Δημοσιεύσεις Μελών Εργαστηρίου σε Διεθνή Επιστημονικά Περιοδικά με Κριτές

2024

  • Ambarcumianas, T., Karulyté, G., & Xydis, G. (2024). Reaching the Heights: A Desk Study on Exploring Opportunities and Challenges for Lithuania’s Tallest Wind Turbine. Applied Sciences14(11), 4435. 
  • McClenny, I., Tynes, E., & Xydis, G. (2024). Wind-plus-storage integration in emerging markets–a GIS-driven proof-of-concept for Papua New Guinea. International Journal of Emerging Electric Power Systems, (0).
  • Strasszer, D., & Xydis, G. (2024). Integrating geothermal energy in Hungary: A case study on sustainable urban heating and emissions mitigation through the district heating infrastructure. Tunnelling and Underground Space Technology149, 105804.
  • Nanaki, E. A., Kiartzis, S., & Xydis, G. (2024). Is Greece Ready for a Hydrogen Energy Transition?—Quantifying Relative Costs in Hard to Abate Industries. Energies17(7), 1722.
  • Søgaard-Deakin, J., & Xydis, G. (2024). Green hydrogen production using proton membrane electrolysis of clean drinking water. Journal of Environmental Engineering and Science40(XXXX), 1-9. 
  • Baral, S., & Xydis, G. (2024). Unleashing the economic potential of wind power for ancillary services. International Journal of Emerging Electric Power Systems, (0).
  • E.N. Petropoulou, M. Ferdows, E.E. Tzirtzilakis. Exact solutions of Burgers equation with moving boundary. J. Math. Phys. 1 March 2024; 65  (3): 031507.
  •  J. Alam, G. Murtaza, E.E. Tzirtzilakis, S. Sun, M. Ferdows, Flow and Heat Transfer of CoFe2O4–Blood Due to a Rotating Stretchable Cylinder under the Influence of a Magnetic Field. Bioengineering 2024, 11, 317.
  • M.G. Murtaza, J.C. Misra, E.E. Tzirtzilakis, M. Ferdows. Biomagnetic fluid flow on a nonlinearly stretching sheet with variable thickness in a magnetic environment. J. Adv. App. Comput. Math. 2023, 10, 163–177.
  • Jahangir Alam, M. G. Murtaza, E. E. Tzirtzilakis and M. Ferdows, Partial slip effect of Cu, Au, TiO2nanoparticles in steady biomagnetic fluid flow and heat transfer over a stretching sheet in the presence of magnetic dipole, International Journal of Materials Engineering and  Technology 23(1) (2024), 37–56.
  • R. Prodhan, M. Ferdows, J.C. Misra, E. Tzirtzilakis and M.G. Murtaza, Non–Similar Analysis of Mixed Convection Biomagnetic Boundary Layer Flow Over a Vertical Plate with Magnetization and Localized Heating/Cooling, European Journal of Computational Mechanics, Vol. 33 2, 1–30.
  • Sadia Anjum Jumana, M.G. Murtaza, E.E. Tzirtzilakis, M. Ferdows, Biomagnetic Flow with Magnetic Particles over a continuously moving sheet affected by a magnetic dipole, Communications in Nonlinear Science and Numerical Simulation (2024), CNSNS 108132

 

