MHD Effects on Heat Generation and Absorption in Immiscible Nanofluid Flows through Porous Vertical Channels

Authors: Nitiraj V. Kulkarni et al.

Year: 2025

Venue: Results in Engineering — Article 107964

Publisher: Elsevier

Type: journal (published)

Abstract

Investigates MHD effects on heat generation and absorption in immiscible nanofluid flows through porous vertical channels.

This work intersects with research areas including MHD, heat generation, heat absorption, immiscible nanofluid, porous channels, vertical channels, nanofluid flow, and engineering. It is part of the broader research portfolio of Nitiraj V. Kulkarni in the domain of peer-reviewed academic publishing.

Keywords & Topics

MHD, heat generation, heat absorption, immiscible nanofluid, porous channels, vertical channels, nanofluid flow, engineering

How to Cite

APA

Nitiraj V. Kulkarni et al. (2025). MHD Effects on Heat Generation and Absorption in Immiscible Nanofluid Flows through Porous Vertical Channels. Results in Engineering, Article 107964. Elsevier.

IEEE

Nitiraj V. Kulkarni et al., "MHD Effects on Heat Generation and Absorption in Immiscible Nanofluid Flows through Porous Vertical Channels," Results in Engineering, Article 107964, 2025.

BibTeX

@article{2025_mhd_immiscible_nanofluid_porous_channels,
  title={MHD Effects on Heat Generation and Absorption in Immiscible Nanofluid Flows through Porous Vertical Channels},
  author={Nitiraj V. Kulkarni et al.},
  journal={Results in Engineering},
  year={2025},
  publisher={Elsevier}
}

Identifiers & Links

Publisher link: https://www.sciencedirect.com

Last updated: 2025-01-01

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About the Author

Nitiraj V. Kulkarni is an AI safety and cybersecurity researcher based in Pune, India, with 35+ peer-reviewed publications, 5 patents, 6 copyright registrations, and 15,000+ open datasets published on Kaggle and Zenodo. He serves as a peer reviewer for 11+ international journals and conferences. Read full profile.