Publications:

1. A. Pantokratoras (1987). Numerical computation of a round laminar plume   in   a stratified    environment,    International Communications  in  Heat  and  Mass  Transfer,  Vol.  14,  pp. 589-596.
2. A.  Pantokratoras (1988).  Calculation   of   a   turbulent  jet  discharged downward, International Communications in Heat  and  Mass Transfer, Vol. 15, pp. 345-353.
3. A. Pantokratoras (1991). Comments  on  "A  new theoretical model for noninvasive quantification of mitral regurgitation", Journal of Biomechanics, Vol. 24,  pp. 493-494.
4. A. Pantokratoras (1995). Some measurements in  a  turbulent round water  plume.  Comparison  with   two   mathematical   models, International Communications in Heat  and Mass Transfer,  Vol. 22, pp. 13-23.
5. A.  Pantokratoras (1998).  Horizontal  penetration  of  inclined thermal  buoyant  water   jets,   International Communications in Heat  and Mass Transfer, Vol. 25, pp. 561-569.
6. A. Pantokratoras (1999). Vertical penetration of  inclined heated  water  jets  discharged  downward,  ASCE  Journal   of Environmental Engineering, Vol. 125, No.4, pp.389-393.
7. A. Pantokratoras (1999). Laminar free convection of  pure and saline water along a heated vertical plate,  ASME Journal of Heat Transfer, Vol. 121,  pp. 719-722.
8. A. Pantokratoras (2000). Laminar natural convection of pure  and saline  water    along   a   vertical   isothermal   cylinder,  Heat and Mass Transfer, Vol. 36, pp. 351-360.
9. A. Pantokratoras (2001). Effect of ambient temperature on vertical turbulent buoyant water jets, International Journal of Heat and Mass Transfer, Vol. 44, pp. 1889-1898.
10. A. Pantokratoras (2001). Laminar free convective heat transfer from a vertical isothermal plate to water at 4 ^oC with variable physical properties, Chemical Engineering Science, Vol. 56, pp. 2229-2232.
11. A. Pantokratoras (2001). Laminar  axisymmetric  pure  and saline water  plumes,  Heat and Mass Transfer, Vol. 37, pp. 183-189.
12. A. Pantokratoras (2001). Laminar  free-convective heat transfer from  a vertical isothermal plate to water at low temperatures with variable physical properties, International Journal of Heat and Fluid Flow, Vol. 22, pp. 666-668.
13. A. Pantokratoras (2002). Laminar  free-convection over a vertical isothermal plate with uniform blowing or suction  in water with variable physical properties, International Journal of Heat and Mass Transfer, Vol. 45, pp. 963-977.
14. A. Pantokratoras (2002). Laminar  assisting mixed convection heat transfer from a vertical isοthermal cylinder to water with variable physical properties, Journal of Applied Mathematics and Physics, (ZAMP), Vol. 53, pp. 569-583.
15. A. Pantokratoras (2002). Laminar  free-convective heat transfer from  a vertical isothermal plate to glycerol with variable physical properties, International Journal of Heat and Fluid Flow, Vol. 23, pp. 530-532.
16. A. Pantokratoras (2003). Laminar  assisting mixed convection heat transfer from a vertical isοthermal cylinder moving in  water at low temperatures, Heat and Mass Transfer, Vol. 39, pp. 737-743.
17. A. Pantokratoras (2003). Laminar  free-convection in water with variable physical properties adjacent to a vertical plate with uniform heat flux, International Journal of Heat and Mass Transfer, Vol. 46, pp. 725-729.
18. A. Pantokratoras (2003). Laminar  free-convection in glycerol with variable physical properties adjacent to a vertical plate with uniform heat flux, International Journal of Heat and Mass Transfer, Vol. 46, pp. 1675-1678.
19. A. Pantokratoras (2003). A note on the Nusselt number adjacent to a vertical plate immersed in thermally stratified water at low temperatures, International Journal of Heat and Fluid Flow, Vol. 24, pp. 278-281.
20. A. Pantokratoras (2003). Vertical penetration of double-diffusive water plumes discharged vertically downwards, ASCE Journal of Hydraulic Engineering,  Vol. 129, No. 7., pp. 541-545.
21. A. Pantokratoras (2003). Mixed convection in a laminar axisymmetric water plume in a vertical coflowing stream at temperatures around the density extremum, Acta Mechanica, Vol. 163, pp. 81-97.
22. A. Pantokratoras (2003). A note on laminar axisymmetric and two-dimensional glycerol plumes, Applied Mathematical Modelling, Vol. 27, pp. 889-897.
