Mr. Sunil kumar

Assistant Professor at Shoolini university and teaches Mathematics. Received M. Tech. degree in engineering education from Panjab University Chandigarh and pursuing PhD from Uttarakhand Technical University, Dehradun in Fluid dynamics. Currently working on heat transfer, fluid flow characteristics and properties of different Nanofluids in heat exchangers.

1. Kumar S., Bhist M. S., Kothiyal A. D., Maithani R., Kumar A. (2019). Effect of nanofluid flow and protrusion transverse ribs on thermal and hydrodynamic performance in square channel: An experimental investigation. Journal of Enhanced Heat Transfer 1(26), 75–100. DOI:1615/JEnhHeatTransf.2018026042
2. Kumar S., Kumar A., Kothiyal A. D., Bisht M.S. (2018). A review of flow and heat transfer behaviour of nanofluids in micro channel heat sinks, Thermal Science and Engineering Progress. 8, 477-493. org/10.1016/j.tsep.2018.10.004
3. Kumar S., Kumar A. (2018). A comprehensive review on the heat transfer and nanofluid flow characteristics in different shaped channels, International Journal of Ambient Energy, DOI: 10.1080/01430750.2018.1530139
4. Kumar S., Kothiyal A. D., Bisht M.S., Kumar A (2018). Effect of ratio of protrusion height to print diameter on thermal behaviour of Al₂O₃-H₂O nanolfuid flow in a protrusion obstacle square channel. Intelligent Communication, Control and Devices. 277-287. DOI: 10.1007/978-981-10-5903-2-30.
5. Singh Y., Kumar S., Maithani R., Gholamalizadeh E., Kumar A. (2018). Development of new correlations for Nusselt number and friction factor of water based nanofluid flow in V-pattern protrusion ribbed square channel, Frontier Journal of Heat and Mass Transfer. 11(33), 1-16. DOI: http://dx.doi.org/10.5098/hmt.11.33
6. Bhardwaj A.K., Kumar A., Maithani R., Kumar R., Kumar S., Chauhan R. (2018). Experimental study on heat transfer and fluid flow enhancement of a spherical shape obstacle solar air passage, Thermal Science, (In press).
7. Kumar S., Kothiyal A. D., Bisht M.S., Kumar A (2017). Turbulent heat transfer and nanofluid flow in a protruded ribbed square passage. Results in Physics, 7, 3603-3618. doi.org/10.1016/j.rinp.2017.09.023.
8. Kumar S., Kothiyal A. D., Bisht M.S., Kumar A. (2017). Numerical analysis of thermal hydraulic performance –nanofluid flowing through a protrusion obstacles square mini channel, Case studies in Thermal Engineering, Elsevier Science, 9, 108-121. org/10.1016/j.csite.2017.01.004
9. Kumar A., Kumar R., maithani R., Chauhan R., Sethi M., Kumari A., Kumar S., Kumar S. (2017). Correlation development for Nusselt number and friction factor of a multiple type V-pattern dimpled obstacles solar air passage, Renewable Energy. 109, 461-479. org/10.1016/j.renene.2017.03.030
10. Singh Y., Kumar A., Nadda R., Maithani R, Kumar R, Kumar S. (2017). Heat Transfer Augmentation of Nanofluid flow in Ribbed Ducts: A Review, IRACST-Engineering Science and Technology: An International Journal, 7 (2017), pp.2250-3498.
11. Sharma V., Kumar S., Kothiyal A. D., A Note on Vorticity of MHD Flow of Continously Moving Vertical Surface with uniform Heat and Mass Transfer. International Journal of stability and Fluid Mechanics (IJSFM).Vol. 3 Issue 1 (2012). Page 1-8. ISSN:2231-475X
12. Sharma V., Kumar S., Kothiyal A. D., A Note on Vorticity of Unsteady MHD Free Convection  Flow with Mass Transfer through Porus Medium past a Porous Vertical Moving Plate. International Journal of stability and Fluid Mechanics (IJSFM).Vol. 3 Issue 1 (2012). Page 19-26. ISSN:2231-475X