Research Activities

Following are the research articles published by the faculty of the department.Dr. Madhura K R:
  1. Pulsatile Flow of Unsteady Dusty Fluid through Porous Media in Anholonomic Co-ordinate System. Proceedings of the Jangjeon Mathematical Society, 10(2), (2007), pp. 173-183.
  2. Pulsatile Flow of a Dusty Fluid through Porous Media in an Open Rectangular Channel. International Journal of Mathematics and Computation, CESER Publications, Vol. 5, No. D09, December 2009, pp. 61-73. ISSN – 0974-570X (Online); ISSN – 0974 5718
  3. Exact Solutions of Unsteady Dusty Fluid Flow through Porous Media in an Open Rectangular Channel. Advances in Theoretical and Applied Mechanics, Hikari Ltd., Vol. 2, 2009, No. 1-4, pp. 1-17. ISSN – 1313-6550. (Impact Factor: 1.429).
  4. Flow of an Unsteady Dusty Fluid through Porous Media between Two Parallel Plates with One of the Horizontal Moving Plate is Suddenly Stopped. International Review of Physics, Vol. 4 No. 2, April 2010, pp. 61-68. ISSN – 1971-680X. (Impact Factor: 0.786).
  5. Flow of an Unsteady Dusty Fluid through Porous Media in a Channel of Triangular Cross-section. International Review of Physics, Vol. 4 No. 6, December 2010, pp. 315-326. ISSN – 1971-680X. (Impact Factor: 0.786).
  6. Unsteady Flow of a Dusty Fluid Flow through Porous Media between Annulus of Two Hexagonal Channels. International Journal of Applied Mathematics & Statistics, Vol. 27, No. 3, 2012, pp. 20-38. ISSN: 0973-7545. (Impact Factor: 0.18 – Scopus Recognized Journal).
  7. Flow of an Unsteady Dusty Fluid through Porous Media in a Uniform Pipe with Sector of a Circle as Cross-section. International Journal of Pure and Applied Mathematics, Vol. 76 No. 1, 2012, pp. 29-47. ISSN: 1311-8080. (Impact Factor: 3.83 – Scopus Recognized Journal).
  8. Flow of an Unsteady Dusty Fluid through Porous Media between a Non-torsional Oscillating Plate and a Long Wavy Wall. Journal of Applied Mathematics and Fluid Mechanics, Vol. 4 No.2, 2012, pp. 165-180. ISSN 0974-3170.
  9. Flow of an Unsteady Dusty Fluid Flow between Horizontal Moving Plate and a Long Wavy Wall, International Review of Physics, Vol. 6 No. 1, February 2012, pp. 36-48. ISSN – 1971-680X. (Impact Factor: 0.786).
  10. Thermal Effect on Unsteady Flow of a Dusty Visco-elastic Fluid between Two Parallel Plates under Different Pressure Gradients. International Journal of Science and Technology, Vol. 2 No. 2, 2013, pp. 88-99. ISSN 2227-524X. (Impact Factor: 0.8470).
  11. Flow of an Unsteady Conducting Dusty Fluid through a Channel of Triangular Cross-section. International Journal of Pure and Applied Mathematical Sciences, Vol. 6 No. 3, (2013), pp. 273-298. ISSN 0972-9828.
  12. Study of Thermal Effect on Unsteady Flow of a Visco-Elastic Fluid under Pulsatile Pressure Gradient. International Journal of Applied Mathematical Sciences, Vol. 7 No. 1, 2014, pp. 15-32. ISSN 0973-0176. (Impact Factor: 0.85).
  13. Analytical Solutions for a Dusty Fluid Flow through a Narrowing Channel in a Porous Medium. Advances and Applications in Fluid Mechanics, Vol. 16 No. 2, (2014), pp. 207-221. ISSN: 0973-4686. (Scopus Recognized Journal).
  14. Flow of an Unsteady Dusty Fluid through a Hexagonal Channel in Presence of Porous Medium. International Journal of Applied Mathematics and Statistics, Vol. 52 No. 8, 2014, CESER Publication ISSN 0973-7545. (Recognized Thomson Reuters).
  15. Numerical Scrutiny for Thermal Diffusion and Chemical Reaction on Unsteady Dusty Visco Elastic Fluid Flow in a Irregular Channel through Porous Medium. Global Journal of Engineering Research and Technology, Vol 6, No 1, pp-1-23, ISSN: 2249-3107. (Impact Factor: 2.38).
  16. Conducting Dusty Fluid Flow through a Constriction in a Porous Medium, International Journal of Applied Mathematical Research, 5(1), pp29-38. ISSN: 2227-4324. (Impact Factor: 0.7578).
