年間 8 号発行
ISSN 印刷: 1065-5131
ISSN オンライン: 1563-5074
Indexed in
Micro/Miniature Heat Pipes and Operating Limitations
要約
A literature review related to miniature and micro heat pipes is given. It is found that longitudinal groove designs are crucial to increase the heat transport capacity of miniature heat pipes. In addition to the operational limitations of conventional heat pipes, micro heat pipes may be subject to the vapor continuum limitation, which may prevent micro heat pipes from operating under lower working temperatures. An analysis of the capillary limit reveals that the disjoining pressure may play a role in heat transfer for the micro heat pipe and may increase its heat transfer capacity.
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Suman Balram, Modeling, Experiment, and Fabrication of Micro-Grooved Heat Pipes: An Update, Applied Mechanics Reviews, 60, 3, 2007. Crossref
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Begg E., Khrustalev D., Faghri A., Complete Condensation of Forced Convection Two-Phase Flow in a Miniature Tube, Journal of Heat Transfer, 121, 4, 1999. Crossref
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Badran Bassam, Gerner Frank M., Ramadas Padmaja, Henderson Thurman, Baker Karl W., EXPERIMENTAL RESULTS FOR LOW-TEMPERATURE SILICON MICROMACHINED MICRO HEAT PIPE ARRAYS USING WATER AND METHANOL AS WORKING FLUIDS, Experimental Heat Transfer, 10, 4, 1997. Crossref
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Zhang Nengli, Innovative heat pipe systems using a new working fluid, International Communications in Heat and Mass Transfer, 28, 8, 2001. Crossref
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Suman Balram, Hoda Nazish, Effect of variations in thermophysical properties and design parameters on the performance of a V-shaped micro grooved heat pipe, International Journal of Heat and Mass Transfer, 48, 10, 2005. Crossref
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Wits Wessel W., Kok Jim B. W., Modeling and Validating the Transient Behavior of Flat Miniature Heat Pipes Manufactured in Multilayer Printed Circuit Board Technology, Journal of Heat Transfer, 133, 8, 2011. Crossref
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Lanchao Lin , Faghri A., Steady-state performance of a rotating miniature heat pipe, IECEC-97 Proceedings of the Thirty-Second Intersociety Energy Conversion Engineering Conference (Cat. No.97CH6203), 4, 1997. Crossref
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Suman Balram, Savino Raffaele, Capillary Flow-Driven Heat Transfer Enhancement, Journal of Thermophysics and Heat Transfer, 25, 4, 2011. Crossref
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Suman Balram, Kumar Prabhat, An analytical model for fluid flow and heat transfer in a micro-heat pipe of polygonal shape, International Journal of Heat and Mass Transfer, 48, 21-22, 2005. Crossref
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Khalifa Abdulmajed, Tan Lippong, Mahony David, Date Abhijit, Akbarzadeh Aliakbar, Numerical analysis of latent heat thermal energy storage using miniature heat pipes: A potential thermal enhancement for CSP plant development, Applied Thermal Engineering, 108, 2016. Crossref
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Faghri Amir, Heat Pipes and Thermosyphons, in Handbook of Thermal Science and Engineering, 2018. Crossref
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Chen Gang, Wang Qian, Cao Yiding, Tso Chunyin, Development of an Isothermal Journal Bearing Employing Heat-Pipe Cooling Technology, Tribology Transactions, 42, 2, 1999. Crossref
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Isaacs Steven A., Hamlington Peter E., Development and Application of a Thin Flat Heat Pipe Design Optimization Tool for Small Satellite Systems, 2019 18th IEEE Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems (ITherm), 2019. Crossref
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Wits Wessel W., te Riele Gert Jan, Heat Pipe Array for Planar Cooling of Rotating Radar Systems, Journal of Heat Transfer, 141, 9, 2019. Crossref
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Diallo Thierno, Yu Min, Zhou Jinzhi, Fan Yi, Zhao Xudong, Micro (Mini)-Channels and Their Applications in Solar Systems, in Advanced Energy Efficiency Technologies for Solar Heating, Cooling and Power Generation, 2019. Crossref
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Isaacs Steven A., Lapointe Caelan, Hamlington Peter E., Development and Application of a Thin Flat Heat Pipe Design Optimization Tool for Small Satellite Systems, Journal of Electronic Packaging, 143, 1, 2021. Crossref
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Bakhirathan Asokan, Gangadhara Kiran Kumar Lachireddi, Computational Analysis on Thermo-Hydrodynamic Characteristics of Y-Shaped Multi-branched Micro Heat Pipe, in Fluid Mechanics and Fluid Power, 2021. Crossref