PEER REVIEWED JOURNAL PUBLICATIONS
J1 Michailides C and Angelides DC (2012), “Modeling of energy extraction and behavior of a Flexible Floating Breakwater”, Applied Ocean Research, Vol 35, pp 77-94.
J2 Loukogeorgaki E, Michailides C and Angelides DC (2012), “Hydroelastic analysis of Flexible Mat-Shaped Floating Breakwaters under Oblique Wave Action”, Journal of Fluids and Structures, Vol 31, pp 103-124.
J3 Michailides C, Loukogeorgaki E and Angelides DC (2013), “Response Analysis and Optimum Configuration of a Modular Floating Structure with Flexible Connectors”, Applied Ocean Research, Vol 43, pp 112-130.
J4 Michailides C (2014), “Power Production of the Novel WLC Wave Energy Converter in Deep and Intermediate Water Depths”, Recent Patents on Engineering, Vol 9(1), pp 42-51.
J5 Michailides C and Angelides DC (2014), “Optimization of a Flexible Floating Structure for Wave Energy Production and Protection Effectiveness”, Engineering Structures, Vol 85, pp 249-263.
J6 Karimirad M and Michailides C (2015), “V-shaped Semisubmersible Offshore Wind Turbine: an alternative concept for offshore wind technology”, Renewable Energy, Vol 83, pp 126-143.
J7 Michailides C and Karimirad M (2015), “Mooring System Design and Classification of an Innovative Offshore Wind Turbine in Different Water Depth”, Recent Patents on Engineering, Vol 9(2), pp 104-112.
J8 Gao Z, Moan T, Wan L and Michailides C (2016), “Comparative numerical and experimental study of two combined wind and wave energy concepts”, Journal of Ocean Εngineering and Science, Vol 1, pp 36-51.
J9 Michailides C, Gao Z and Moan T (2016), “Experimental Study of the Functionality of a Semisubmersible Wind Turbine Combined with Flap-Type Wave Energy Converters”, Renewable Energy, Vol 93, pp 675-690.
J10 Karimirad M and Michailides C (2016), “V-shaped Semisubmersible Offshore Wind Turbine Subjected to Misaligned Wave and Wind”, Journal of Renewable and Sustainable Energy, Vol 8(2), pp 023305-1-023305-17.
J11 Michailides C, Gao Z and Moan T (2016), “Experimental and numerical study of the response of the offshore combined wind/wave energy concept SFC in extreme environmental conditions”, Marine Structures, Vol 50, pp 35-54.
J12 Michailides C, Gao Z and Moan T (2017), “Wave- and Wind-induced Responses of the Semisubmersible Wind Energy and Flap-type Wave Energy Converter Based on Experiments”, International Journal of Offshore and Polar Engineering Vol 27(1), pp 54-62.
J13 Michailides C (2017), “Power Performance and Dynamic Response of the WLC Wave Energy Converter Based on Hydroelastic Analysis”, International Journal of Marine Energy Vol 19, pp 83-94.
J14 Li QY, Michailides C, Gao Z and Moan T (2018), “Α comparative study of different methods for predicting the long-term extreme structural responses of the combined wind and wave energy concept SFC”, Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment, Vol 232(1), pp 85-96.
J15 Kelly C, Blanco ED, Michailides C, Davies P and Wang J (2018), “Site selection appraisal for tidal turbine development in the River Mersey”, Journal of Marine Technology and Application Vol 17(1), pp 112-121.
J16 Yang Y, Ye K, Li C, Michailides C and Zhang W (2018), “Research on the Dynamic Behavior Influenced by Aerodynamic Damping and Earthquake Intensity for Wind Turbines” Wind Energy Vol 21(5), pp 303-319.
J17 Karimirad M and Michailides C (2019), “Fault Condition Effects on the Dynamic Response of V-shaped Offshore Wind Turbine”, Journal of Marine Science and Technology Vol 24, pp 34-45.
J18 Panapakidis IP, Michailides C and Angelides DC (2019), “Implementation of pattern recognition algorithms in processing incomplete wind speed data for energy assessment of offshore wind turbines”, Electronics, 8(4), 418.
J19 Panapakidis IP, Michailides C and Angelides DC (2019), “A data driven short-term forecasting model for offshore wind speed prediction based on computational intelligence”, Electronics, 8(4), 420.
J20 Mamatsopoulos V, Michailides C and Theotokoglou EE (2020), “An Analysis Tool for the Installation of Submarine Cables in an S-Lay Configuration Including “In and Out of Water” Cable Segments”, Journal of Marine Science and Engineering, 8(1), 48.
J21 Zhang L, Shi W, Karimirad M, Michailides C, Jiang Z (2020), “Second-order hydrodynamic effects on the response of three semisubmersible floating offshore wind turbines”, Ocean Engineering, 207, 107371.