23. A. Pantokratoras (2003). Effect of viscous dissipation and pressure stress work in natural convection along a  vertical  isothermal plate. New results, International Journal of Heat and Mass Transfer, Vol. 46, pp. 4979-4983.
24. A. Pantokratoras (2004). Laminar assisting mixed convection heat transfer from a vertical isothermal plate to water with variable physical properties, Heat and Mass Transfer, vol. 40, pp. 581-585. 
25. A. Pantokratoras (2004). Opposing mixed convection along vertical isothermal moving bodies, International Journal of Heat and Fluid Flow, Vol. 25, pp. 692-696.
26. A. Pantokratoras (2004). Comment on “ The effect of temperature-dependent viscosity on heat transfer over a continuous moving surface”, Journal of Physics D: Applied Physics,  Vol. 37, pp. 1725-1725.
27. A. Pantokratoras (2004). Further results on the variable viscosity on flow and heat transfer to a continuous moving flat plate, International Journal of Engineering Science, Vol. 42, pp. 1891-1896. 
28. A. Pantokratoras (2004). Laminar natural convection in water near the density extremum along a vertical plate with sinusoidal surface temperature variation, Acta Mechanica, Vol. 172, pp. 211-218.
29. A. Pantokratoras (2005). Effect of viscous dissipation in natural convection along a heated vertical  plate, Applied Mathematical Medelling, Vol. 29, pp. 553-564. 
30. A. Pantokratoras (2005). Unidirectional transport of heat and salt in  free     convection of water with variable physical properties along a vertical plate with uniform temperature and salinity, Chemical Engineering Science, Vol. 60, pp. 2821-2826.
31. A. Pantokratoras (2005). Forced and mixed convection  boundary layer flow    along a flat  plate with variable viscosity and variable Prandtl number. New results, Heat and Mass Transfer, Vol. 41, pp. 1085-1094.
32. A. Pantokratoras (2006). The Falkner-Skan flow with constant wall temperature and variable viscosity, International Journal of Thermal Sciences, Vol. 45, pp. 378-389.
33. A. Pantokratoras (2006). Fully developed laminar free convection with variable thermophysical properties between two open-ended vertical parallel plates heated asymmetrically with large temperature differences,  ASME Journal of Heat Transfer, Vol. 128, pp. 405-408.
34. A. Pantokratoras (2006). The classical plane Couette-Poiseuille flow with variable fluid properties, ASME Journal of Fluids Engineering,  Vol. 128, pp. 1115-1121.
35. A. Pantokratoras (2006). Comment on “Forced and free mixed convection boundary layer flow with uniform suction or injection on a vertical flat plate, by T. Watanabe, Acta Mech. 89, 123-132, 1991”, Acta Mechanica, Vol. 186, pp. 239-240.
36. A. Pantokratoras (2006). Natural convection of air and water with variable thermophysical properties about a vertical isothermal flat plate embedded in a Darcy porous medium, Progress in Computational Fluid Dynamics,  Vol. 6, No. 8, pp. 498-510.
37. A. Pantokratoras (2006). Comment on “Laminar boundary layer flow over a horizontal permeable flat plate”, Applied  Mathematics and Computation,  Vol. 182, pp. 1-2.
38. A. Pantokratoras (2007). Comment on “ Influences of fluid property variation on the boundary layers of a stretching surface, by T. Fang, Acta Mech. 171, 105-118, 2004”, Acta Mechanica,  Vol. 189, pp. 245-246.
39. A. Pantokratoras (2007). Non-Darcian forced convection heat transfer over a flat plate in a porous medium with variable viscosity and variable Prandtl number, Journal of Porous Media, Vol. 10, pp. 201-208.  
40. A. Pantokratoras (2007). Fully developed  forced convection of three fluids with variable thermophysical properties flowing through a porous medium channel heated asymmetrically with large temperature differences, Journal of Porous Media, Vol .10, pp. 409-419.  
41. A. Pantokratoras (2007). Classical plane Couette flow with viscous dissipation and variable fluid properties, AIAA Journal of Thermophysics and Heat Transfer, Vol. 21, pp. 437-442. 
42. A. Pantokratoras (2007). Comment on “Thermal-diffusion and diffusion-thermo effects on mixed free-forced convective flow and mass transfer over an accelerating surface with a heat source in  the presence of suction and blowing in the case of variable viscosity, by M.A. Seddeek, Acta Mech. 172, 83-94,  2004” and on “ Finite element method for the effects of chemical reaction, variable viscosity, thermophoresis and heat generation/absorption on a boundary- layer hydromagnetic flow with heat and mass transfer over a heat surface by M. A. Seddeek, Acta Mech. 177, 1-18, 2005”, Acta Mechanica, Vol. 191, pp. 239-241. 
