831 results on '"Pantokratoras, Asterios"'
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52. Comment on the paper “A comprehensive report on convective flow of fractional (ABC) and (CF) MHD viscous fluid subject to generalized boundary conditions, M.A. Imran, Maryam Aleem, M.B. Riaz, Rizwan Ali, Ilyas Khan, Chaos, Solitons and Fractals 118, (2019) 274–289”
53. Corrigendum on the paper “Numerical simulation of magnetic nanoparticle-based drug delivery in presence of atherosclerotic plaques and under the effects of magnetic field” [Mostafa Varmazyar, Mohammad Reza Habibi, Meysam Amini, Ahmad Hajatzadeh Pordanjani, Masoud Afrand, Seyed Masoud Vahedi, Powder Technology, 366(2020) 164–174]
54. Comment on "Microsystem Technologies, https://doi.org/10.1007/s00542-018-3895-1”
55. Comment on "Microsystem Technologies, https://doi.org/10.1007/s00542-018-4045-5”
56. Discussion on “Higher Order Chemical Reaction and Radiation Effects on Magnetohydrodynamic Flow of a Maxwell Nanofluid With Cattaneo–Christov Heat Flux Model Over a Stretching Sheet in a Porous Medium” (Reddy Vinodkumar, M. and Lakshminarayana, P., 2022, ASME J. Fluids Eng., 144(4), p. 041204)
57. Comment on the paper “An efficient numerical scheme for fractional characterization of MHD fluid model, Muhammad Hamid, Muhammad Usman, Yaping Yan, Zhenfu Tian, Chaos, Solitons and Fractals, 2022, 162, 112,475”
58. 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”
59. Comment on the paper “Microsystem Technologies: (2018) 24:2919–2928”
60. Comment on the paper “Magneto-thermoelastic interaction in a reinforced medium with cylindrical cavity in the context of Caputo–Fabrizio heat transport law, Sudip Mondal, Abhik Sur, M. Kanoria, Acta Mech 230, 4367–4384 (2019)”
61. Comment on “Microsystem Technologies, (2018) 24:4945–4953”
62. Flow past a rotating sphere in a Bingham plastic fluid, up to a Reynolds number of 10,000
63. 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”
64. Comment on the paper “Optimization and numerical investigation of the effect of wall conduction and magnetic field on the nanofluid flow inside a three-dimensional enclosure using the lattice Boltzmann method, Farhan Khan, Yang Xiao-Dong, Nudrat Aamir, Tareq Saeed, Muhammad Ibrahim, Chemical Engineering Communications, 2023, Vol. 210, No. 5, 955–969”
65. Comment on the paper “Numerical flow simulation of fresh concrete with viscous granular material model and smoothed particle hydrodynamics, Guodong Cao, Zhuguo Li, Cement and Concrete Research 100(2017) 263-274”
66. Comment on the paper "Harmonizing wave solutions to the Fokas-Lenells model through the generalized Kudryashov method, Hemonta Kumar Barman, Ripan Roy, Forhad Mahmud, M.Ali Akbar, M.S. Osman, Optik 229 (2021) 166294″
67. Comment on the paper “Influence of nanoparticles on the electromagnetic hydrodynamic mixed convection flow and heat transfer of a polymeric FENE-P fluid past a Riga plate in the presence of Arrhenius chemical reaction, Razi Khan, Adeel Ahmad, Journal of Magnetism and Magnetic Materials, 567, (2023), 170352
68. Comment on “Microsystem Technologies, (2019) 25:1321–1331”
69. Comment on the paper “Transient response in a thermoelastic half-space solid due to a laser pulse under three theories with memory-dependent derivative, S. Mondal, P. Pal, M. Kanoria, Acta Mech 230, 179–199 (2019)”
70. Comment on the paper “Peristaltic flow of Phan-Thien-Tanner fluid: effects of peripheral layer and electro-osmotic force, Sadaqut Hussain, Nasir Ali, Kaleem Ullah, Rheologica Acta (2019) 58:603–618”
71. 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”
72. Comment on the paper "Fractional order model of thermo-solutal and magnetic nanoparticles transport for drug delivery applications, Subrata Maiti, Sachin Shaw, G.C. Shit, [Colloids Surf. B Biointerfaces, 203(2021) 111754]″
73. Comment on the Paper “Duel Solutions in Hiemenz Flow of an Electro-Conductive Viscous Nanofluid Containing Elliptic Single-/Multi-Wall Carbon Nanotubes With Magnetic Induction Effects” (Ferdows, M., Tahia, T., Bég, O. A., and Bég, T. A., 2022, ASME Open J. Eng., 1, p. 011040)
74. Non-similar Blasius and Sakiadis flow of a non-Newtonian Carreau fluid
75. Comment on the paper “Second-grade fluid model with Caputo–Liouville generalized fractional derivative, Ndolane Sene, Chaos, Solitons and Fractals, 2020, 133, 109631”