2023

  • MD Hassan Faruk , Mohammad Ferdows , and E. E. Tzirtzilakis , ‘‘Hyperthermia Temperature Reduction in Bio Magnetic Flow:Thermal Transfer in Fe3O4Blood Particle Suspension with Uniform andNonUniform Effects’’, Physics of Fluids 35, 011902 (2023);  https://doi.org/10.1063/5.0128247.
  • M. G. Murtaza, Tamanna Akter, E. E. Tzirtzilakis and M. Ferdows, ‘‘Numerical study of biomagnetic fluid flow over an unsteady curved stretching sheet in the presence of magnetic field’’, Advances and Applications in Fluid Mechanics 30(1) (2023), 3562. http://dx.doi.org/10.17654/0973468623003.
  • J. Alam, M.G. Murtaza, E.E. Tzirtzilakis, M. Ferdows, ‘‘Parametric Simulation of Biomagnetic Fluid with Magnetic Particles Over a Swirling Stretchable Cylinder Under Magnetic Field Effect’’ BioNanoScience (2023), https://doi.org/10.1007/s1266802301117x.
  • Murtaza MG, Alam J, Tzirtzilakis EE, Ferdows M. Numerical Simulation of Slip Flow and Heat Transfer of Biomagnetic Fluid over a Stretching Sheet in the Presence of a Magnetic Dipole with Temperature Dependent Viscosity. Contemp. Math. [Internet]. 2023 Jun. 5 [cited 2023 Jun. 11];4(2):34761. https://doi.org/10.37256/cm.4220232685.
  • Alam, J., Murtaza, M.G., Tzirtzilakis, E.E. Ferdows M. A Parametric Simulation of MHD Flow and Heat Transfer of BloodFe3O4 Over an Exponentially Stretching Cylinder. BioNanoSci. (2023). https://doi.org/10.1007/s1266802301141x.
  • Murtaza MG, Begum J, Tzirtzilakis E, Ferdows M. MHD Flow and Heat Transfer of WaterBased Nanofluid Passing a Permeable Exponentially  Shrinking Sheet with Thermal Radiation. Contemp. Math. 4(2):358–7. Available from:
    https://ojs.wiserpub.com/index.php/CM/article/view/2684.
  • Sultana Jahan, Mohammad Ferdows & Efstratios Tzirtzilakis (2023) Convective flow of hybrid nano particles in combination of TiO2+CuO/engine oil MoS2+ZnO/engine oil and Al2O3+Cu/engine oil with viscous dissipation over vertically moving surface: Numerical and Galerkin approach, Numerical Heat Transfer, Part A: Applications, DOI: 10.1080/10407782.2023.2261145.
  • Chrimatopoulos, G. Tzirtzilakis, E.E. Xenos, M.A. Magnetohydrodynamic and Ferrohydrodynamic Fluid Flow Using the Finite Volume Method. Fluids 2024, 9, 5. https://doi.org/10.3390/fluids9010005.
  • Ferdows M, Jahan S, Tzirtzilakis E, Sun S. Magnetohydrodynamic hybrid nanofluid flow through moving thin needle considering variable viscosity and thermal conductivity. Advances in Mechanical Engineering. 2023 15 (11) doi:10.1177/16878132231208272.
  • Murtaza, G. Bonik, L. Tzirtzilakis, E.E. Ferdows, M. Finite Difference Simulation on Biomagnetic Fluid Flow and Heat Transfer with Gold Nanoparticles towards a Shrinking Sheet in the Presence of a Magnetic Dipole. Comput. Sci. Math. Forum 2023, 7, 18. https://doi.org/10.3390/IOCMA202314398.
  • Murtaza, G. Gomes, A. Alam, J. Tzirtzilakis, E.E. Ferdows, M. Numerical Solution of The Effects of Variable Fluid Properties on Biomagnetic Fluid over an Unsteady Stretching Sheet. Comput. Sci. Math. Forum 2023, 7, 15. https://doi.org/10.3390/IOCMA202314399.
  • M. G. Murtaza, Jahangir Alam, E.E. Tzirtzilakis, Md. Shamshuddin and M. Ferdows, Effects of Variable Fluid Properties and Mixed Convection on Biomagnetic Fluid Flow and Heat Transfer over a Stretching Sheet in the presence of Magnetic Dipole, Journal of Power Technologies 103 (4) 193-208, 2023.  ISSN 2083-4195. Available at: https://papers.itc.pw.edu.pl/index.php/JPT/article/view/1759

