Year : 2023
Irreversibility Analysis for Peristaltic Transport flow of a Phan-Thien-Tanner Nanofluid past an Asymmetric Channel with Lorentz Forces
Cite this Research Publication : J. U. Viharika., D. L. Mahendra., V. Ramanjini ., Umair Khan., Ioannis E. Sarris., El-Sayed M. Sherif., Ahmed M. Hassan., “Irreversibility Analysis for Peristaltic Transport flow of a Phan-Thien-Tanner Nanofluid past an Asymmetric Channel with Lorentz Forces ”. Accepted in Scientific Reports , SCOPUS and Web of Science. I.F. 4.997.
Year : 2023
Nonlinear dynamics of blood passing through an overlapped stenotic artery with copper nanoparticles
Cite this Research Publication : Hanumesh Vaidya, Isaac Lare Animasaun ., Prasad, K. V., Rajashekhar, C., Viharika, J. U., “ Nonlinear dynamics of blood passing through an overlapped stenotic artery with copper nanoparticles ”, Journal of Non-Equilibrium Thermodynamics , vol. 48(2), pp. 159-178. SCOPUS and Web of Science, I. F. 4.290.
Year : 2023
Entropy analysis on the bioconvective peristaltic flow of gyrotactic microbes in Eyring-Powell nanofluid through an asymmetric channel
Cite this Research Publication : D. L. Mahendra., J. U. Viharika., V. Ramanjini ., O. D. Makinde., U. B. Vishwanatha ., “ Entropy analysis on the bioconvective peristaltic flow of gyrotactic microbes in Eyring-Powell nanofluid through an asymmetric channel ”, Journal of the Indian Chemical Society , vol. 100(3), pp. 100935, SCOPUS and Web of Science, I.F. 0.243.
Publisher : Elsevier
Year : 2023
Bioconvection Peristaltic Transport of Nano Eyring-Powell Fluid in an Asymmetric Channel Containing Gyrotactic Microorganism
Cite this Research Publication : Hanumesh Vaidya, Prasad, K. V., Vajravelu , K., Rajashekar, C., Viharika, J. U., “Bioconvection Peristaltic Transport of Nano Eyring-Powell Fluid in an Asymmetric Channel Containing Gyrotactic Microorganism ”, Journal of Nanofluids , vol. 12 (1), pp. 115-135. SCOPUS and Web of Science, I.F. 1.74.
Publisher : Ingenta Connect
Year : 2021
MHD Peristaltic Flow of Nanofluid in a Vertical Channel with Multiple Slip Features: An Application to Chyme Movement
Cite this Research Publication : Hanumesh Vaidya., Rajashekhar, C., Prasad, K. V., Sami Ullah Khan., Arshad Riaz., Viharika, J. U., “MHD Peristaltic Flow of Nanofluid in a Vertical Channel with Multiple Slip Features: An Application to Chyme Movement ”, Biomechanics and Modeling in Mechanobiology , vol. 20(3) pp. 1047-1067. SCOPUS and Web of Science, I.F. 2.963.
Publisher : SpringerLink
Year : 2020
Slip flow of MHD Casson fluid in an inclined Channel with variable transport properties
Cite this Research Publication : Prasad, K. V., Hanumesh Vaidya., Rajashekar, C., Sami Ullah Khan., Manjunatha, G., Viharika, J. U., “Slip flow of MHD Casson fluid in an inclined Channel with variable transport properties ”, Communications in Theoretical Physics, vol. 72, pp. 095004. SCOPUS and Web of Science, I.F. 1.968.
Publisher : IOP Science
Year : 2019
Impact of variable transport properties and slip effects on MHD Jeffery fluid flow through channel
Cite this Research Publication : Manjunatha, G., Rajashekar. C., Hanumesh Vaidya., Prasad, K. V., Makinde, O D., Viharika, J. U., “Impact of variable transport properties and slip effects on MHD Jeffery fluid flow through channel ”, Arabian Journal of Science and Engineering , vol. 45, pp. 417-428. SCOPUS and Web of Science, I.F. 2.334.
Publisher : SpringerLink
Year : 2019
The effects of convective and porous conditions on peristaltic transport of non-Newtonian fluid through a non-uniform channel with wall properties
Cite this Research Publication : Manjunatha, G., Hanumesh Vaidya, Divya, B. B., Rajashekhar, C., Prasad, K. V., Viharika, J. U., “The effects of convective and porous conditions on peristaltic transport of non-Newtonian fluid through a non-uniform channel with wall properties ”, Journal of Advanced Research in Fluid Mechanics and Thermal Sciences , vol. 63(1), pp. 52-71. SCOPUS, I.F. 1.39.
Publisher : Archives of akademia baru articles
Year : 2019
Influence of convective conditions on the peristaltic mechanism of Power-law fluid through a slippery elastic porous tube with different waveforms
Cite this Research Publication : Manjunatha, G., Rajashekar, C., Hanumesh, V., Prasad, K. V., Viharika, J. U., “Influence of convective conditions on the peristaltic mechanism of Power-law fluid through a slippery elastic porous tube with different waveforms ”, Multidisciplinary Modeling in Material Sciences , vol. 16(2), pp. 340-358. SCOPUS and Web of Science.
Publisher : Emerald insight