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SCHOOL OF ENGINEERING
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Faculty
Department of Chemical Engineering
Pratibha Biswal
Assistant Professor,
Department of Chemical Engineering,
School of Engineering
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Education Details
Ph.D. (2011-2017) in Chemical Engineering from Indian Institute of Technology, Madras, Chennai. B.Tech. (2007-2011) in Chemical Engineering from Biju Patnaik University of Technology, Odisha.
Professional Experience
Worked as Project officer in the Department of Mechanical Engineering (under IC & SR), IIT Madras during August 2016 to July 2017.
Research Interests
Computational fluid dynamics, Analysis of convection in heat and fluid flow, Heat flow visualization and entropy generation analysis, Analysis of droplet evaporation, Film and impingement cooling
Select Publications
International Journals:
  1. P. Biswal, T. Basak, Sensitivity of heatfunction boundary conditions on invariance of Bejan’s heatlines for natural convection in enclosures with various wall heatings, International Journal of Heat and Mass Transfer 89 (2015) 1342-1368

  2. P. Biswal, T. Basak, Entropy generation vs energy efficiency for natural convection based energy flow in enclosures and various applications: A review, Renewable and Sustainable Energy Reviews 80 (2017) 1412-1457

  3. P. Biswal, T. Basak, Role of various concave/convex walls exposed to solar heating on entropy generation during natural convection within porous right angled triangular enclosures, Solar Energy 137 (2016) 101-121

  4. P. Biswal, T. Basak, Bejan’s heatlines and numerical visualization of convective heat flow in differentially heated enclosures with concave/convex side walls, Energy 64 (2014) 69-94.

  5. P. Biswal, T. Basak, Entropy generation based approach on natural convection in enclosures with concave/convex side walls, International Journal of Heat and Mass Transfer 82 (2015) 213-235.

  6. P. Biswal, T. Basak, Analysis of entropy generation during natural convection in porous enclosures with curved surfaces, Numerical Heat Transfer, Part A: Applications (Article in press)

  7. P. Biswal, T. Basak, Role of heatlines on thermal management during Rayleigh-Benard heating within enclosures with concave/convex horizontal walls, International Journal of Numerical Methods for Heat and Fluid Flow (Article in Press)

  8. P. Biswal, T. Basak, Role of thermal and flow characteristics on entropy generation during natural convection in enclosures with curved walls subjected to Rayleigh-Benard heating, International Journal of Heat and Mass Transfer 109 (2017) 1261-1280

  9. P. Biswal, T. Basak, Investigation of natural convection via heatlines for Rayleigh-Benard heating in porous enclosures with curved top and bottom walls, Numerical Heat Transfer, Part A: Applications (Accepted for Publication)

  10. P. Biswal, T. Basak, Heatlines visualization of convective heat flow during differential heating of porous enclosures with concave/convex side walls, International Journal of Numerical Methods for Heat and Fluid Flow (Accepted for Publication)

  11. P. Biswal, A. Nag, T. Basak, Analysis of thermal management during natural convection within porous tilted square cavities via heatline and entropy generation, International Journal of Mechanical Sciences 115 (2016) 596-615

  12. P. Biswal, V. M. Rathnam, T. Basak, Analysis of entropy production vs energy efficiencies during natural convection in porous trapezoidal cavities exposed to various thermal ambience, Journal of the Taiwan Institute of Chemical Engineers 65 (2016) 118-133.

  13. P. Biswal, M. Roy, S. Roy, T. Basak, Analysis of heatline based visualization for thermal management during mixed convection of hot/cold fluids within entrapped triangular cavities, Journal of the Taiwan Institute of Chemical Engineers, 77 (2017) 122-141

  14. D. Das, P. Biswal, M. Roy, T. Basak, Role of the importance of ‘Forchheimer term’ for visualization of natural convection in porous enclosures of various shapes, International Journal of Heat and Mass Transfer 97 (2016) 1044-1068

  15. V. M. Rathnam, P. Biswal, T. Basak, Analysis of entropy generation during natural convection within entrapped porous triangular cavities during hot or cold fluid disposal, Numerical Heat Transfer, Part A: Applications 69 (2016) 931-956

  16. M. Roy, P. Biswal, T. Basak, On the finite element based evaluation of Nusselt numbers for curved walls, International Communications in Heat and Mass Transfer 77 (2016) 123-131

  17. M. Roy, P. Biswal, S. Roy, T. Basak, Role of various moving walls on entropy generation during mixed convection within entrapped porous triangular cavities Numerical Heat Transfer, Part A: Applications 77 (2016) 423-447

  18. M. Roy, P. Biswal, S. Roy, T. Basak, Heat flow visualization during mixed convection within entrapped porous triangular cavities with moving horizontal walls via heatline analysis, International Journal of Heat and Mass Transfer 108 (2017) 468-489

  19. T. Basak, R. Anandalakshmi, P. Biswal, Analysis of convective heat flow visualization within porous right angled triangular enclosures with a concave/convex hypotenuse, Numerical Heat Transfer, Part A: Applications 64 (2013) 621-647.
Conferences Proceedings
  1. P. Biswal, T. Basak, Investigation of thermal efficiency via entropy generation analysis within cavities with curved walls subjected to differential/Rayleigh-Benard heating. 15-17 December, 2015, 5th International Conference on Advances in Energy Research, IIT Bombay, India.

  2. P. Biswal, T. Basak, Analysis of heatfunction boundary conditions on invariance of heat flow in square enclosures with various thermal boundary conditions, August 10-15, 2014, Proceedings of the 15th International Heat Transfer Conference, IHTC-15, Kyoto, Japan.

  3. P. Biswal, T. Basak, Analysis of heatlines and entropy generation during natural convection within enclosure with curved side walls, 14 - 16 July 2014, 10th International Conference on Heat Transfer, Fluid Mechanics and Thermodynamics Orlando, Florida, USA

  4. P. Biswal, T. Basak, Analysis of heatlines and entropy generation during natural convection in porous right angled triangular enclosure with curved hypotenuse, December 28-31, 2013, 22nd National and 11th ISHMT - ASME Heat and Mass Transfer Conference, IIT Kharagpur, India.
National and International Recognition:
  1. Energy & Environmental Science Oral Presentation Prize at the 5th International Conference on Advances in Energy Research (ICAER 2015) held at IIT Bombay during December 15-17, 2015.

  2. Active reviewer of Journal of Porous Media, International Journal of Heat and Mass Transfer, and International Journal of Mechanical Sciences.

  3. Contributed speaker in Finite Element Meet - 2014 held at Tata Institute of Fundamental Research-Center of Applied Mathematics, Bangalore, India during December 18-20, 2014.

  4. Session Chair in 15th International Heat Transfer Conference, IHTC-15 held at Kyoto, Japan during August 10-15, 2014
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