A Review on Analysis of Heat Transfer Coefficient in Internal Rib Tube

Authors

  • Rahul Kumar Research Scholar

DOI:

https://doi.org/10.24113/ijoscience.v6i12.355

Keywords:

heat exchanger, rib tube, heat transfer, temperature.

Abstract

The rate of heat transfer is increased by a fin arrangement applied to the rectangular duct. In order to save energy, many industrial heat exchange devices use various techniques to improve heat transfer, such as: B. fins, dimples, vortex chamber and ribbed tabs. The most common technique used to improve heat transfer is to add fins to the flow channel. The ribs are of simple construction and are widely used in many industries. Turbulent kinetic energy generation increases turbulent heat transfer in the duct due to flow disturbances caused by fin arrangements. The shape of the fin plays an important role in improving heat transfer as it affects the formation of bubble separation behind the fin and the amount of turbulent kinetic energy generated.

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Author Biography

Rahul Kumar, Research Scholar

M. Tech.

Technocrats Institute of Technology & Science Bhopal (M.P), India

References

Miss. Ashwini Vasant Thakare, Dr. J. A. Hole “Experimental Validation of Heat Transfer Enhancement in plate Heat Exchanger with Non-Conventional Shapes of Rib” International Journal of Science, Engineering and Technology Research (IJSETR), Volume 5, Issue 3, March 2016.

Miss. Ashwini Vasant Thakare, Dr. Hole J. A. “Review of Heat Transfer Enhancement in Plate Heat Exchanger with Non-Conventional Shapes of Rib” International Journal of Engineering Research & Technology (IJERT) ISSN: 2278-0181 Vol. 4 Issue 02, February-2015

Aadel A. R. Al Kumait Thamir K. Ibrahim “Experimental and numerical study of forced convection heat transfer in different internally ribbed tubes configuration using TiO2 nanofluid” Volume48, Issue5 05 April 2019

Zhanwei Liu, Yanwei Yue “Numerical Analysis of Turbulent Flow and Heat Transfer in Internally Finned Tubes” Energy Res., 18 July 2019.

Slawomir gradziel, Karol Majewski “experimental determination of the heat transfer coefficient in internally rifled tubes”, Gradziel, S., et al.: Experimental Determination of the Heat Transfer Coefficient. thermal SCIENCE: Year 2019, Vol. 23, Suppl. 4, pp. S1163-S1174.

Kute S. B, Sonage B. K “Study of Surface Temperature Distribution of Plain tube and Rifled tube by CFD Analysis” International Research Journal of Engineering and Technology (IRJET), Volume: 05 Issue: 02 | Feb-2018.

Mi-Ae Moon, Min-Jung Park, Kwang-Yong Kim, Evaluation of heat transfer performances of various rib shapes, International Journal of Heat and Mass Transfer , pp. 275284, Jan 2014.

Monsak Pimsarn, Parkpoom Sriromreun, and Pongjet Promvonge, Augmented Heat Transfer in Rectangular Duct with Angled Z-Shaped Ribs, International Conference on Energy and Sustainable Development: Issues and Strategies, 2010.

R. Tauscher, F. Mayinger, Heat transfer enhancement in a plate heat exchanger with rib- roughened surfaces, SAE journal, pp. 207-221, 2009.

Smith Eiamsa-ard, Thermal characteristics of turbulent rib-grooved channel flows, International Communications in Heat and Mass Transfer, pp. 705711, May 2009.

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Published

02/08/2021

How to Cite

Kumar, R. . (2021). A Review on Analysis of Heat Transfer Coefficient in Internal Rib Tube . SMART MOVES JOURNAL IJOSCIENCE, 6(12), 4. https://doi.org/10.24113/ijoscience.v6i12.355