76. Comment on the paper “On the solitary wave solution of the viscosity capillarity van der Waals p-system along with Painleve analysis, Yasir Akbar, Haleem Afsar, Fahad S Al-Mubaddel, Nidal H. Abu-Hamdeh, Abdullah M. Abusorrah, Chaos, Solitons and Fractals 153, (2021) 111495”
77. Comments on: “Toward improved heat transfer performance of annular heat exchangers with water/ethylene glycol based nanofluids containing graphene nanoplatelets, Journal of Thermal Analysis and Calorimetry 126.3 (2016): 1427–1436”
78. Laminar flow across an unbounded square cylinder with suction or injection
79. Comment on the paper "Microsystem Technologies (2018) 24:4965–4979”
80. 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”
81. Comment on the paper “Optimization of heat transfer properties on ferrofluid flow over a stretching sheet in the presence of static magnetic field, Anupam Bhandari, Akmal Husain, Journal of Thermal Analysis and Calorimetry (2021) 144:1253–1270”
82. Comment on the paper "Propagation of electromagnetic waves in graphene-wrapped cylindrical waveguides filled with magnetized plasma, Muhammad Usman Shahid, Abdul Ghaffar, Majeed A.S. Alkanhal, Yasin Khan, Optik 244 (2021) 167566″
83. Discussion on the Paper “Synchronization Via Fractal–Fractional Differential Operators on Two-Mass Torsional Vibration System Consisting of Motor and Roller, Abro, K. A., and Atangana, A., 2021, ASME J. Comput. Nonlinear Dyn., 16(12), p. 121002”
84. Comment on the paper “Solar energy aspects of gyrotactic mixed bioconvection flow of nanofluid past a vertical thin moving needle influenced by variable Prandtl number, Ying-Qing Song, Aamir Hamid, M. Ijaz Khan, R.J. Punith Gowda, R. Naveen Kumar, B.C. Prasannakumara, Sami Ullah Khan, M. Imran Khan, M.Y. Malik, Chaos, Solitons Fractals, 151, 2021, 111244”
85. Comment on the paper “Impact of induced magnetic field on synovial fluid with peristaltic flow in an asymmetric channel, Ambreen Afsar Khan, Arfa Farooq, Kambiz Vafai, Journal of Magnetism and Magnetic Materials, 446(2018) 54–67″
86. Discussion on: “Bioconvection of a Radiating Hybrid Nanofluid Past a Thin Needle in the Presence of Heterogeneous–Homogeneous Chemical Reaction, Puneeth, V., Manjunatha, S., Makinde, O. D., Gireesha, B. J., 2021, ASME J. Heat Transfer-Trans. ASME., 143(4), p. 042502”
87. Comment on the “Role of fractal–fractional derivative on ferromagnetic fluid via fractal Laplace transform: A first problem via fractal–fractional differential operator, Kashif Ali Abro, European Journal of Mechanics B/Fluids 85 (2021) 76–81”
88. Natural convection along a vertical isothermal plate with linear and non-linear Rosseland thermal radiation
89. A note on natural convection along a convectively heated vertical plate
90. Comment on the paper “Theoretical & Applied Mechanics Letters 7 (2017) 235–242”
91. Discussion on “Microsystem Technologies, https://doi.org/10.1007/s00542-018-4017-9
92. Comment on “Microsystem Technologies, https://doi.org/10.1007/s00542-018-3963-6”
93. Comments on “Archives of Civil and Mechanical Engineering 17 (2017) 564–573”
94. Comment on the paper “Magnetohydrodynamic effects on natural convection flow of a nanofluid in the presence of heat source due to solar energy, N. Anbuchezhian, K. Srinivasan, K. Chandrasekaran, R. Kandasamy, Meccanica (2013) 48:307–321”
95. Comment on the Paper “Effect of Radiation on Flow and Heat Transfer of MHD Dusty Fluid Over a Stretching Cylinder Embedded in a Porous Medium in Presence of Heat Source, P. T. Manjunatha, B. J. Gireesha, B. C. Prasannakumara, Int. J. Appl. Comput. Math, DOI 10.1007/s40819-015-0107-x, 2015”
96. Steady flow of a non-Newtonian Carreau fluid across an unconfined circular cylinder
97. 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'
98. Comment on the paper "Magnetic helicity and electromagnetic vortex filament flows under the influence of Lorentz force in MHD, Talat Körpinar, Ridvan Cem Demirkol, Zeliha Körpinar, Optik 242 (2021) 167302″
99. Comment on the paper "A scientific report of non-singular techniques on microring resonators: An application to optical technology, Kashif Ali Abro, Bhagwan Das, Optik 224 (2020) 165696"
100. Creeping flow around a sphere placed at the axis of a circular tube filled with non‐Newtonian power‐law fluid
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