2022

  • N. P. Karagiannakis, E. D. Skouras, V. N. Burganos, “Modelling Thermal Conduction in Polydispersed and Sintered Nanoparticle Aggregates,” Nanomaterials 12(1), 25, doi:‌10.3390/‌nano12010025 (2022).
  • A. Gul, E.E. Tzirtzilakis & S.S. Makhanov, “A two-phase, two-way coupled model of targeted magnetic drug delivery for small Reynolds numbers”, Engineering Applications of Computational Fluid Mechanics, 16:1, 374-396, https://doi.org/10.1080/19942060.2021.2016493, 2022.
  • A. Gul, E.E. Tzirtzilakis & S.S. Makhanov, “Simulation of Targeted Magnetic Drug Delivery. Two-way Coupled Biomagnetic Fluid Dynamics Approach”, Physics of Fluids, 34, 021911, https://doi.org/10.1063/5.0080216, 2022.
  • M. Ferdows, J. Alam, G. Murtaza, E.E. Tzirtzilakis, S. Sun, “Biomagnetic Flow with CoFe2O4 Magnetic Particles through an Unsteady Stretching/Shrinking Cylinder”. Magnetochemistry, 8, 27, https://www.mdpi.com/2312-7481/8/3/27, 2022.
  • J. Alam, M.G. Murtaza, E.E. Tzirtzilakis, M.G. Ferdows, ‘‘Magnetohydrodynamic and Ferrohydrodynamic Interactions on the Biomagnetic Flow and Heat Transfer Containing Magnetic Particles Along a Stretched Cylinder’’, European Journal of Computational Mechanics, Vol. 31, Is. 1, https://doi.org/10.13052/ejcm2642–2085.3111, 2022.
  • M. Mahabub, M. Ferdows, M. Gluam Murtaza, G. Lorenzini, E.E. Tzirtzilakis, ‘‘Numerical study of unsteady boundary layer flow of a biomagnetic fluid over a horizontal stretching sheet with magnetic dipole’’. Mathematical Modelling of Engineering Problems, Vol. 9, No. 1, pp. 215–223. https://doi.org/10.18280/mmep.090127, 2022.
  • J. Alam, M.G. Murtaza, E.E. Tzirtzilakis, M.G. Ferdows, ‘‘Application of Biomagnetic Fluid Dynamics modeling for simulation of flow with magnetic particles and variable fluid properties over a stretching cylinder’’, Mathematics and Computers in Simulation, Vol. 199, pp. 438–462, https:// doi.org/10.1016/ j.matcom. 2022. 04. 008, 2022.
  • Alam J, Murtaza MG, Tzirtzilakis EE, Ferdows M. Group method analysis for bloodMnZnFe2O4 flow and heat transfer under  ferrohydrodynamics through a stretched cylinder. Math Meth Appl Sci. 2022; 11807–11827. doi:10.1002/mma.8482.
  • Alam, J.; Murtaza, M.G., Petropoulou, E.N. Tzirtzilakis, E.E. Ferdows, M. Applications of a Group Theoretical Method on Biomagnetic Fluid Flow and Heat Transfer for Different Shapes of Fe3O4 Magnetic Particles under the Influence of Thermal Radiation and a Magnetic Dipole Over a Cylinder. Mathematics 2022, 10, 3520. https://doi.org/10.3390/math10193520.
  • S.A. Jumana, M. Ferdows and E.E. Tzirtzilakis, BioMagnetic Flow Of Heat Transfer Over Moving Horizontal Plate By The Presence Of Variable Viscosity And Temperature Journal of Mechanics in Medicine and Biology https://doi.org/10.1142/S0219519422500634.

2021

  • K.E. Hoque, M. Ferdows, S. Sawall, E.E. Tzirtzilakis and M.A. Xenos, “Hemodynamic characteristics expose the atherosclerotic severity in coronary main arteries: One-dimensional and three-dimensional approaches”. Phys. Fluids, 33, 121907, 2021.
  • M. Ferdows, M.G. Murtaza, J.C. Misra, E.E. Tzirtzilakis, F. Alzahrani, “Dual solutions for boundary layer flow and heat transfer of biomagnetic fluid over a stretching/shrinking sheet in presence of a magnetic dipole and a prescribed heat flux”, International Journal of Applied Electromagnetics and Mechanics, vol.65, pp. 235-251, 2021.
  • K.E. Hoque, M.G. Murtaza, S. Sawall, E.E. Tzirtzilakis and M.A. Xenos, “The impact of hemodynamic factors in a coronary main artery to detect the atherosclerotic severity: Single and multiple sequential stenosis cases”.  Phys. Fluids, 33, 031903, 2021.
  • Alam, J. Murtaza, G. Tzirtzilakis, E. Ferdows, M. “Biomagnetic Fluid Flow and Heat Transfer Study of blood with Gold Nanoparticles over a Stretching Sheet in the Presence of Magnetic Dipole.”  Fluids, 6, 113, 2021.
  • Alam, J. Murtaza, G. Tzirtzilakis, E. Ferdows, M. “Effect of Thermal Radiation on Biomagnetic Fluid Flow and Heat Transfer over an Unsteady Stretching Sheet.” Computer Assisted Methods in Engineering and Science, 2021.
  • M.G. Murtaza, E.E. Tzirtzilakis, M. Ferdows, “A Duality of Biomagnetic fluid flow and heat transfer over a quadratic stretched sheet”  Journal of Power Technologies, Vol. 101 Is. 3 pp.154-162, 2021.
  • A. Gomes, J. Alam, G. Murtaza, T. Sultana, E.E. Tzirtzilakis, M. Ferdows, “Aligned Magnetic Field and Radiation Effects on Biomagnetic Fluid over an Unsteady Stretching Sheet with Various Slip Conditions.” Applied Math, Vol. 1, pp. 37-62, 2021.

