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References (26)
-
G. Xie, Shian-Jang Li, B. Sundén, Weihong Zhang, Haibin Li (2014)
A Numerical Study of the Thermal Performance of Microchannel Heat Sinks with Multiple Length Bifurcation in Laminar Liquid FlowNumerical Heat Transfer, Part A: Applications, 65
-
Turker Izci, M. Koz, A. Koşar (2015)
The Effect of Micro Pin-Fin Shape on Thermal and Hydraulic Performance of Micro Pin-Fin Heat SinksHeat Transfer Engineering, 36
-
Nishant Tiwari, M. Moharana (2019)
Comparative study of conjugate heat transfer in a single-phase flow in wavy and raccoon microchannelsInternational Journal of Numerical Methods for Heat & Fluid Flow, 30
-
Faraz Ahmad, T. Cheema, M. Rehman, A. Abbas, Cheol Park (2019)
Thermal enhancement of microchannel heat sink using rib surface refinementsNumerical Heat Transfer, Part A: Applications, 76
-
Yan-qing Fan, P. Lee, Liwen Jin, B. Chua, Dingcai Zhang (2014)
A parametric investigation of heat transfer and friction characteristics in cylindrical oblique fin minichannel heat sinkInternational Journal of Heat and Mass Transfer, 68
-
W. Japar, N. Sidik, S. Mat (2018)
A comprehensive study on heat transfer enhancement in microchannel heat sink with secondary channelInternational Communications in Heat and Mass Transfer
-
Fakhrodin Lalegani, M. Saffarian, Ahmad Moradi, Ebrahim Tavousi (2018)
Effects of different roughness elements on friction and pressure drop of laminar flow in microchannelsInternational Journal of Numerical Methods for Heat & Fluid Flow
-
Huiying Wu, Huiying Wu, P. Cheng (2003)
Friction factors in smooth trapezoidal silicon microchannels with different aspect ratiosInternational Journal of Heat and Mass Transfer, 46
-
Zhipeng Duan, Peng Liang, Hao Ma, Niya Ma, Boshu He (2018)
Numerical simulation of pressure drop for three-dimensional rectangular microchannelsEngineering Computations
-
Xiaojun Shi, Shanshan Li, Yingjie Mu, Yin Bangtao (2019)
Geometry parameters optimization for a microchannel heat sink with secondary flow channelInternational Communications in Heat and Mass Transfer
-
Dong Liu, S. Garimella (2003)
Analysis and Optimization of the Thermal Performance of Microchannel Heat SinksInternational Journal of Numerical Methods for Heat & Fluid Flow, 15
-
S. Shahsavari, A. Tamayol, E. Kjeang, M. Bahrami (2012)
Convective Heat Transfer in Microchannels of Noncircular Cross Sections: An Analytical ApproachJournal of Heat Transfer-transactions of The Asme, 134
-
R. Phillips (1988)
Microchannel heat sinks, 1
-
D. Tuckerman, R. Pease (1981)
High-performance heat sinking for VLSIIEEE Electron Device Letters, 2
-
N. Kuppusamy, N. Ghazali, R. Saidur, M. Niza (2015)
Optimum design of triangular shaped micro mixer in micro channel heat sinkInternational Journal of Heat and Mass Transfer, 91
-
Minqiang Pan, Hongqing Wang, Y. Zhong, Tianyu Fang, Xineng Zhong (2019)
Numerical simulation of the fluid flow and heat transfer characteristics of microchannel heat exchangers with different reentrant cavitiesInternational Journal of Numerical Methods for Heat & Fluid Flow
-
D. Bogojević, K. Sefiane, A. Walton, J. Christy, G. Cummins, Huamao Lin (2009)
Investigation of Flow Distribution in Microchannels Heat SinksHeat Transfer Engineering, 30
-
Huiying Wu, P. Cheng (2003)
An experimental study of convective heat transfer in silicon microchannels with different surface conditionsInternational Journal of Heat and Mass Transfer, 46
-
G. Xie, Yanlong Li, Fengli Zhang, B. Sundén (2016)
Analysis of micro-channel heat sinks with rectangular-shaped flow obstructionsNumerical Heat Transfer, Part A: Applications, 69
-
G. Xia, Y. Zhai, Z. Cui (2013)
Numerical investigation of thermal enhancement in a micro heat sink with fan-shaped reentrant cavities and internal ribsApplied Thermal Engineering, 58
-
Timothy Brackbill, S. Kandlikar (2007)
Effect of Sawtooth Roughness on Pressure Drop and Turbulent Transition in MicrochannelsHeat Transfer Engineering, 28
-
Yifan Li, G. Xia, Yuting Jia, Dandan Ma, B. Cai, Jun Wang (2017)
Effect of geometric configuration on the laminar flow and heat transfer in microchannel heat sinks with cavities and finsNumerical Heat Transfer, Part A: Applications, 71
-
M. Steinke, S. Kandlikar (2004)
Single-Phase Heat Transfer Enhancement Techniques in Microchannel and Minichannel Flows -
M. Steinke, S. Kandlikar (2006)
Single-Phase Liquid Friction Factors in MicrochannelsInternational Journal of Thermal Sciences, 45
-
N. Kuppusamy, R. Saidur, N. Ghazali, H. Mohammed (2014)
Numerical study of thermal enhancement in micro channel heat sink with secondary flowInternational Journal of Heat and Mass Transfer, 78
-
S. Sehgal, K. Murugesan, S. Mohapatra (2011)
Experimental Investigation of the Effect of Flow Arrangements on the Performance of a Micro-Channel Heat SinkExperimental Heat Transfer, 24
- Publisher
- Emerald Publishing
- Copyright
- © Emerald Publishing Limited
- ISSN
- 0961-5539
- eISSN
- 0961-5539
- DOI
- 10.1108/hff-04-2021-0253
- Publisher site
- See Article on Publisher Site
Abstract
The purpose of this paper is to study the flow and heat transfer characteristics of microchannel heatsinks with ribs, cavities and secondary channels. The influence of length and width of the ribs on heat transfer enhancement, secondary flows, flow distribution and temperature distribution are examined at different Reynolds numbers. The effectiveness of each heatsink is evaluated using the performance factor.Design/methodology/approachA three-dimensional solid-fluid conjugate heat transfer numerical model is used to study the flow and heat transfer characteristics in microchannels. One symmetrical channel is adopted for the simulation to reduce the computational cost and time. Flow inside the channels is assumed to be single-phase and laminar. The governing equations are solved using finite volume method.FindingsThe numerical results are analyzed in terms of average Nusselt number ratio, average base temperature, friction factor ratio, pressure variation inside the channel, temperature distribution, velocity distribution inside the channel, mass flow rate distribution inside the secondary channels and performance factor of each microchannels. Results indicate that impact of rib width is higher in enhancing the heat transfer when compared with its length but with a penalty on the pressure drop. The combined effects of secondary channels, ribs and cavities helps to lower the temperature of the microchannel heat sink and enhances the heat transfer rate.Practical implicationsThe fabrication of microchannels are complex, but recent advancements in the additive manufacturing techniques makes the fabrication of the design considered in this numerical study feasible.Originality/valueThe proposed microchannel heatsink can be used in practical applications to reduce the thermal resistance, and it augments the heat transfer rate when compared with the baseline design.
Journal
International Journal of Numerical Methods for Heat and Fluid Flow – Emerald Publishing
Published: May 16, 2022
Keywords: Conjugate heat transfer; Computational fluid dynamics; Laminar flow; Friction factor; Reynolds number; Secondary flows