pramodkuntikana

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Dr. Pramod Kuntikana
Assistant Professor
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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
  1. 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.
  2. 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.
  3. 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.
  4. 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. 
  5. 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.
  6. P. Kuntikana, S. V. Prabhu, “Thermal investigations on methane-air premixed flame jets of multiport burners”, Energy 123 (2017) 218–228.
  7. 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. 
  8. 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.
  9. 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.
  10. 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.
  11. 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.
  12. 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. 
  13. 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. 
  14. 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).
  15. 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).