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International Journal of Ambient Energy Volume 43, 2022 - Issue 1
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Research Article

Investigation of the hydrothermal enhancement of grooved pin fins heat sinks

Brahim Bencherifa Laboratoire des Carburants Gazeux et Environnement (LCGE), Faculté de Génie Mécanique, Université Science et de Technologie d’Oran, Oran, Algeria
,
Djamel Sahela Laboratoire des Carburants Gazeux et Environnement (LCGE), Faculté de Génie Mécanique, Université Science et de Technologie d’Oran, Oran, Algeria;b Département des Sciences Techniques, Université Amar Telidji-Laghouat, Laghouat, Algeria
,
Houari Ameurc Department of Technology, University Centre of Naama, Naama, AlgeriaCorrespondence[email protected] [email protected]
&
Redouane Benzeguira Laboratoire des Carburants Gazeux et Environnement (LCGE), Faculté de Génie Mécanique, Université Science et de Technologie d’Oran, Oran, Algeria
Pages 8505-8515 | Received 28 Dec 2021, Accepted 13 Jun 2022, Published online: 27 Jul 2022

References

  • Ahmed, H. E., and M. I. Ahmed. 2015. “Optimum Thermal Design of Triangular, Trapezoidal and Rectangular Grooved Microchannel Heat Sinks.” International Communications in Heat and Mass Transfer 66: 47–57.
  • Al-Karagoly, M. K. U., M.-B. Ayani, M. Mamourian, and S. R. Bazaz. 2020. “Experimental Parametric Study of a Deep Groove Within a pin fin Arrays Regarding fin Thermal Resistance.” International Communications in Heat and Mass Transfer 115: 104615.
  • Ammar, S. M., N. Abbas, S. Abbas, H. M. Ali, I. Hussain, M. M. Janjua, U. Sajjad, and A. Dahiya. 2019. “Condensing Heat Transfer Coefficients of R134a in Smooth and Grooved Multiport Flat Tubes of Automotive Heat Exchanger: An Experimental Investigation.” International Journal of Heat and Mass Transfer 134: 366–376.
  • Bazkhane, S., and I. Zahmatkesh. 2020. “Taguchi-Based Sensitivity Analysis of Hydrodynamics and Heat Transfer of Nanofluids in a Microchannel Heat Sink (MCHS) Having Porous Substrates.” International Communications in Heat and Mass Transfer 118: 104885.
  • Bilen, K., M. Cetin, H. Gul, and T. Balta. 2009. “The Investigation of Groove Geometry Effect on Heat Transfer for Internally Grooved Tubes.” Applied Thermal Engineering 29: 753–761.
  • Chen, C., J.-T. Teng, C.-H. Cheng, S. Jin, S. Huang, C. Liu, M.-T. Lee, H.-H. Pan, and R. Greif. 2014. “A Study on Fluid Flow and Heat Transfer in Rectangular Microchannels with Various Longitudinal Vortex Generators.” International Journal of Heat and Mass Transfer 69: 203–214.
  • Chin, S.-B., J.-J. Foo, Y.-L. Lai, and T. K.-K. Yong. 2013. “Forced Convective Heat Transfer Enhancement with Perforated Pin Fins.” Heat and Mass Transfer 49: 1447–1458.
  • Eren, M., and S. Caliskan. 2016. “Effect of Grooved Pin-Fins in a Rectangular Channel on Heat Transfer Augmentation and Friction Factor Using Taguchi Method.” International Journal of Heat and Mass Transfer 102: 1108–1122.
  • Ghahremannezhad, A., and K. Vafai. 2018. “Thermal and Hydraulic Performance Enhancement of Microchannel Heat Sinks Utilizing Porous Substrates.” International Journal of Heat and Mass Transfer 122: 1313–1326.
  • Huminic, G., and A. Huminic. 2018. “Hybrid Nanofluids for Heat Transfer Applications – a State-of-the-Art Review.” International Journal of Heat and Mass Transfer 125: 82–103.
