Dr. Laxmipriya Swain
Assistant Professor
Mathematics
National Institute of Technology Arunachal pradesh
0
Fluid Dynamics
Fluid Dynamics
Assistant Professor
Mathematics
National Institute of Technology Arunachal pradesh
0
Fluid Dynamics
Fluid Dynamics
Ph.D in Fluid Dynamics from National Institute of Technology, Arunachal pradesh
M.Sc in Mathematics From Odisha University of Agriculture and Technology,Bhubaneswar
B.Sc in Mathematics From Utkal university,Odisha
8. Laxmipriya Swain, Ram Prakash Sharma, SR Mishra, Subhajit Panda, Nanofluid-based bio-thermal reactors for organic waste decomposition using 3D flow through a parallel channel with a nonuniform heat source and chemical reaction, International Journal of Modern Physics B 2550269(2025) https://doi.org/10.1142/S0217979225502698
8. Laxmipriya Swain, Ram Prakash Sharma, SR Mishra, Subhajit Panda, Nanofluid-based bio-thermal reactors for organic waste decomposition using 3D flow through a parallel channel with a nonuniform heat source and chemical reaction, International Journal of Modern Physics B 2550269(2025) https://doi.org/10.1142/S0217979225502698
7. Laxmipriya Swain, Subhajit Panda, S. R. Mishra , Rupa Baithalu ,Dissipative heat impact on the non-Newtonian Walter-B’ nanoliquid over an elongating surface through a permeable medium, Asia-Pacific Journal of Chemical Engineering (2025) https://doi.org/10.1002/apj.70140
6. S. R. Mishra, Ram Prakash Sharma, Rupa Baithalu, Laxmipriya Swain, Flow of elastico-viscous nanofluid through an elongating surface with dissipative heat: A confluent hypergeometric solution, Asia-Pacific Journal of Chemical Engineering (2025)
5. S. R. Mishra, Ram Prakash Sharma, Rupa Baithalu, Laxmipriya Swain, Analytical approach on free convection of time-dependent Casson fluid over vertical expanding surface with Hall current, Physics of fluid, 37 (8), 083123(2025), I.F-4.6, HI-203, Q1https://doi.org/10.1063/5.0285580
4. Swain, L., Sharma, R.P. & Mishra, S.R. Diversified role of nanoparticle concentration and radiating heat on the natural convection Couette flow through a vertical channel. Colloid Polym Sci , 302 (10), 1687-1700(2025)Q2.https://doi.org/10.1007/s00396-024-05294-3
3. Swain, L., Sharma, R. P., & Mishra, S. R. (2025). Analysis of bio-convection-driven conducting flow of Williamson nanofluid through an expanding surface with activation energy. Journal of Thermal Analysis and Calorimetry, 150, 5617–5627 (2025)Q2. https://doi.org/10.1007/s10973-025-14026-w
2. Mishra, S. R., Sharma, R. P., & Swain, L. (2024). Illustration of Joule dissipation on the time- dependent stagnation point flow of nanofluid through a porous surface. International Journal of Modern Physics B,Q1, 38(05), 2450077. https://doi.org/10.1142/S0217979224500772