Satya Prakash Kar
Satya Prakash Kar
Associate Professor
Dr. Satya Prakash Kar is Associate Professor in School of Mechanical Engineering at KIIT Deemed to be University, Bhubaneswar, India. He received his Ph. D degree in Mechanical Engineering from IIT Bhubaneswar. He completed his M. Tech.(Thermal Engineering) from NIT Rourkela and Bachelor of Engineering from U. C. E. Bural (Now V. S.S. U.T). His research interests are Phase Change Heat Transfer, Bio-Heat Transfer Computational Fluid Dynamics.
Profile Links
Email :
[email protected]
Scopus Id :
57189871105
Google Scholar :
https://scholar.google.com/citations?user=DN-9r4IAAAAJ&hl=en
Social Links
Educational Qualification
Ph. D.
Research Interests
Phase Change Heat Transfer, Bio Heat Transfer, Laser Material Processing
Projects
1.CO-PI in DST-SERB project titled "" Two Phase Heat Transfer Over Metal Foams"" (Ongoing)
2. Mentor of ISHRAE PG project work titled “Experimental and Numerical investigation of cooling of building room using phase change material” "
Administrative Responsibility
Program Head (M. Tech. Thermal Engineering), FIC Time Table, FIC Heat Transfer Laboratory
Memberships
Life Time member of Indian Society for Heat and Mass Transfer, Member of ISHRAE
Ph. D.
Research Interests
Phase Change Heat Transfer, Bio Heat Transfer, Laser Material Processing
Projects
1.CO-PI in DST-SERB project titled "" Two Phase Heat Transfer Over Metal Foams"" (Ongoing)
2. Mentor of ISHRAE PG project work titled “Experimental and Numerical investigation of cooling of building room using phase change material” "
Administrative Responsibility
Program Head (M. Tech. Thermal Engineering), FIC Time Table, FIC Heat Transfer Laboratory
Memberships
Life Time member of Indian Society for Heat and Mass Transfer, Member of ISHRAE
Journals/Conferences :
1.Sukumar, S., & Kar, S. P. (2023). Numerical investigation of a novel method of laser assisted cryopreservation of biological tissue considering non-fourier heat conduction. Lasers in Medical Science, 38(1), 98.
2.Mahapatra, A. S., Kar, S. P., & Swain, A. (2023). Effect of surfactant on saturated pool boiling over porous coated surface. Journal of Enhanced Heat Transfer, 30(1).
3.Das, P., Kar, S. P., & Sarangi, R. K. (2022). Review on thermal performance of heat exchanger using phase change material. International Journal of Energy Research, 46(12), 16208-16240.
4.Kundu, R., Kar, S. P., & Sarangi, R. (2022). Performance enhancement with inorganic phase change materials for the application of thermal energy storage: A critical review. Energy Storage, 4(5), e320.
5.Mahapatra, A. S., Kar, S. P., & Swain, A. (2022). Experimental analysis of saturated pool boiling of acetone and isopropanol with added surfactant sodium lauryl sulfate over aluminum surface. Heat Transfer, 51(5), 3853-3868.
6.Sukumar, S., & Kar, S. P. (2021). Numerical analysis of non-Fourier phase-change heat transfer in biological tissues with the addition of nanoparticles. Computational Thermal Sciences: An International Journal, 13(3).
7.Sukumar, S., Kar, S. P., Swain, A., Sarangi, R. K., & Sekhar, P. C. (2020). A Combined CFD, ANFIS and NSGA-II Model for Repetitive Pulse Laser Drilling Process. Lasers in Manufacturing and Materials Processing, 7(4), 449-477.
8.Sukumar, S., & Kar, S. P. (2020). A combined conduction–radiation model for analyzing the role of radiation on freezing of a biological tissue. Journal of Thermal Science and Engineering Applications, 12(1), 011015.
9.Kar, S. P., & Rath, P. (2019). A continuum mixture model for moving pulsed laser phase change process. International Journal of Thermal Sciences, 140, 388-396.
