Thermal and Solutal Performance Analysis Featuring Fully Developed Chemically Reacting Micro-Rotational Convective Flow in an Open-Ended Vertical Channel

Authors: Gitte, G.T., Kalyan, S., Saraswathi, H., Kulkarni, V., Jameel, M., Tawade, J.V., Nitiraj V. Kulkarni, Abdullaeva, B., Ghodhbani, R., & Waqas, M.

Year: 2025

Venue: Case Studies in Thermal Engineering — Vol 65, Article 105603

Publisher: Elsevier

Type: journal (published)

Abstract

Analyzes thermal and solutal performance of fully developed chemically reacting micro-rotational convective flow in an open-ended vertical channel.

This work intersects with research areas including thermal analysis, solutal performance, micro-rotational flow, convective flow, vertical channel, chemical reaction, micropolar fluid, and open-ended channel. It is part of the broader research portfolio of Nitiraj V. Kulkarni in the domain of peer-reviewed academic publishing.

Keywords & Topics

thermal analysis, solutal performance, micro-rotational flow, convective flow, vertical channel, chemical reaction, micropolar fluid, open-ended channel

How to Cite

APA

Gitte, G.T., Kalyan, S., Saraswathi, H., Kulkarni, V., Jameel, M., Tawade, J.V., Nitiraj V. Kulkarni, Abdullaeva, B., Ghodhbani, R., & Waqas, M. (2025). Thermal and Solutal Performance Analysis Featuring Fully Developed Chemically Reacting Micro-Rotational Convective Flow in an Open-Ended Vertical Channel. Case Studies in Thermal Engineering, Vol 65, Article 105603. Elsevier.

IEEE

Gitte, G.T., Kalyan, S., Saraswathi, H., Kulkarni, V., Jameel, M., Tawade, J.V., Nitiraj V. Kulkarni, Abdullaeva, B., Ghodhbani, R., & Waqas, M., "Thermal and Solutal Performance Analysis Featuring Fully Developed Chemically Reacting Micro-Rotational Convective Flow in an Open-Ended Vertical Channel," Case Studies in Thermal Engineering, Vol 65, Article 105603, 2025.

BibTeX

@article{2025_thermal_solutal_micro_rotational_convective_flow,
  title={Thermal and Solutal Performance Analysis Featuring Fully Developed Chemically Reacting Micro-Rotational Convective Flow in an Open-Ended Vertical Channel},
  author={Gitte, G.T., Kalyan, S., Saraswathi, H., Kulkarni, V., Jameel, M., Tawade, J.V., Nitiraj V. Kulkarni, Abdullaeva, B., Ghodhbani, R., & Waqas, M.},
  journal={Case Studies in Thermal Engineering},
  year={2025},
  publisher={Elsevier}
}

Identifiers & Links

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

Last updated: 2025-01-01

Related Publications

Effects of Exponentially Stretching Sheet for MHD Williamson Nanofluid with Chemical Reaction and Thermal Radiative — Partial Differential Equations in Applied Mathematics, 2024
Effect of Williamson Nanofluid Across an Exponentially Stretched Sheet with Chemical Reaction Under the Influence of Joule Heating — International Journal of Applied and Computational Mathematics, 2025
Optimizing Nanoparticle Dispersion and Heat Transfer in Williamson Nanofluids Under Magnetic Influence — Pending, 2025
Thermoelectric Energy Harvesting from Geothermal Micro-Seepage — International Journal of Hydrogen Energy, 2024
Numerical Solutions for Unsteady Laminar Boundary Layer Flow and Heat Transfer over a Horizontal Sheet with Radiation and Nonuniform Heat Source/Sink — Journal of Radiation Research and Applied Sciences, 2024
Heat Transfer Mechanism for Newtonian and Non-Newtonian Casson Hybrid Nanofluid Subject to Thermophoresis and Brownian Motion over a Movable Wedge Surface — Multiscale and Multidisciplinary Modeling, Experiments and Design, 2025

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.