Dr. Pramod Kuntikana
Assistant Professor
Department
pramodkuntikana@iitpkd.ac.in
Email Me
Teaching
At IIT Palakkad:
Aug. 2020 to Dec. 2020:
- ME3030 Combustion and IC Engines
- ME1130 Engineering Drawing (Co-teacher)
Jan. 2021 to May. 2021:
- ME1020 Engineering Thermodynamics (Co-teacher)
- ME3020 Applied Thermo-fluids Engineering
- ME3190 Mechanical Engineering Laboratory I (Co-teacher)
Aug. 2021 to Dec. 2021:
- ME3030 Combustion and IC Engines
- ME5621 Fluid Dynamics (Co-teacher)
Research Area
Experimental heat transfer, fluid flow and combustion
Renewable and conventional energy sources
Thermo physical property measurements and instrumentation
Appropriate technology
Additional Information
Title
Journal Publications
Description
- P. Kuntikana, S. V. Prabhu, " Impinging premixed methane-air flame jet of tube burner: Thermal performance analysis for varied equivalence ratios", Heat and Mass Transfer 55 (2019) 1301-1315.
- V.C. Raj, P. Kuntikana, S. Sreedhara, S.V. Prabhu, “Heat transfer characteristics of impinging methane diffusion and partially premixed flames”, International Journal of Heat and Mass Transfer 129 (2019) 873-893.
- V.C. Raj, P. Kuntikana, S. Sreedhara, S.V. Prabhu, “Separation of heat transfer components from impinging methane diffusion flames”, International Journal of Heat and Mass Transfer 126 (2018) 123-138.
- P. Kuntikana, S.V. Prabhu, “Heat transfer investigations on impinging flame jets of a multi-port convex burner”, Applied Thermal Engineering 142 (2018) 793-814.
- P. Kuntikana, S.V. Prabhu, “Heat transfer investigations on methane-air premixed flame jet exiting from a circular nozzle and impinging over semi-cylindrical surfaces”, International Journal of Thermal Sciences 128 (2018) 105–123.
- P. Kuntikana, S. V. Prabhu, “Thermal investigations on methane-air premixed flame jets of multiport burners”, Energy 123 (2017) 218–228.
- P. Kuntikana, S. V. Prabhu, “Effect of mixture composition on heat transfer characteristics of impinging methane-air flame jets of tube burners equipped with twisted tapes”, International Journal of Thermal Sciences 111 (2017) 409–422.
- P. Kuntikana, S. V. Prabhu, “Heat transfer characteristics of premixed methane– air flame jet impinging obliquely onto a flat surface”, International Journal of Heat and Mass Transfer 101 (2016) 133–146.
- V. Hindasageri, P. Kuntikana, A.R. Tajik, R.P. Vedula, S.V. Prabhu, “Axis switching in impinging premixed methane-air flame jets”, Applied Thermal Engineering 107 (2016) 144-153.
- P. Kuntikana, S. V. Prabhu, “Air jet impingement technique for thermal characterisation of premixed methane-air impinging flame jets”, Applied Thermal Engineering 99 (2016) 905- 918.
- P. Kuntikana, S. V. Prabhu, “Isothermal air jet and premixed flame jet impingement: Heat transfer characterisation and comparison”, International Journal of Thermal Sciences 100 (2016) 401-415.
- V. Hindasageri, P. Kuntikana, R.P. Vedula, S.V. Prabhu, “An experimental and numerical investigation of heat transfer distribution of perforated plate burner flames impinging on a flat plate”, International Journal of Thermal Sciences 94 (2015) 156-169.
- A.R. Tajik, P. Kuntikana, S.V. Prabhu, V. Hindasageri, "Effect of preheated mixture on heat transfer characteristics of impinging methane–air premixed flame jet", International Journal of Heat and Mass Transfer 86 (2015) 550-562.
- R. Vinze, A. Khade, P. Kuntikana, M. Ravitej, B. Suresh, V. Kesavan, S.V. Prabhu, “Effect of dimple pitch and depth on jet impingement heat transfer over dimpled surface impinged by multiple jets”, International Journal of Thermal Sciences Manuscript No. THESCI 105974 (Accepted).
- P. Kuntikana, S. V. Prabhu, “Thermal investigations on self-aspirating type radial flow burners with induced swirl”. Applied Thermal Engineering Manuscript No. ATE_2019_3282 (Accepted).
Sections
04923 226 300 (Office)
netadmin@iitpkd.ac.in