313 results on '"Pantokratoras, Asterios"'
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2. Comment on the Paper “Mathematical Analysis of Bio‑Nanofluid Flow Over a Nonlinear Tapering Artery with Stenosis Conditions Using Cross Fluid Viscosity Model, BioNanoScience (2023) 13:2082–2095”
3. Comment on the Paper Numerical Simulation for Magneto Nanofluid Flow Through a Porous Space with Melting Heat Transfer, T. Hayat, Faisal Shah, A. Alsaedi, M. Waqas, Microgravity Science and Technology (2018) 30:265–275
4. Comment on the paper “Heat transfer and entropy analysis in squeezing flow of hybrid nanofluid (Au-CuO/NaAlg) with D-F (Darcy-Forchheimer) and C-C (Cattaneo-Christov) heat flux, T. Hayat, A. Fatima, K. Muhammad, A. Alsaedi, Materials Science & Engineering B 288(2023) 116150″
5. Comment on the paper “Entropy analysis in the Rabinowitsch fluid model through inclined Wavy Channel: Constant and variable properties, Yu-Ming Chu, M. Nazeer, M. Ijaz Khan, W. Ali, Z. Zafar, S. Kadry, Zahra Abdelmalek, International Communications in Heat and Mass Transfer 119 (2020) 104980”
6. Comment on the paper “Analyzing the effect of dynamic properties of materials and operating medium on sensor parameters to increase the performance of diaphragmbased static/dynamic pressure sensors, Timuçin Emre Tabaru, Şekip Esat Hayber, Journal of Computational Electronics, 2021, 20:643–657”
7. Comment on the Paper “Magnetic Field Effect on the Magnetic Nanoparticles Trajectories in Pulsating Blood Flow: a Computational Model, BioNanoScience (2022) 12:571–581”
8. Comment on the paper “Dynamism of magnetohydrodynamic cross nanofluid with particulars of entropy generation and gyrotactic motile microorganisms, Rahila Naz, Mughira Noor, Tasawar Hayat, Maryiam Javed, Ahmed Alsaedi, International Communications in Heat and Mass Transfer 110(2020) 104431”
9. Comment on the paper “Numerical method for thixotropic behavior of fresh concrete, Zhuguo Li, Guodong Cao, Kun Guo, Construction and Building Materials 187 (2018) 931–941”
10. Couette creeping flow past a sphere in non-Newtonian power-law fluids
11. Lift, drag and torque on a rotating sphere in a stream of non-Newtonian power-law fluid
12. Comment on the paper “Terahertz rectangular waveguides with inserted graphene films biased by light and their quasi-linear electromagnetic modeling, Guennadi A. Kouzaev, Journal of Computational Electronics, 2021, 20:169–177”
13. Comment on the paper “Convection from an inverted cone in a porous medium with cross-diffusion effects, F.G. Awad, P. Sibanda, S.S. Motsa, O.D. Makinde, Comput. Math. Appl. 61 (2011) 1431–1441”
14. Comment on the paper “Microsystem Technologies: (2018) 24:2919–2928”
15. Comment on the paper “Numerical analysis of the heat transfer and fluid flow characteristics of a nanofluid-cooled micropin-fin heat sink using the Eulerian-Lagrangian approach, Tehmina Ambreen, Arslan Saleem, Cheol Woo Park, Powder Technol., 345 (2019), 509–520”
16. Comment on “Microsystem Technologies, (2019) 25:1321–1331”
17. Comment on the paper “Change in internal energy of thermal diffusion stagnation point Maxwell nanofluid flow along with solar radiation and thermal conductivity, Mair Khan, T. Salahuddin, A. Tanveer, M.Y. Malik, Arif Hussain, Chinese Journal of Chemical Engineering, doi:10.1016/j.cjche.2018.12.023”
18. Non-similar Blasius and Sakiadis flow of a non-Newtonian Carreau fluid
19. Laminar flow across an unbounded square cylinder with suction or injection
20. Natural convection along a vertical isothermal plate with linear and non-linear Rosseland thermal radiation
21. A note on natural convection along a convectively heated vertical plate
22. Comment on the paper “Theoretical & Applied Mechanics Letters 7 (2017) 235–242”