2020

2019

2018

2017

  • M. Ferdows, T.S. Khalequ, E.E. Tzirtzilakis, and Sh. Sun, “Effects of Radiation and Thermal Conductivity on MHD Boundary Layer Flow with Heat Transfer along a Vertical Stretching Sheet in a Porous Medium”, Journal of Engineering Thermophysics, Vol. 26, No. 1, pp. 1-11, 2017.
  • N. Bali, C. A. Aggelopoulos, E. D. Skouras, C. D. Tsakiroglou, V. N. Burganos, “Hierarchical modeling of plasma and transport phenomena in a dielectric barrier discharge reactor”, Journal of Physics D: Applied Physics 50 (50), 505202.
  • M. Ferdows, A.A. Afify, E.E. Tzirtzilakis, “Hall Current and Viscous Dissipation Effects on Boundary Layer Flow of Heat Transfer Past a Stretching Sheet”, Int. J. Appl. Comput. Math, DOI 10.1007/s40819-017-0309-5, (17 pages), 2017.
  • V. N. Burganos, E. D. Skouras, A. N. Kalarakis, “An integrated simulator of structure and anisotropic flow in gas diffusion layers with hydrophobic additives”, Journal of Power Sources 365, 179-189, 2017.
  • M.G.Murtaza, E.E. Tzirtzilakis and M. Ferdows, “Eff ect of electrical conductivity and magnetization on the biomagnetic fluid flow over a stretching sheet”, ZAMP, 68:93, 2017, DOI 10.1007/s00033-017-0839-z.
  • N. Bali, A. J. Petsi, E. D. Skouras, V. N. Burganos, “Three-dimensional reconstruction of bioactive membranes and pore-scale simulation of enzymatic reactions: The case of lactose hydrolysis”, Journal of Membrane Science 524, 225-234, 2017.

2016

  • E. D. Skouras, V. Sygouni, G. N. Constantinides, C. A. Paraskeva, “Flow, Transport, and Controlled Sedimentation of Salt Solutions in Porous Formations with Enhanced Structural Properties”, Crystal Growth & Design 16 (11), 6230-6238, 2016.
  • I. karim, M.S. Khan, M.M. Alam, M.A. Rouf, M. Ferdows, E.E. Tzirtzilakis, “Transient Heat And Mass Transfer Flow Through Salt Water In An Ocean By Inclined Angle”, Technological Engineering, Vol. XIII, No. 2, pp. 21–27, 2016.
  • N. P. Karagiannakis, G. C. Bourantas, A. N. Kalarakis, E. D. Skouras, and V. N. Burganos, “Transient Thermal Conduction with Variable Conductivity using the Meshless Local Petrov-Galerkin Method,” Applied Mathematics and Computation, 272(3), 676-686, doi:10.1016/j.amc.2015.02.084 (2016).
  • A. Vouros, A. Vouros and Th. Panidis, “Experimental Study of a Water–Mist Jet Issuing Normal to a Heated Flat Plate”  Thermal Science, Volume 20 (2),  473-482 2016 doi:10.2298/TSCI130514149V (2016).
  • Md. Shakhaoath Khan, Md. Mahmud Alam, M Ferdows, E.E. Tzirtzilakis , Ifsana Karim and Shuyu Sun, “Rotating Fluid Flow on MHD Radiative Nanofluid past a Stretching Sheet”, International Journal of Advanced Thermofluid Research, Vol. 2, No. 1, pp. 15–30, 2016.
  • Md. Shakhaoath Khan, Md. Mahmud Alam, E.E. Tzirtzilakis, M Ferdows, and Ifsana Karim, “Finite Difference Solution of MHD Radiative Boundary Layer Flow of a Nanofluid past a Stretching Sheet with Stability Analysis”, International Journal of Advanced Thermofluid Research, Vol. 2, No. 1,31–46, 2016.
  • E. D. Skouras, V. N. Burganos, “Three-Dimensional Simulation of the Effects of Demolition Waste Recycling into Rotary Cement Kilns”, 
    Industrial & Engineering Chemistry Research 56 (1), 301-310, 2016.
  • G.P. Panagopoulos, D. Angelopoulou, E.E. Tzirtzilakis, P. Giannoulopoulos, “The contribution of cluster and discriminant analysis to the classification of complex aquifer systems“, Environmental Monitoring and Assessment, , 188:591, DOI: 10.1007/s10661-016-5590-y