J22 Wang Y, Zhang L, Michailides C, Wan L and Shi W (2020), “Hydrodynamic Response of a Combined Wind–Wave Marine Energy Structure”, Journal of Marine Science and Engineering, 8(4), 253.
J23 Yang Y, Bashir M, Li C, Michailides C and Wang J (2020), “Mitigation of coupled wind-wave-earthquake responses of a 10 MW fixed-bottom offshore wind turbine”, Renewable Energy, 157, pp 1171-1184.
J24 Tang Y, Shi W, You J and Michailides C (2021), “Effects of nonlinear wave loads on large monopile offshore wind turbines with and without ice-breaking cone configuration”, Journal of Marine Science and Technology, https://doi.org/10.1007/s00773-020-00719-4, 26, pp 37-53.
J25 Yang Y, Bashir M, Michailides C, Li C and Wang J (2020), “Development and application of an aero-hydro-servo-elastic coupling framework for analysis of floating offshore wind turbines”, Renewable Energy, 161, pp 606-625.
J26 Anastasiadis P, Theotokoglou EE and Michailides C (2020), “Numerical analysis of stress concentration factors on tensile armour wires inside the end-fitting of an axially tensed unbonded flexible pipe”, Journal of Structural Integrity and Maintenance, 5(2), pp 72-86 (Issue 2: Structural Integrity of Offshore Energy Industry).
J27 Michailides C, Loukogeorgaki E and Chatjigeorgiou IK (2020), “Wave Exciting Force Maximization of Truncated Cylinders in a Linear Array”, Energies, 13(9), 2400.
J28 Tang Y, Shi W, Ning D, You J and Michailides C (2020), “Effects of Spilling and Plunging Type Breaking Waves Acting on Large Monopile Offshore Wind Turbines”, Frontiers in Marine Science, 7, 427, doi: 10.3389/fmars.2020.00427.
J29 Yang Y, Bashir M, Wang J, Michailides C, Loughney S, Armin Μ, Hernandez S, Urbano J and Li C (2020), “Wind-wave coupling effects on the fatigue damage of tendons for a 10 MW multi-body floating wind turbine”, Ocean Engineering, 217, 107909.
J30 Zhang L, Michailides C, Wang Y and Shi W (2020), “Moderate water depth effects on the response of a floating wind turbine”, Structures, 28, pp. 1435-1448.
J31 Mamatsopoulos V, Michailides C, Theotokoglou EE and Onoufriou T (2020), “Critical Water Depth and Installation Curves for Submarine Cable Deployment Process”, Journal of Marine Science and Engineering, 8(11), 838.
J32 Panagiotou CF, Stylianou FS, Gravanis E, Akylas E and Michailides C (2020) “An Explicit Algebraic Closure for Passive Scalar-Flux: Applications in Channel Flows at a Wide Range of Reynolds Numbers”, Journal of Marine Science and Engineering, 8(11), 916.
J33 Gravanis E, Akylas E, Michailides C and Livadiotis G (2021), “Superstatistics and Ιsotropic Τurbulence”, Physica A: Statistical Mechanics and its Applications, 527, 125694.
J34 Demetriou D, Michailides C, Papanastasiou G and Onoufriou T (2021), “Coastal Zone Significant Wave Height Prediction by Supervised Machine Learning Classification Algorithms”, Ocean Engineering, 221, 108582.
J35 Michailides C (2021), “Ηydrodynamic response and produced power of a combined concept consisting of a spar and heaving type WECs”, Energies, 14(1), 225.
J36 Michailides C (2021), “VD-PQ; A Velocity Dependent Viscous Damping Model for Wave-Structure Interaction Analysis”, Journal of Marine Science and Engineering, 9(2), 175.
J37 Chatzimarkou E and Michailides C (2021), “A Comparative Study of Breaking Wave Loads on Cylindrical and Conical Substructures”, Water, 13, 924.
J38 Sakaris C, Bashir M, Yang Y, Michailides C, Wang J, Sakellariou J (2021), “Diagnosis of damaged tendons on a 10 MW multibody floating offshore wind turbine platform via a response-only Functional Model Based Method”, Engineering Structures, 242, 112384.
J39 Zeng X, Shi W, Michailides C, Zhang S, Li X (2021), “Numerical and experimental investigation of breaking wave forces on a monopile-type offshore wind turbine”, Renewable Energy, 175, 501-519.
J40 Zeng X, Shi W, Michailides C, Wang S, Li X (2021), “Comparative experimental and numerical study of wave loads on a monopile structure using different turbulence models”, China Ocean Engineering (Springer) 35(4), pp 554-565.
