Refereed Journals:
List of Technical papers published:
  1. T. Basak, R. Anandalakshmi and Abhishek Kumar Singh, Analysis of Entropy Generation during Conjugate Natural Convection within a Square Cavity with Various Location of Wall Thickness, Ind. Eng. Chem. Res. 53 (2014) 3702-3722.
  2. T. Basak, R. Anandalakshmi and T. P. Akshaya Sruthi, Analysis of Entropy Generation Due to Natural Convection for Hot and Cold Materials Confined within Two Entrapped Triangular Cavities, Ind. Eng. Chem. Res. 52 (2013) 16414-16426.
  3. T. Basak, R. Anandalakshmi, S. Roy and I. Pop, Role of entropy generation on thermal management due to thermal convection in porous trapezoidal enclosures with isothermal and non-isothermal heating of wall, Int. J. Heat Mass Transfer 67 (2013) 810-828.
  4. T. Basak, R. Anandalakshmi and Pratibha Biswal, Analysis of Convection Heat Flow Visualization within Porous Right Angled Triangular Enclosures with Concave/Convex Hypotenuse, Numer. Heat Transfer Part A: Appl. 64 (2013) 621-647.
  5. R. Anandalakshmi and T. Basak, Analysis of Natural Convection via Entropy Generation Approach in Porous Rhombic Enclosures for Various Thermal Aspect Ratios, Int. J. Heat Mass Transfer 64 (2013) 224-244.
  6. R. Anandalakshmi and T. Basak, Heat Flow Visualization Analysis on Natural Convection in Rhombic Enclosures with Isothermal Hot Side or Bottom Wall(s), European J. Mechanics B-Fluids 41 (2013) 29-45.
  7. T. Basak, R. Anandalakshmi and Abhishek Kumar Singh, Heatlines Analysis on Thermal Management with Conjugate Natural Convection in a Square Cavity, Chem. Eng. Science 93 (2013) 67-90.
  8. T. Basak, R. Anandalakshmi and Monisha Roy, Heatlines based Natural Convection Analysis in Tilted Isosceles Triangular Enclosures with Linearly Heated Inclined Walls: Effect of Various Orientations, Int. comm. Heat Mass Transfer 43 (2013) 39-45.
  9. R. Anandalakshmi and T. Basak, Heatline Based Thermal Management for Natural Convection in Porous Rhombic Enclosures with Isothermal Hot Side or Bottom Wall, Energy Conv. Manage. 67 (2013) 287-296.
  10. R. Anandalakshmi and T. Basak, Numerical Simulations for the Analysis of Entropy Generation during Natural Convection in Porous Rhombic Enclosures, Numer. Heat Transfer Part A: Appl. 63 (2013) 257-284.
  11. T. Basak, R. Anandalakshmi and P. Gunda, Role of Entropy Generation during Convective Thermal Processing in Right-angled Triangular Enclosures with Various Wall Heatings, Chem. Engg. Res. Design 90 (2012) 1779-1799.
  12. R. Anandalakshmi and T. Basak, Analysis of Energy Management via Entropy Generation Approach during Natural Convection in Porous Rhombic Enclosures, Chem. Eng. Science 79 (2012) 75-93.
  13. T. Basak, P. Gunda and R. Anandalakshmi, Analysis of Entropy Generation during Natural Convection in Porous Right-angled Triangular Cavities with Various Thermal Boundary Conditions, Int. J. Heat Mass Transfer 55 (2012) 4521-4535.
  14. T. Basak, P. Kumar, R. Anandalakshmi and S. Roy, Analysis of Entropy Generation Minimization during Natural Convection in Trapezoidal Enclosures of Various Angles with Linearly Heated Side Wall(s), Ind. Eng. Chem. Res. 51 (2012) 3851-4118.
  15. R. Anandalakshmi and T. Basak, Heat Flow Visualization for Natural Convection in Rhombic Enclosures due to Isothermal and Non-isothermal Heating at the Bottom Wall, Int. J. Heat Mass Transfer 55 (2012) 1325-1342. 
  16. T. Basak, R. Anandalakshmi, P. Kumar and S. Roy, Entropy Generation vs Energy Flow due to Natural Convection in a Trapezoidal Cavity with Isothermal and Non-isothermal Hot Bottom Wall, Energy 37 (2012) 514-532.
  17. R. Anandalakshmi and T. Basak, Heatline Analysis for Natural Convection within Porous Rhombic Cavities with Isothermal/Non isothermal Hot Bottom Wall, Ind. Eng. Chem. Res. 51 (2012) 2113-2132.
  18. R. Anandalakshmi and T. Basak, Analysis of Entropy Generation due to Natural Convection in Rhombic Enclosures, Ind. Eng. Chem. Res. 50 (2011) 13169-13189.
  19. R. Anandalakshmi, R. S. Kaluri and T. Basak, Heatline Based Thermal Management for Natural Convection within Right-angled Porous Triangular Enclosures with Various Thermal Conditions of Walls, Energy 36 (2011) 4879-4896.
  20. R. S. Kaluri, R. Anandalakshmi and T. Basak, Bejan's Heatline Analysis of Natural Convection in Right-angled Triangular Enclosures: Effect of Aspect Ratio and Thermal Boundary Conditions, Int. J. Therm. Sci. 46 (2010) 1576-1592.
Conferences Proceedings:
  1. R. Anandalakshmi and T. Basak, Entropy Generation due to Natural Convection in an Air Filled Rhombic Enclosures for Various Thermal Boundary Conditions, Chemcon-2011, Dec 27-29, 2011, MSRIT, Bangalore, India.
  2. T. Basak,  R. Anandalakshmi and K. Gunupuru,  Analysis of Heat Flow Visualization During Conjugate Natural Convection in Square Cavity via Heatline Method, 2011 AIChE Annual Meeting October 16-21, 2011,  Minneapolis, MN, USA.
  3. T. Basak and  R. Anandalakshmi,  Entropy Generation due to Natural Convection within Porous Rhombic Enclosures with Various Inclination Angles, 2011 AIChE Annual Meeting  October 16-21, 2011,  Minneapolis, MN, USA.
  4. T. Basak and R. Anandalakshmi, Heatline Analysis of Natural Convection in Rhombic Enclosures with Isothermally Hot Side or Bottom Wall, 2011 AIChE Annual Meeting  October 16-21, 2011,  Minneapolis, MN, USA.
  5. R. Anandalakshmi and T. Basak, Heat Flow Visualization for Natural Convection in Rhombic Enclosures: Bejan's Heatline Approach, ASME/JSME 2011 8th Thermal Engineering Joint Conference (AJTEC2011), March 13-17, 2011, Honolulu, Hawaii, USA.
  6. R. Anandalakshmi and T. Basak, Visualization of Heat Flow in Rhombic Enclosures, ChEmference, July 13-14, 2010, IIT Kanpur, India.