Lavanya, B.; Kumar, J.G.; Babu, M.J.; Raju, C.S.; Shah, N.A.; Junsawang, P.
Irreversibility Analysis in the Ethylene Glycol Based Hybrid Nanofluid Flow amongst Expanding/Contracting Walls When Quadratic Thermal Radiation and Arrhenius Activation Energy Are Significant. Mathematics 2022, 10, 2984.
https://doi.org/10.3390/math10162984
AMA Style
Lavanya B, Kumar JG, Babu MJ, Raju CS, Shah NA, Junsawang P.
Irreversibility Analysis in the Ethylene Glycol Based Hybrid Nanofluid Flow amongst Expanding/Contracting Walls When Quadratic Thermal Radiation and Arrhenius Activation Energy Are Significant. Mathematics. 2022; 10(16):2984.
https://doi.org/10.3390/math10162984
Chicago/Turabian Style
Lavanya, Bommana, Jorige Girish Kumar, Macherla Jayachandra Babu, Chakravarthula Sivakrishnam Raju, Nehad Ali Shah, and Prem Junsawang.
2022. "Irreversibility Analysis in the Ethylene Glycol Based Hybrid Nanofluid Flow amongst Expanding/Contracting Walls When Quadratic Thermal Radiation and Arrhenius Activation Energy Are Significant" Mathematics 10, no. 16: 2984.
https://doi.org/10.3390/math10162984
APA Style
Lavanya, B., Kumar, J. G., Babu, M. J., Raju, C. S., Shah, N. A., & Junsawang, P.
(2022). Irreversibility Analysis in the Ethylene Glycol Based Hybrid Nanofluid Flow amongst Expanding/Contracting Walls When Quadratic Thermal Radiation and Arrhenius Activation Energy Are Significant. Mathematics, 10(16), 2984.
https://doi.org/10.3390/math10162984