J41 Yang Y, Bashir M, Michailides C, Wang J and Li C,(2021), “ Coupled Analysis of a 10 MW Multi-Body Floating Offshore Wind Turbine Subjected to Tendon Failures”, Renewable Energy, 176, 89-105.
J42 Loukogeorgaki E, Michailides C, Lavidas G and Chatjigeorgiou IK (2021), “Layout optimization of heaving Wave Energy Converters linear arrays in front of a vertical wall”, Renewable Energy, 179, 189-203.
J43 Sakaris C, Bashir M, Yang Y, Michailides C, Wang J, Sakellariou J and Li C (2021), “Structural health monitoring of multibody floating offshore wind turbine tendons under varying environmental and operating conditions”, Renewable Energy, 179, pp 1897-1914.
J44 Li J, Shi W, Zhang L, Michailides C and Li X (2021), “Wind-Wave Coupling Effect on the Dynamic Response of a Combined Wind-Wave Energy Converter”, Journal of Marine Science and Engineering, 9, 1101.
J45 Demetriou D, Michailides C, Papanastasiou G and Onoufriou T (2021), “Nowcasting significant wave height by hierarchical machine learning classification”, Ocean Engineering, 242, 110130.
J46 Wang Y, Shi W, Michailides C, Wan L, Kim H, Li X (2022), “WEC shape effect on the motion response and power performance of a combined wind-wave energy converter”, Ocean Engineering, 250, 111038.
J47 Kyriakidis P, Moutsiou T, Nikolaidis A, Reepmeyer C, Leventis G, Demesticha S, Akylas E, Kassianidou V, Michailides C, Zomeni Z, Mayer D, Makovsky Y, McCartney C (2022), “Virtual Sea-Drifting Experiments between the Island of Cyprus and the Surrounding Mainland in the Early Prehistoric Eastern Mediterranean”, Heritage, 5(4):3081-3099.
J48 Zeng Y, Shi W, Michailides C, Ren Z, Li X (2022), “Turbulence model effects on the hydrodynamic response of an oscillating water column (OWC) with use of a computational fluid dynamics model”, (Energy, Elsevier accepted for publication).
J49 Chatzimarkou E, Michailides C and Onoufriou T (2022), “Performance of a coupled level-set and volume-of-fluid method combined with free surface turbulence damping boundary condition for simulating wave breaking in OpenFOAM”, Ocean Engineering, 265, 112572.
J50 Shi W, Li J, Michailides C, Chen M, Wang S and Li Y (2022), “Dynamic Load Effects and Power Performance of an Integrated Wind–Wave Energy System Utilizing an Optimum Torus Wave Energy Converter”, Journal of Marine Science and Engineering, 10121985.
J51 Shi W, Zhang L, Karimirad M, Michailides C and Jiang Z (2023), “Combined effects of aerodynamic and second-order hydrodynamic loads for floating wind turbines at different water depths”, Applied Ocean Research, 130, 103416.
J52 Zhang L, Shi W, Zeng Y, Michailides C, Zheng S and Li Y (2023), “Experimental investigation on the hydrodynamic effects of heave plates used in floating offshore wind turbines”, Ocean Engineering, 267, 113103.
J53 Shi W, Zhang S, Michailides C, Zhang L, Zhang P and Li Y (2023), “Experimental investigation of the hydrodynamic effects of breaking waves on monopiles in model scale”, Journal of Marine Science and Technology, (Accepted for publication).
J54 Tian W, Wang Y, Shi W, Michailides C, Wan L, Chen M (2023), “Numerical study of hydrodynamic responses for a combined concept of semisubmersible wind turbine and different layouts of a wave energy converter”, Ocean Engineering, 272, 113824.
J55 Liu Y, Shi W, Wang W, Li X, Qi S, Wang B, Michailides C (2023), “Investigation on the interaction between ice and monopile offshore wind turbine using a coupled CEM–FEM model”, Ocean Engineering, 281, 114783.
J56 Yang Z, Zhang L, Shi W, Niu X, Michailides C and Li X (2023), “Dynamic performance of a semisubmersible floating wind-wave integrated system”, Ships and Offshore Structures, DOI: 10.1080/17445302.2023.2214491.
J57 Aresti L, Christodoulides P, Michailides C and Onoufriou T (2023), “Reviewing the energy, environment, and economy prospects of Ocean Thermal Energy Conversion (OTEC) systems”, Sustainable Energy Technologies and Assessments, 60, 103459.
J58 Michailides C, Loukogeorgaki E, Sheng W and Aggidis G (2024), “Response and Power Absorption Assessment of the TALOS Wave Energy Converter in Time Domain”, International Journal of Offshore and Polar Engineering,34(1), pp 29-36.