Waste Heat Recovery From The Hot Water Boiling Plant Analysis using CFD

  • D. D. Palande Department of Mechanical Engineering Matoshri college of Engineering & Research centre Nasik Maharastra India
  • N.C. Ghuge Department of Mechanical Engineering Matoshri college of Engineering & Research centre Nasik Maharastra India
  • Chetan R. Dapase Department of Mechanical Engineering Matoshri college of Engineering & Research centre Nasik Maharastra India
DOI: https://doi.org/10.22545/2022/00182
Keywords: Finned Heat Pipe, Nusselt Number, Euler Number and Convection.

Abstract

To fulfil the world's growing need for fossil fuel energy, renewable energy harvesting is required, and the rate of depletion of non-renewable energy sources must be slowed. Currently, many of these techniques are available, but with less effectiveness than before. These techniques result in a long payback period of investment. The goal of this research is to look at many elements of convective heat transfer enhancement using finned heat pipes, as well as the recovery of industrial waste heat. To validate these new energy-saving concepts, ANSYS 2020 R1 is used, including control strategies and simulation techniques. An integrated waste heat recovery system using finned heat pipes is having a significant effect on overall efficiency. The efficiency is increased by 10.5%–18.8% for various load conditions.

Published
2022-05-06
How to Cite
Palande, D. D., Ghuge, N., & Dapase, C. R. (2022). Waste Heat Recovery From The Hot Water Boiling Plant Analysis using CFD. Transdisciplinary Journal of Engineering & Science, 13. https://doi.org/10.22545/2022/00182
Issue
Vol 13 (2022)
Section
Special Issue: “Current and Future Challenges in Energy Issues”