20 results on '"Pantokratoras, Asterios"'
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2. Fully developed laminar free convection with variable thermophysical properties between two open-ended vertical parallel plates heated asymmetrically with large temperature differences
3. Discussion “Investigation of Double Diffusive Natural Convection in Presence of Gray Gas Radiation Within a Square Cavity Using Multiple Relaxation Time Lattice Boltzmann Method,” [Moufekkir, F., Moussaoui, M. A., Mezrhab, A., Fontaine, J. P., Bouzidi, M., ASME J. Heat Transfer, 2013, 135(10), p. 102701]
4. Discussion: “Thermoelastic Interactions in a Slim Strip Due to a Moving Heat Source Under Dual-Phase-Lag Heat Transfer” (Sarkar, N., and Mondal, S., 2019, ASME J. Heat Transfer, 141(12), p. 124501)
5. Discussion: “Simultaneous Effects of Nonlinear Mixed Convection and Radiative Flow Due to Riga-Plate With Double Stratification” (Hayat, T., Ullah, I., Alsaedi, A., Ahamad, B., 2018, ASME J. Heat Transfer, 140(10), p. 102008)
6. Discussion: “Convection Heat Transfer of Power-Law Fluids Along the Inclined Nonuniformly Heated Plate With Suction or Injection” [Sui, J., Zheng, L., and Zhang, X., 2016, ASME J. Heat Transfer, 138(2), p. 021701]
7. Discussion: “Three-Dimensional Stagnation Flow and Heat Transfer of a Viscous, Compressible Fluid on a Flat Plate” (Mozayyeni, H. R., and Rahimi, A. B., 2013, ASME J. Heat Transfer, 135(10), p. 101702)
8. Discussion: “Homogeneous–Heterogeneous Reactions in Boundary-Layer Flow of a Nanofluid Near the Forward Stagnation Point of a Cylinder” (Zhao, Q., Xu, H., and Tao, L., 2017, ASME J. Heat Transfer, 139(3), p. 034502)
9. Discussion: “Mixed Convection Falkner-Skan Flow of a Maxwell Fluid (Hayat, T., Farooq, M., Iqbal, Z., and Alsaedi, A., ASME J. Heat Transfer, 2012, 134(11), p. 114504)”
10. Discussion: “Heat and Mass Transfer in Power-Law Nanofluids Over a Nonisothermal Stretching Wall With Convective Boundary Condition” (Khan, W. A., and Gorla, R. S. R., 2012, ASME J. Heat Transfer, 134(11), p. 112001)
11. Fully developed Couette flow of three fluids with variable thermophysical properties flowing through a porous medium channel heated asymmetrically with large temperature differences
12. Discussion: “Magnetohydrodynamics Thermocapillary Marangoni Convection Heat Transfer of Power-Law Fluids Driven by Temperature Gradient” (Lin, Y., Zheng, L., and Zhang, X., 2013, ASME J. Heat Transfer, 135(5), p. 051702)
13. Discussion: “Multiple Analytic Solutions of Heat and Mass Transfer of Magnetohydrodynamic Slip Flow for Two Types of Viscoelastic Fluids Over a Stretching Surface” (Turkyilmazoglu, M., 2012, ASME J. Heat Transfer, 134(7), p. 071701)
14. Discussion: “Mixed Convection From a Convectively Heated Vertical Plate to a Fluid With Internal Heat Generation” (Makinde, O. D., and Aziz, P. O., 2011, ASME J. Heat Transfer, 133, p. 122501)
15. Discussion on the Paper “Entropy Generation Due to Heat and Mass Transfer in a Flow of Dissipative Elastic Fluid Through a Porous Medium, Afridi, M. I., Qasim, M., and Makinde, O. D., 2019, ASME J. Heat Transfer-Trans. ASME, 141(2), p. 022002”
16. 'Magnetohydrodynamic flow past a vertical plate with radiative heat transfer' (Shateyi, S., Sibanda, P., and Motsa, S. S., 2007, ASME J. Heat Transfer, 129, pp. 1708-1713)
17. Discussion: “Magnetohydrodynamic Flow Past a Vertical Plate With Radiative Heat Transfer” (Shateyi, S., Sibanda, P., and Motsa, S. S., 2007, ASME J. Heat Transfer, 129, pp. 1708–1713)
18. Fully Developed Couette Flow of Three Fluids With Variable Thermophysical Properties Flowing Through a Porous Medium Channel Heated Asymmetrically With Large Temperature Differences
19. Fully Developed Laminar Free Convection With Variable Thermophysical Properties Between Two Open-Ended Vertical Parallel Plates Heated Asymmetrically With Large Temperature Differences
20. Discussion: "Heat and Mass Transfer in Power-Law Nanofluids Over a Nonisothermal Stretching Wall With Convective Boundary Condition" (Khan, W. A., and Gorla, R. S. R., 2012, ASME J. Heat Transfer, 134(11), p. 112001).
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