23. Discussion on “Microsystem Technologies, https://doi.org/10.1007/s00542-018-4017-9
24. Comment on “Microsystem Technologies, https://doi.org/10.1007/s00542-018-3963-6”
25. Comments on “Archives of Civil and Mechanical Engineering 17 (2017) 564–573”
26. Steady flow of a non-Newtonian Carreau fluid across an unconfined circular cylinder
27. Comment on the paper: 'Thermal radiation and chemical reaction effects on boundary layer slip flow and melting heat transfer of nanofluid induced by a nonlinear stretching sheet, M.R. Krishnamurthy, B.J. Gireesha, B.C. Prasannakumara, and Rama Subba Reddy Gorla, Nonlinear Engineering 2016, 5(3), 147-159'
28. Steady laminar assisted mixed convection normally to a heated horizontal plate with finite length
29. CFD methodology for sedimentation tanks: The effect of secondary phase on fluid phase using DPM coupled calculations
30. Buoyancy effects on thermal boundary layer over a vertical plate with a convective surface boundary condition: new results
31. Comment on the paper “Microsystem Technologies, https://doi.org/10.1007/s00542-018-3996-x”
32. Commentary regarding "An entropy model for Carreau nanofluid ciliary flow with electroosmosis and thermal radiations: A numerical study".
33. Comment on the paper "an explicit‐implicit numerical scheme for time fractional boundary layer flows, International Journal for Numerical Methods in Fluids, 2022, 94:920–940".
34. Note on the effect of thermal radiation in the linearized Rosseland approximation on the heat transfer characteristics of various boundary layer flows
35. Comments to papers “Unsteady MHD flow with variable viscosity: Applications of spectral scheme”, by M. Turkyilmazoglu, International Journal of Thermal Sciences, 49 (2010), 563–570 and “Thermal radiation effects on time-dependent MHD permeable flow having variable viscosity”, by M. Turkyilmazoglu, International Journal of Thermal Sciences, 50 (2011), 88–96
36. Mixed Convection in a Darcy–Brinkman Porous Medium with a Constant Convective Thermal Boundary Condition
37. Blasius flow with non-linear Rosseland thermal radiation
38. The forced convection flow over a flat plate with finite length with a constant convective boundary condition
39. Comment on the paper: Dynamics of accelerating and decelerating flows: A boundary layer examination with non-similar approach and convective boundary condition, Mojeed T. Akolade, et al. International Journal of Nonlinear Mechanics 161 (2024) #104675.
40. Comment on the paper “On stagnation point flow of Sisko fluid over a stretching sheet, Masood Khan, Azeem Shahzad, Meccanica (2013) 48:2391–2400”
41. Comment on the paper “Transient MHD free convective flow past an infinite vertical plate embedded in a porous medium with viscous dissipation, Siva Reddy Sheri, R. Srinivasa Raju, Meccanica, DOI 10.1007/s11012-015-0285-y”
42. The nonsimilar laminar wall jet with uniform blowing or suction: New results
43. Further results on non-Newtonian power-law flows past a two-dimensional flat plate with finite length
44. Convection in the Rayleigh-Bénard flow with all fluid properties variable
45. 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]
46. Forced Convection Flow of Power-Law Fluids Over a Flat Plate Embedded in a Darcy-Brinkman Porous Medium
47. Nonsimilar aiding mixed convection along a moving cylinder
48. EMHD free-convection boundary-layer flow from a Riga-plate
49. Asymptotic suction profiles for the Blasius and Sakiadis flow with constant and variable fluid properties
50. Mixed Convection in Water Near the Density Extremum Along a Vertical Plate with Sinusoidal Surface Temperature Variation Embedded in a Porous Medium
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