  • Kumar, P. 2019. “Numerical Investigation of Fluid Flow and Heat Transfer in Trapezoidal Microchannel with Groove Structure.” International Journal of Thermal Sciences 136: 33–43.
  • Kumar, V., and J. Sarkar. 2020. “Experimental Hydrothermal Characteristics of Minichannel Heat Sink Using Various Types of Hybrid Nanofluids.” Advanced Powder Technology 31: 621–631.
  • Motahari-Nezhad, M., S. Fathi, M. Eftekhari, and A. Adamian. 2020. “Studying the Effect of Different Vortex Generator Geometries and Arrangements on Heat Transfer Performance of Heat Sinks.” ADMT Journal 13: 21–31.
  • Naveenkumar, R., N. Karthikeyan, S. N. Gopan, S. Rajaram, and M. Ravichandran. 2020. “Analysis of Heat Transfer in Grooved Plain Carbon Steel Tube for Solar Applications.” Materials Today: Proceedings 33: 4219–4223.
  • Raihan, M. F., M. T. Al-Asadi, and H. Thompson. 2021. “Management of Conjugate Heat Transfer Using Various Arrangements of Cylindrical Vortex Generators in Micro-Channels.” Applied Thermal Engineering 182: 116097.
  • Sahel, D., H. Ameur, R. Benzeguir, and Y. Kamla. 2016. “Enhancement of Heat Transfer in a Rectangular Channel with Perforated Baffles.” Applied Thermal Engineering 101: 156–164.
  • Sahel, D., H. Ameur, and Y. Kamla. 2017. “A Numerical Study of Fluid Flow and Heat Transfer Over a Fin and Flat Tube Heat Exchangers with Complex Vortex Generators.” The European Physical Journal Applied Physics 78: 34805.
  • Sahel, D., L. Bellahcene, A. Yousfi, and A. Subasi. 2021. “Numerical Investigation and Optimization of a Heat Sink Having Hemispherical Pin Fins.” International Communications in Heat and Mass Transfer 122: 105133.
  • Salman, S., A. A. Talib, S. Saadon, and M. H. Sultan. 2020. “Hybrid Nanofluid Flow and Heat Transfer Over Backward and Forward Steps: A Review.” Powder Technology 363: 448–472.
  • Sarkar, J., P. Ghosh, and A. Adil. 2015. “A Review on Hybrid Nanofluids: Recent Research, Development and Applications.” Renewable and Sustainable Energy Reviews 43: 164–177.
  • Shaeri, M. R., and T.-C. Jen. 2012. “The Effects of Perforation Sizes on Laminar Heat Transfer Characteristics of an Array of Perforated Fins.” Energy Conversion and Management 64: 328–334.
  • Tian, M.-W., S. Rostami, S. Aghakhani, A. S. Goldanlou, and C. Qi. 2021. “A Techno-Economic Investigation of 2D and 3D Configurations of Fins and Their Effects on Heat Sink Efficiency of MHD Hybrid Nanofluid with Slip and Non-Slip Flow.” International Journal of Mechanical Sciences 189: 105975.
  • Tseng, P.-H., K.-T. Tsai, A.-L. Chen, and C.-C. Wang. 2019. “Performance of Novel Liquid-Cooled Porous Heat Sink via 3-D Laser Additive Manufacturing.” International Journal of Heat and Mass Transfer 137: 558–564.
  • Wang, B., Y. Hong, L. Wang, X. Fang, P. Wang, and Z. Xu. 2015. “Development and Numerical Investigation of Novel Gradient-Porous Heat Sinks.” Energy Conversion and Management 106: 1370–1378.
  • Zheng, N., P. Liu, F. Shan, Z. Liu, and W. Liu. 2016. “Heat Transfer Enhancement in a Novel Internally Grooved Tube by Generating Longitudinal Swirl Flows with Multi-Vortexes.” Applied Thermal Engineering 95: 421–432.
  • Zhu, Q., K. Chang, J. Chen, X. Zhang, H. Xia, H. Zhang, H. Wang, H. Li, and Y. Jin. 2020. “Characteristics of Heat Transfer and Fluid Flow in Microchannel Heat Sinks with Rectangular Grooves and Different Shaped Ribs.” Alexandria Engineering Journal 59: 4593–4609.

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