2015

  • E.E. Tzirtzilakis, “Biomagnetic Fluid Flow in an Aneurism Using FerroHydroDynamics Principles”, Physics of Fluids 27, 061902, doi:10.1063/1.4922757 (2015).

2014

  • Α. Raptis, M. Xenos, E.E. Tzirtzilakis, and M. Matsagkas, ‘‘Finite element analysis of magnetohydrodynamic effects on blood flow in an aneurysmal geometry’’, Physics of Fluids 26, 101901, doi:10.1063/1.4895893 (2014).
  • G. C. Bourantas, E. D. Skouras, V. C. Loukopoulos, and V. N. Burganos, “Heat Transfer and Natural Convection of Nanofluids in Porous Media,” European Journal of Mechanics – B/Fluids 43, 45-56, doi:10.1016/j.euromechflu.2013.06.013 (2014).
  • M. S. Valavanides and E. D. Skouras, “Rational Solitary Well Spacing in Soil Remediation Processes,” Fresenius Environmental Bulletin 23(11), 2847-2851 (2014).

2013

  • E.E. Tzirtzilakis and M.A. Xenos, “Biomagnetic fluid flow in a driven cavity”, MECCANICA 48 (1), 187-200 (2013).
  • E.N. Petropoulou and E.E. Tzirtzilakis, “On the logistic equation in the complex plane”, Numerical Functional Analysis and Optimization 34 (7), 770–790 (2013).
  • M.A. Xenos and E.E. Tzirtzilakis, “MHD Effects on Blood Flow in a Stenosis”, Advances in Dynamical Systems and Applications 8 (2), 427–437 (2013).
  • G. C. Bourantas, E. D. Skouras, V. C. Loukopoulos, and G. C. Nikiforidis, “Natural convection of nanofluids flow with “nanofluid-oriented” models of thermal conductivity and dynamic viscosity in the presence of heat source”, International Journal of Numerical Methods for Heat & Fluid Flow 23 (2), 248-274, doi:10.1108/09615531311293452 (2013).

2012

  • Α. Vouros, Th. Panidis, “Statistical Analysis of turbulent thermal free convection over a horizontal heated plate in an open top cavity”, Experimental Thermal and Fluid Science 36, 44-55 (2012).A. A. Dimas,
  • A. P. Vouros “Effect of cross-flow velocity at forebay on swirl in pump suction pipe: Hydraulic Model of Seawater Intake at Aliveri Power Plant in Greece”, Hydraulic Engineering 138 (9), 812-816 (2012).
  • Α. Vouros and Th. Panidis, “Turbulent free convection over a horizontal heated plate in an open top cavity”, Journal of Physics: Conference Series 395, Eurotherm, Poitiers – Futuroscope, France, No 012126, 1-8 (2012).
  • A. N. Kalarakis, V. K. Michalis, E. D. Skouras, and V. N. Burganos, “Mesoscopic simulation of rarefied flow in narrow channels and porous media,” Transport in Porous Media 94 (1), 385-398, doi:10.1007/s11242-012-0010-4 (2012).
  • G. C. Bourantas, A. J. Petsi, E. D. Skouras, and V. N. Burganos, “Meshless point collocation for the numerical solution of Navier-Stokes flow equation inside an evaporating sessile droplet,” Engineering Analysis with Boundary Elements 36, 240-247, doi:10.1016/j.enganabound.2011.07.019 (2012).
  • A. N. Kalarakis, G. C. Bourantas, E. D. Skouras, V. C. Loukopoulos, and V. N. Burganos, “Lattice-Boltzmann and meshless point collocation solvers for fluid flow and conjugate heat transfer,” International Journal of Numerical Methods in Fluids 70(11), 1428-1442, doi:10.1002/fld.2755 (2012).

