetone, water, diamond/acetone, gold/water, and diamond/water nanofluids were tested as working fluids. It was found that the FP-OHP’s thermal resistance depended on the power input and operating temperature. The FP-OHP charged with 0.0003 vol % gold/water nanofluids achieved a thermal resistance of 0.078 K/W while removing 560 W with a heat flux of 86.8 W/cm2. The thermal resistance was further decreased when the nanofluid was used as the working fluid. A mathematical model predicting the heat transfer performance was developed to predict the thermal performance of the FP-OHP. Results presented here will assist in the optimization of the FP-OHP and provide a better understanding of heat transfer mechanisms occurring in OHPs.read more
Citations
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Journal ArticleDOI
Review of the development of pulsating heat pipe for heat dissipation
TL;DR: In this article, the authors reviewed the development of pulsating heat pipe (PHP) on the basis of systematic summary of the latest results of both experimental and theoretical studies, and some promising and innovatory applications of the PHP are also reported.
Journal ArticleDOI
Dynamic performance analysis on start-up of closed-loop pulsating heat pipes (CLPHPs)
TL;DR: In this paper, a preliminary dynamic relationship between the heat load and the output temperature of the closed-loop pulsating heat pipes (CLPHPs) is analyzed, and the optimal liquid filling ratio for start-up is about 41% for water, 52% for ethanol, and falls within the range from 35% to 41% of methanol.
Journal ArticleDOI
A new frontier of nanofluid research – Application of nanofluids in heat pipes
Zhen-Hua Liu,Yuan-Yang Li +1 more
TL;DR: In this article, the effect of characteristics and mass concentrations of nanoparticles on the thermal performance in various kinds of heat pipes with different base fluids under various operating conditions has been discussed and the mechanism of enhancement or degradation of heat transfer utilizing nanofluids in the investigated heat pipes has been explained.
Journal ArticleDOI
Nanofluids in thermosyphons and heat pipes: Overview of recent experiments and modelling approaches
TL;DR: In this paper, the authors present results of the application of nanofluids in thermosyphons, heat pipes, and oscillating heat pipes and draw conclusions with respect to the potentials for improvement of the thermal performance of these gadgets.
Journal ArticleDOI
Additive manufacturing of heat exchangers: A case study on a multi-layered Ti–6Al–4V oscillating heat pipe
TL;DR: In this paper, a Selective Laser Melting (SLM) was used to fabricate a flat-plate oscillating heat pipe (FP-OHP) with innovative design features, including a Ti-6Al-4V casing and a closed-loop, circular mini-channel consisting of four interconnected layers.
References
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Journal ArticleDOI
A general correlation for heat transfer during film condensation inside pipes
TL;DR: In this paper, a dimensionless correlation for predicting heat transfer coefficients during film condensation inside pipes is presented, which has been verified by comparison with a wide variety of experimental data.
Patent
Structure of a heat pipe
TL;DR: In this paper, a structure of a loop-type heat pipe is disclosed in which a heat carrying fluid, preferably a bi-phase non-condensative fluid, circulates in a loop form in itself under its own vapor pressure at a high speed within an elongate pipe so as to repeat vaporization and condensation, thus carrying out a heat transfer.
Journal ArticleDOI
Effect of nanofluid on the heat transport capability in an oscillating heat pipe
TL;DR: By combining nanofluids with thermally excited oscillating motion in an oscillating heat pipe (OHP), Wang et al. as mentioned in this paper developed an ultrahighperformance cooling device, called the nanoffluid oscillating pipe.