Experimental Study of Convective Heat Transfer by Using Aluminum Pin-Fin with Metal Matrix Composites


Authors : Mr. MANAPALLI SRIKANTH; P. NANDA GOPAL RAJU

Volume/Issue : Volume 8 - 2023, Issue 6 - June

Google Scholar : https://bit.ly/3TmGbDi

Scribd : https://tinyurl.com/4bze8mc2

DOI : https://doi.org/10.5281/zenodo.8133683

Abstract : Augmentati0n of heat transfer is a crucial aspect in various engineering applicati0ns, and pin fins have proven to be effective heat transfer enhancement devices. This study focuses on investigating the augmentation of heat transfer for different materials of pin fins.An experimental investigation has considered to evaluate the heat transfer performance of pin fins made from different materials. The results demonstrate that the ch0ice of material significantly influences the heat transfer characteristics of pin fins. Materials with high thermal conductivity and low surface roughness exhibit enhanced heat transfer rates. For heat dissipation, parameters like density, thermal conductivity and heat transfer coefficients are taken into c0nsideration and surface area is kept same. This study provides valuable insights into the augmentation of heat transfer for different materials of pin fins. The findings aid in material selection and 0ptimization of pin fins for various engineering applications, including heat exchangers, electronics cooling, and gas turbines, where efficient heat dissipation is crucial.

Keywords : Heat Transfer Rate: Nusselt’s Number: Heat Transfer Coefficient.

Augmentati0n of heat transfer is a crucial aspect in various engineering applicati0ns, and pin fins have proven to be effective heat transfer enhancement devices. This study focuses on investigating the augmentation of heat transfer for different materials of pin fins.An experimental investigation has considered to evaluate the heat transfer performance of pin fins made from different materials. The results demonstrate that the ch0ice of material significantly influences the heat transfer characteristics of pin fins. Materials with high thermal conductivity and low surface roughness exhibit enhanced heat transfer rates. For heat dissipation, parameters like density, thermal conductivity and heat transfer coefficients are taken into c0nsideration and surface area is kept same. This study provides valuable insights into the augmentation of heat transfer for different materials of pin fins. The findings aid in material selection and 0ptimization of pin fins for various engineering applications, including heat exchangers, electronics cooling, and gas turbines, where efficient heat dissipation is crucial.

Keywords : Heat Transfer Rate: Nusselt’s Number: Heat Transfer Coefficient.

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