43. A. Pantokratoras (2007). The Blasius, Sakiadis and Blasius-Sakiadis flow with uniform suction. A unified approach, Progress in Computational Fluid Dynamics, Vol. 7, pp. 482-486. 
44. A. Pantokratoras (2007). Effect of transverse magnetic field on flow separation of laminar boundary layers, Progress in Computational Fluid Dynamics,  Vol. 7, pp. 487-489.
45. A. Pantokratoras (2007).  Comments on “Flow of a Newtonian fluid in a symmetrically heated channel: effect of viscosity and viscous dissipation”, Mathematical Problems in Engineering, Volume 2007, Article ID 74832, 4 pages.
46. A. Pantokratoras (2007).  Comment on “Combined heat and mass transfer by laminar mixed convection flow from a vertical surface with induced magnetic field, J. Appl. Phys. 99, 034901, 2006”, Journal of Applied Physics, 102, 076113.
47. A. Pantokratoras (2007).  Comment on “ Radiation effect on convective heat transfer in an electrically conducting fluid at a stretching surface with variable viscosity and uniform free stream, 2000 Phys. Scr. 62, 321-325” and on “Hall effects on magnetohydrodynamic free-convection flow at a stretching surface with a uniform free stream, 2001 Phys. Scr. 63, 29-35” and on “Hall and ion-slip effects on MHD free convective heat generating flow past a semi-infinite vertical flat plate, 2000 Phys. Scr. 61, 344-348” Physica Scripta, Vol. 76, pp. 714-715.
48. A. Pantokratoras (2007). Fully developed  Couette flow of three fluids  with variable thermophysical properties flowing through a porous medium channel heated asymmetrically with large temperature differences, ASME Journal of Heat Transfer, Vol. 129, pp. 1742-1747.
49. A. Pantokratoras (2007).  Comment on “Thermal radiation effects on magnetohydrodynamic  flow past a semi-infinite vertical plate in the presence of mass diffusion by E. M. Abo-Eldahab and G. El-Din A. Azzam”, Canadian Journal of Physics, Vol. 85, pp. 1491-1493.
50. A. Pantokratoras (2007). Some  new  parallel flows in weakly   conducting fluids with an exponentially decaying Lorentz force, Mathematical Problems in Engineering, Vol. 2007, Article ID 87814. 
51. A. Pantokratoras (2008). A note on mixed convection of laminar plane water plumes at temperatures around the density extremum, Archive of Applied Mechanics,  Vol. 78, pp. 11-20. 
52. A. Pantokratoras (2008). Study of MHD boundary layer flow over a heated stretching sheet with variable viscosity. A numerical reinvestigation,  International Journal of Heat and Mass Transfer, Vol. 51, pp. 104-110. 
53. Pantokratoras (2008). Comment on “Thermal-diffusion and diffusion-thermo effects on mixed free-forced convection and mass transfer boundary layer flow for non-Newtonian fluid with temperature dependent viscosity, by N.T. Eldabe, A.G. El-Saka and Ashraf Fouad, Applied Mathematics and Computation 152 (2004) 867-883”, Applied Mathematics and Computation, Vol. 196, pp. 959-961. 
54. A. Pantokratoras (2008). Comment on “ Similarity analysis in magnetohydrodynamics: Hall effects on forced convective heat and mass transfer of non-Newtonian power law fluids past a semi-infinite vertical flat plate, by A.A. Afify, E.M. Aboeldahab and E.S. Mohamed, Acta Mech. 177, 71-87, 2005”, Acta Mechanica, Vol. 198, pp. 119-121. 
55. A. Pantokratoras (2008).  Comments on “Numerical study for micropolar flow over a stretching sheet, by Moncef Aouadi, Computational Materials Science, 38, 2007, 774-780”, Computational Materials Science, Vol. 42, pp. 717-718.
56. A. Pantokratoras (2008).  The Blasius and Sakiadis flow with variable fluid properties, Heat and Mass Transfer,  Vol. 44, pp. 1187-1198. 
57. A. Pantokratoras (2008). Comment on “Chebyshev finite difference method for the effects of variable viscosity and variable thermal conductivity on heat transfer from moving surfaces with radiation, E. M.E. Elbarbary, N.S. Elgazery, International Journal of Thermal Sciences 43(2004) 889-899”, International Journal of Thermal Sciences, Vol. 47, pp. 1411-1412. 