  17. The Impact of Beltrami Effect on Dusty Fluid Flow through Hexagonal Channel in Presence of Porous Medium, Applied Mathematics and Computation, (Elsevier Publication). Vol. 313, Issue C, Nov. 2017, pp. 342-354. ISSN: 0096-3003 doi>10.1016/j.amc.2017.06.016.
  18. Impact of heat and mass transfer on mixed convective flow of nanofluid through porous medium, International Journal of Applied and Computational Mathematics, Vol. 3, Supplement 1, pp.1361-1384, ISSN: 2199-5796 (Online) DOI 10.1007/s40819-017-0424-3, 2017 (Springer Publication).
  19. Computational study on heat transfer of MHD dusty fluid flow under variable viscosity and variable pressure down an inclined irregular porous channel, International Journal of Emerging Technology and Advanced Engineering, 7(11), Nov. 2017, pp.358-369. ISSN 2250-2459, ISO 9001:2008 Certified Journal. (Impact Factor: 6.531).
  20. A Study on Thermal Diffusion and Chemical Reaction on Pulsatile Flow of a Dusty Fluid through an Irregular Channel in the Presence of Porous Medium International Journal of Advanced Trends in Engineering and Technology (IJATET), 2(2), 2017, pp.204-214. ISSN (Online): 2456 4664 http://doi.org/10.5281/zenodo.1069080 (Impact Factor: 5.665).
  21. Consequences of volume fraction of dust particles on fluid flow past a porous triangular geometry, International Journal of Mathematics Trends and Technology, 51(3), 2017, pp. 215-236, ISSN:2231-5373 doi> 10.14445/22315373/IJMTT-V51P529. (Impact Factor: 2.53).
  22. Influence of volume fraction of dust particles on dusty fluid flow through porous rectangular channel, International Journal of Mathematics Trends and Technology, 50(5), 2017, pp.261-275, ISSN:2231-5373, doi> 10.14445/22315373/IJMTT-V50P543. (Impact Factor: 2.53).
  23. Analysis of Heat Transfer and Thermal Radiation on Natural Convective Flow of Fractional Nanofluids. Journal of Nanofluids, 5(8), 2019, pp.1158-1169. (Online), (American Scientific Publishers, Scopus and UGC Recognized Journal with Impact Factor: 0.857).
  24. Impact of Temperature-dependent Viscosity and Thermal Conductivity on MHD Boundary Layer Flow of Two-phase Dusty Fluid through Permeable Medium. Engineering Science and Technology, an International Journal, https://doi.org/10.1016/j.jestch.2018.10.009, ISSN: 2215-0986, (Available Online) 5(8), 2019. (Elsevier Publication with Impact Factor: 0.857).
  25. Influence of Inclined Magnetic Field and Heat Transfer on Flow of Unsteady Dusty Porous Channel. Advances and Applications in Fluid Mechanics, 22(1), 2019, pp.59-89. (Scopus and UGC Recognized Journal with Impact Factor: 2.06).
  26. Numerical Computation on Marangoni Convective Flow of Two-Phase MHD Dusty Nanofluids under Brownian Motion and Thermophoresis Effects, Heat Transfer – Asain Research, ISSN 1523-1496, 2019, pp:1-25, (Wiley Publication, Scopus and UGC Recognized Journal).
  27. Numerical Investigation on Connective Flow of Two-Phase MHD Dusty Nanofluids over a Wavy Surface with Browian Motion and Thermophoresis Effects, International Journal of Applied and Computational Mathematics, ISSN 2349-5103, Volume 8, 2019, pp:62, (Springer Publication, Scopus Recognized Journal).
  28. Heat and Mass Transfer Rate of MHD Fluid Flow under the Influence of Radiatve Effect and Different Pressure Gradients, Studies in Indian Place Names, Volume 40, 2020, pp. 427-439, (UGC Recognized Journal).
  29. Thermal Performance of Straight Porous Fin with Variable Thermal Conductivity under Magnetic Field and Radiation Effects, Heat Transfer- Asian Research, 2020, pp.1-18, https://doi.org/10.1002/htj.21864 (Wiley Publication, Scopus and UGC Recognized Journal).
  30. Investigation on Thermal Distribution and Heat Transfer Rate of Fins with various Geometries, Advances in Intelligent Systems and Computing (Proceedings of International Conference on Trends in Computational and Cognitive Engineering), 484998_1_En_22_Chapter. (Springer Publication, Scopus Recognized Journal).
  31. An Analysis on Peristaltic Motion of Dusty Jeffrey Fluid past a Planar Channel. (Communicated).
  32. Influence of Nanoparticles Shapes on Natural Convection Flow with Heat and Mass Transfer Rates of Fractional Nanofluids. (Communicated)
  33. Analysis of thermal performance, efficiency and effectiveness of straight porous fin with variable thermal conductivity. (Communicated)