2011

  • P. Krokidas, E. D. Skouras, V. Nikolakis, and V. N. Burganos, “Lattice dynamics simulation of thermal contraction of faujasites”, Journal of Physical Chemistry C 114 (51), 22441, doi:10.1021/jp1073736 (2011).
  • V. C. Loukopoulos, G. C. Bourantas, E. D. Skouras, and G. C. Nikiforidis, “Localized meshless point collocation (LMPC) method for time-dependent magnetohydrodynamics (MHD) flow through pipes under a variety of wall conductivity conditions,” Computational Mechanics 47 (2), 137-159, doi:10.1007/s00466-010-0535-8 (2011).
  • E. D. Skouras, C. A. Paraskeva, V. N. Burganos, and A. C. Payatakes, “Phenomenological description and network simulation of horizontal filtration dynamics”, Separation & Purification Technology 80 (1), 105-118, doi:10.1016/j.seppur.2011.04.016 (2011).
  • A. J. Petsi, A. N. Kalarakis, E. D. Skouras, and V. N. Burganos, “Flow and Colloidal Particle Deposition in the Interior of Evaporating Sessile Droplets,” American Institute of Physics (AIP Conf. Proc.) 1281, 686-189, doi:10.1063/1.3498571 (2011).

2010

  • E.E. Tzirtzilakis and N.G. Kafoussias, “Three-Dimensional Magnetic Fluid Boundary Layer Flow over a Linearly Stretching Sheet”, ASME J. Heat Transfer 132 (1), 011702-1 (2010).
  • E.E. Tzirtzilakis, N.G. Kafoussias, A. Raptis, “Numerical study of forced and free convective boundary layer flow of a magnetic fluid over a flat plate under the action of a localized magnetic field”, ZAMP 61 (5), 929-947 (2010).
  • G. C. Bourantas, E. D. Skouras, V. C. Loukopoulos, and G. C. Nikiforidis, “Meshfree point collocation schemes for 2D steady state incompressible Navier-Stokes equations in velocity-vorticity formulation for high values of Reynolds number”, CMES-Computer Modeling in Engineering & Sciences 59 (1), doi:10.3970/cmes.2010.059.031, 31-63 (2010).
  • G. K. Michalis, A. N. Kalarakis, E. D. Skouras, and V. N. Burganos, “Rarefaction Effects on Gas Viscosity in the Knudsen Transition Regime”, Microfluidics and Nanofluidics 9 (4-5), 847-853, doi:10.1007/s10404-010-0606-3 (2010).
  • E. D. Skouras, G. C. Bourantas, V. C. Loukopoulos, and G. C. Nikiforidis, “Truly meshless localized type techniques for the steady-state heat conduction problems for isotropic and functionally graded materials”, Engineering Analysis with Boundary Elements 35 (3), 452-464, doi:10.1016/j.enganabound.2010.09.007 (2010).
  • G. C. Bourantas, E. D. Skouras, V. C. Loukopoulos, and G. C. Nikiforidis, “Numerical solution of non-isothermal fluid flows using local radial basis functions (LRBF) interpolation and a velocity-correction method”, CMES-Computer Modeling in Engineering & Sciences 64 (2), 187-212, doi:10.3970/cmes.2010.064.187 (2010).