58. A. Pantokratoras (2008). Comment on “ Lie group analysis of radiation natural convection flow past an inclined surface”, S. Sivasankaran, M. Bhuvaneswari, P. Kandaswamy, E. K. Ramasami [Communications in Nonlinear Science and Numerical Simulation, 13 (2008) 269-276], Communications in Nonlinear Science and Numerical Simulation, Vol. 13, pp. 1741-1742. 
59. A. Pantokratoras (2008). Comment on “Thermal radiation effects on MHD flow of a micropolar fluid over a stretching surface with variable thermal conductivity, by Mostafa A. A. Mahmoud, Physica A 375 (2007) 401-410”, Physica A, Vol. 387, pp. 2416-2418. 
60. A. Pantokratoras (2008). Comment on “ Unsteady MHD combined convection over a moving vertical sheet in a fluid saturated porous medium with uniform surface heat flux, S.M.M. El-Kabeir, A.M. Rashad, Rama Subba Reddy Gorla, Mathematical and Computer Modelling 46 (2007) 384-397” Mathematical and Computer Modelling, Vol. 48, pp. 662-663. 
61. A. Pantokratoras (2008). Comment on   “Flow and heat transfer in a micropolar fluid past a stretching surface embedded in a non-Darcian porous medium with a uniform free stream”, by Emad M. Abo-Eldahab and Mohamed A. El Aziz [Applied Mathematics and Computation, 162 (2005)  881-899], Applied Mathematics and Computation, Vol. 202, pp. 895-896. 
62. A. Pantokratoras (2008). Letter to the Editor, Transport in Porous Media, Vol. 74, pp. 347-348.
63. A. Pantokratoras (2008). Some exact  solutions of boundary layer  flows along a vertical plate with buoyancy forces combined  with  Lorentz forces   under  uniform suction, Mathematical Problems in Engineering, Volume 2008, Article ID 149272, 18 pages.
64. A. Pantokratoras (2008). Comment on   “Radiative effect on natural convection flows in porous media”, A.A. MOHAMMADEIN, M. A. MANSOUR, SAHAR M. ABD EL GAIED and RAMA SUBBA REDDY GORLA, Transport in Porous Media 32:263-283, 1998”, Transport in Porous Media, Vol. 75, pp. 273-274. 
65. A. Pantokratoras (2009).  Comments on “Perturbation analysis of radiative effect on free convection flows in porous medium in the presence of pressure work and viscous dissipation, by A.M. Rashad, Communications in Nonlinear Science and Numerical Simulation,  2007”, Communications in Nonlinear Science and Numerical Simulation, Vol.  14, pp. 345-346. 
66. A. Pantokratoras (2009). A common error made in investigation of boundary layer flows, Applied Mathematical Modelling, Vol. 44, pp. 1187-1198. 
67. A. Pantokratoras (2009). Comments on “Magnetohydrodynamic flow past a vertical plate with radiative heat transfer by S. Shateyi, P. Sibanda and S.S. Motsa [Journal of Heat Transfer, Vol. 129, pp. 1708-1713, 2007], Journal of Heat Transfer, Vol. 131, No.2, 025503. 
68. A. Pantokratoras (2009). Free convection along a vertical isothermal plate under the effect of a constant, horizontal, magnetic field: New accurate results, Progress in Computational Fluid Dynamics, Vol. 9, No. 1, pp. 52-57.  
69. A. Pantokratoras (2009). Asymptotic suction profiles for the Blasius and Sakiadis flow with constant  and variable fluid properties, Archive of Applied Mechanics, Vol. 79, pp. 469-478. 
70. A. Pantokratoras (2009). Mixed  convection in water near the density extremum  along a vertical   plate with sinusoidal surface temperature variation  embedded in a porous medium, Transport in Porous Media, Vol. 76, pp. 309-325.  
71. A. Pantokratoras (2009). Asymptotic profiles for the Blasius and Sakiadis flow  in a Darcy-Brinkman isotropic porous medium  either with uniform suction or with zero transverse velocity, Transport in Porous Media, Vol. 76, pp. 421-429. 
72. A. Pantokratoras, E. Magyari (2009). EMHD free convection boundary layer flow from a Riga-plate, Journal of Engineering Mathematics, Vol. 64, pp. 303-315.
73. A. Pantokratoras (2009). Flow  adjacent to a stretching permeable  sheet  in a Darcy-Brinkman porous medium, Transport in Porous Media,  Vol. 80, pp. 223-227.