10.Sukumar, S., & Kar, S. P. (2019). Numerical analysis of an enhanced cooling rate cryopreservation process in a biological tissue. Journal of thermal biology, 81, 146-153.
11.Sukumar, S., & Kar, S. P. (2019). A numerical approach for a comparative study of laser drilling process under single and repetitive pulse. Heat Transfer—Asian Research, 48(1), 300-322.
12.Kar, S. P., & Rath, P. (2016). A Conduction–Radiation Mixture Model for Laser-Assisted Phase Change of Semitransparent Material. Heat Transfer Engineering, 37(16), 1427-1438. 13
13.Kar, S. P., & Rath, P. (2014). A fixed-grid based mixture model for pulsed laser phase change process. Computational Thermal Sciences: An International Journal, 6(1).
14.Kar, S. P., & Rath, P. (2013). A phase density based enthalpy model for laser assisted phase change process. International communications in heat and mass transfer, 40, 12-18.
1.Sukumar, S., & Kar, S. P. (2023). Numerical investigation of a novel method of laser assisted cryopreservation of biological tissue considering non-fourier heat conduction. Lasers in Medical Science, 38(1), 98.
2.Mahapatra, A. S., Kar, S. P., & Swain, A. (2023). Effect of surfactant on saturated pool boiling over porous coated surface. Journal of Enhanced Heat Transfer, 30(1).
3.Das, P., Kar, S. P., & Sarangi, R. K. (2022). Review on thermal performance of heat exchanger using phase change material. International Journal of Energy Research, 46(12), 16208-16240.
4.Kundu, R., Kar, S. P., & Sarangi, R. (2022). Performance enhancement with inorganic phase change materials for the application of thermal energy storage: A critical review. Energy Storage, 4(5), e320.
5.Mahapatra, A. S., Kar, S. P., & Swain, A. (2022). Experimental analysis of saturated pool boiling of acetone and isopropanol with added surfactant sodium lauryl sulfate over aluminum surface. Heat Transfer, 51(5), 3853-3868.
6.Sukumar, S., & Kar, S. P. (2021). Numerical analysis of non-Fourier phase-change heat transfer in biological tissues with the addition of nanoparticles. Computational Thermal Sciences: An International Journal, 13(3).
7.Sukumar, S., Kar, S. P., Swain, A., Sarangi, R. K., & Sekhar, P. C. (2020). A Combined CFD, ANFIS and NSGA-II Model for Repetitive Pulse Laser Drilling Process. Lasers in Manufacturing and Materials Processing, 7(4), 449-477.
8.Sukumar, S., & Kar, S. P. (2020). A combined conduction–radiation model for analyzing the role of radiation on freezing of a biological tissue. Journal of Thermal Science and Engineering Applications, 12(1), 011015.
9.Kar, S. P., & Rath, P. (2019). A continuum mixture model for moving pulsed laser phase change process. International Journal of Thermal Sciences, 140, 388-396.
10.Sukumar, S., & Kar, S. P. (2019). Numerical analysis of an enhanced cooling rate cryopreservation process in a biological tissue. Journal of thermal biology, 81, 146-153.
11.Sukumar, S., & Kar, S. P. (2019). A numerical approach for a comparative study of laser drilling process under single and repetitive pulse. Heat Transfer—Asian Research, 48(1), 300-322.
12.Kar, S. P., & Rath, P. (2016). A Conduction–Radiation Mixture Model for Laser-Assisted Phase Change of Semitransparent Material. Heat Transfer Engineering, 37(16), 1427-1438. 13
13.Kar, S. P., & Rath, P. (2014). A fixed-grid based mixture model for pulsed laser phase change process. Computational Thermal Sciences: An International Journal, 6(1).
14.Kar, S. P., & Rath, P. (2013). A phase density based enthalpy model for laser assisted phase change process. International communications in heat and mass transfer, 40, 12-18.