2009

  • Xenos, E. Tzirtzilakis and N. Kafoussias, “Methods of optimizing separation of compressible turbulent boundary-layer over a wedge with heat and mass transfer”, Int. J. Heat and Mass Transfer, 52 (1-2), 488-496 (2009).
  • E.N. Petropoulou, P.D. Siafarikas and E.E. Tzirtzilakis, “A “discretization” technique for the solution of ODEs II”, Numerical Functional Analysis and Optimization 30 (5-6), 613 – 631 (2009).
  • G. C. Bourantas, E. D. Skouras, and G. C. Nikiforidis, “Adaptive support domain implementation on the Moving Least Squares approximation for Mfree methods applied on elliptic and parabolic PDE problems using strong-form description”, CMES-Computer Modeling in Engineering & Sciences 43 (1), 1-25, doi:10.3970/cmes.2009.043.001 (2009).
  • V. K. Michalis, A. N. Kalarakis, E. D. Skouras, and V. N. Burganos, “Mixing within fracture intersections during colloidal suspension flow”, Water Resources Research 45, W08429, doi:10.1029/2008WR007659 (2009).
  • G. C. Bourantas, V. C. Loukopoulos, E. D. Skouras, and G. C. Nikiforidis, “An Accurate, Stable and Efficient Domain-type Meshless Method for the Solution of MHD Flow Problems”, Journal of Computational Physics 228 (21), 8135-8160, doi:10.1016/j.jcp.2009.07.031 (2009).

2008

  • E.E. Tzirtzilakis, “Biomagnetic fluid flow in a channel with stenosis”, Physica D 237, 66-81 (2008).
  • N.G. Kafoussias, A. Raptis, and E.E. Tzirtzilakis, “Free – forced convective boundary layer flow of a biomagnetic fluid under the action of a localized magnetic field”, Canadian Journal of Physics 86, 447-457 (2008).
  • E.E. Tzirtzilakis, “A simple numerical methodology for BFD problems using stream function vorticity formulation”, Communications in Numerical Methods in Engineering, 24, 683-700 (2008).
  • Ferdows, E. Tzirtzilakis, Koji Kaino and Chien-Hsin Chen, “Soret and Dufour Effects on Natural Convection Heat and Mass Transfer Flow in a Porous Medium Considering Internal Heat Generation”, International Journal of Applied Mathematics & Statistics, 13, No. D08, 36-48 (2008).
  • Athanasios A. Dimas, Nikolaos Th. Fourniotis, Andreas P. Vouros, Alexander, C. Demetracopoulos ”Effect of bed dunes on spatial development of open – channel flow”, Journal of Hydraulic Research 46 (6), 802 – 813 (2008).
  • V. K. Michalis, A. N. Kalarakis, E. D. Skouras, and V. N. Burganos, “Mesoscopic Modeling of Flow and Dispersion Phenomena in Fractured Solids”, Computers & Mathematics with Applications 55 (7), 1525-1540, doi:10.1016/j.camwa.2007.08.025 (2008).
  • N. Navascues, E. D. Skouras, V. Nikolakis, V. N. Burganos, C. Tellez, J. Coronas, “Re­construction of umbite framework variants by atomistic simulations using XRD and sorption data”, Chemical Engineering & Processing 47 (7), 1139-1149, doi:10.1016/j.cep.2007.05.025 (2008).
  • P. Krokidas, E. D. Skouras, V. Nikolakis, and V. N. Burganos, “Simulated annealing effects on Na-FAU crystal reconstruction and sorption efficiency”, Molecular Simulation 34 (10-15), 1299-1309, doi:10.1080/08927020802208950 (2008).
  • G. C. Kagadis, E. D. Skouras, G. C. Bourantas, C. A. Paraskeva, K. Katsanos, D. Karnabatidis, and G. C. Nikiforidis, “Computational representation and hemodynamic characterization of in-vivo acquired severe stenotic renal artery geometries using turbulence modeling”, Medical Engineering & Physics 30 (5), 647-660, doi:10.1016/j.medengphy.2007.07.005 (2008).

2007

  • E.N. Petropoulou, P.D. Siafarikas and E.E. Tzirtzilakis, “A “discretization” technique for the solution of ODEs”, Journal of Mathematical Analysis and Applications 331 (1), 279-296 (2007).
  • E. D. Skouras, C. A. Paraskeva, V. N. Burganos, and A. C. Payatakes, “Simulation of the Dynamic Behavior of Horizontal Granular Filters”, Separation & Purification Technology 56 (3), 325-339, doi:10.1016/j.seppur.2007.02.015 (2007).