74. A. Pantokratoras (2009). The nonsimilar laminar wall plume in a constant transverse magnetic field, International Journal of Heat and Mass Transfer , Vol. 52, pp. 3873-3878.
75. A. Pantokratoras (2009). The nonsimilar laminar wall jet with uniform  blowing or suction: New  results, Mechanics Research Communications, Vol. 36, pp. 747-753.   
76. A. Pantokratoras and T. Fang (2010). Flow of a weakly   conducting fluid in a channel filled with a porous medium, Transport in Porous Media,  Vol. 83, pp. 667-676. 
77. B. Q. Zhao, A. Pantokratoras, T.G. Fang, and S. J. Liao (2010). Flow of a Weakly Conducting Fluid in a Channel Filled with a Darcy–Brinkman–Forchheimer Porous Medium,  Transport in Porous Media, Vol. 85, pp. 131-142. 
78. A. Pantokratoras, E. Magyari (2010). Forced Convection Flow of Power-Law Fluids Over a Flat Plate Embedded in a Darcy-Brinkman Porous Medium, Transport in Porous Media, Vol. 85, pp. 143-155. 
79. A. Pantokratoras (2010). Nonsimilar aiding mixed convection along a moving cylinder in a free stream, ZAMP, Vol. 61, pp. 309-315.    
80. A. Pantokratoras and T. Fang (2010). Flow adjacent to a flat plate in a Darcy-Brinkman porous medium oscillating with arbitrary periodic oscillation, Journal of Porous Media, Vol. 13, pp. 759-763.
81. A. Pantokratoras (2010).The mixed convection  wall plume in a constant transverse magnetic field. New correct results, Physica Scripta  82 065401
82. A. Pantokratoras (2011). The nonsimilar laminar wall jet along a moving wall, in a free stream and in a free stream/moving wall, Applied Mathematical Modelling, Vol. 35, pp. 471-481. 
83. A. Pantokratoras (2011). The Blasius and Sakiadis  flow with  uniform blowing or suction in non-Newtonian power-law fluids, Chemical Engineering Communications, Vol. 198, pp. 332-343.
84. E. Magyari and A. Pantokratoras (2011). Aiding and opposing mixed convection flows over the Riga-plate, Communications in Nonlinear Science and Numerical Simulation, Vol. 16, pp. 3158-3167.  
85. A. Pantokratoras and T. Fang (2011). A note on the Blasius and Sakiadis flow of a non-Newtonian power-law fluid in a constant transverse magnetic field, Acta Mechanica, Vol. 218, pp. 187-194.  
86. E. Magyari and A. Pantokratoras (2011). Note on the effect of thermal radiation in the linearized Rosseland approximation on the heat transfer characteristics of various boundary layer flows,  International Communications in Heat and Mass Transfer, Vol. 38, pp. 554-556.
87. A. Pantokratoras (2011). Further results on hydromagnetic boundary-layer flow of a non-Newtonian power-law fluid over a continuously moving surface with suction, Chemical Engineering Communications, Vol. 198, pp. 1405-1414.
88. A. Pantokratoras (2011). The Blasius and Sakiadis flow along a Riga-plate, Progress in Computational Fluid Dynamics (in press).

Professional Achievements and Activities:

• Best Hydraulics Paper Award from the Athens Academy in 2003 for papers No. 6 and No. 20
• Paper No. 43 has been  judged as "excellent" from the reviewers.
• His Book entitled "Solved problems of Fluid Mechanics with synoptic theory" received excellent critics from Professor E. Gdoutos as well as from the Student Union of Democritus University of Thrace.

Reviewer of International journals:

Heat and Mass Transfer, Applied Mathematical Modeling, Acta Mechanica, Water Resources  Management, ASCE Journal of Hydraulic Engineering, Indian Journal of Pure and Applied Mathematics, International Journal of Thermal Sciences, International Journal of Numerical Methods for Heat and Fluid Flow, Journal of Porous Media, Physics Letters A, Progress in Computational Fluid Dynamics, Canadian Journal of Physics, International Journal of Heat and Mass Transfer, ASME Journal of Fluids Engineering, International Journal of Engineering Science, Chemical Engineering Communications, Journal of Energy Heat and Mass Transfer, Meccanica, Chemical Engineering Science, Nonlinear Analysis Modelling and Control, Communications in Numerical Methods in Engineering, ASME Journal of Heat Transfer, Transport in Porous Media, International Communications in  Heat and Mass Transfer, Numerical Heat Transfer, ASME Journal of Applied Mechanics, Nuovo Cimento, Journal of Fluid Mechanics.