2006

  • E.E. Tzirtzilakis, M. Xenos, V.C. Loukopoulos and N.G. Kafoussias, “Turbulent biomagnetic fluid flow in a rectangular channel under the action of a localized magnetic field”, International Journal of Engineering Science 44, 1205-1224 (2006).
  • N. Navascues, E. D. Skouras, V. Nikolakis, V. N. Burganos, C. Tellez, J. Coronas, J. Santamaria “Exploring chemical composition effects on umbite structure and gas separation properties using atomistic simulations”, Desalination 199 (1-3), 368-370, doi:10.1016/j.desal.2006.03.213 (2006).

2005

  • E.E. Tzirtzilakis and V.C. Loukopoulos, “Biofluid flow in a channel under the action of a uniform localized magnetic field”, Computational Mechanics 36, 360-374 (2005).
  • E.E. Tzirtzilakis, “A Mathematical model for blood flow in magnetic field”, Physics of Fluids 17, 077103 (2005).
  • P. Gaganis, E. D. Skouras, M. A. Theodoropoulou, C. D. Tsakiroglou, and V. N. Burganos, “On the Evaluation of Dispersion Coefficients from Visualization Experiments in Artificial Porous Media”, Journal of Hydrology 307 (1-4), doi:10.1016/j.hydrol.2004.09.023, 79-91(2005).

2004

  • V. Loukopoulos and E. Tzirtzilakis, “Biomagnetic channel flow in spatially varying magnetic field”, International Journal of Engineering Science 42, 571-590 (2004).
  • E.E. Tzirtzilakis, V.D. Sakalis, N.G. Kafoussias, P.M. Hatzikonstantinou, “Biomagnetic Fluid Flow in a 3D Rectangular Duct”, International Journal for Numerical Methods in Fluids 44, 1279-1298 (2004).
  • P.K. Papadopoulos and E.E. Tzirtzilakis, “Biomagnetic flow in a curved square duct under the influence of an applied magnetic field”, Physics of Fluids 16 (8), 2952-2962 (2004).
  • E. D. Skouras, V. N. Burganos, C. A. Paraskeva, and A. C. Payatakes, “Simulation of downflow and upflow depth filtration of non-Brownian particles under constant flowrate or constant pressure drop conditions”, Journal of Chinese Institute of Chemical Engineers 35 (1), 87-100 (2004).

2003

  • E. Tzirtzilakis and N. Kafoussias, ” Biomagnetic fluid flow over a stretching sheet with non linear temperature dependent magnetization”, ZAMP 54, 551-565 (2003). 
  • E. Tzirtzilakis and G. Tanoudis, “Numerical Study of Biomagnetic Fluid over a Stretching Sheet with Heat Transfer”, International Journal for Numerical Methods in Heat and Fluid Flow 13 (7), 830-848 (2003).

2002

  • E. Tzirtzilakis, M. Xenos, V. Marinakis, T.C. Bountis, “Interactions and Stability of Solitary Waves in Shallow Water”, Chaos, Solitons and Fractals 14, 87-95 (2002).
  • E. Tzirtzilakis, V. Marinakis, C. Apokis and T.C. Bountis, “Soliton–like Solutions of Higher Order Wave Equations of the KdV Type”, Journal of Mathematical Physics 43 (12), 6151-6165 (2002).

2001

  • V. N. Burganos, E. D. Skouras, C. A. Paraskeva, and A. C. Payatakes, “Simulation of the dynamics of depth filtration of non-Brownian particles”, AIChE Journal 47 (4), 880-894, doi:10.1002/aic.690470411 (2001).
  • E. D. Skouras, V. N. Burganos, and A. C. Payatakes, “Improved atomistic simulation of diffusion and sorption in metal oxides”, Journal of Chemical Physics 114 (1), 545-552, doi:10.1063/1.1330727 (2001).

1999

  • E. D. Skouras, V. N. Burganos, and A. C. Payatakes, “Simulation of gas diffusion and sorption in nanoceramic semiconductors”, Journal of Chemical Physics 110 (18), 9244-9253, doi:10.1063/1.478848 (1999).