Dr. Josh Davidson

assistant professor

Contact

Qualification, title, studies

PhD 2016 Dept of Engineering and Physical Sciences, James Cook University, Australia
B.Sc (Physics) 2007 Dept of Maths, Physics and I.T., James Cook University, Australia

Publication list 62

Davidson Joshua Patrick (Áramlástan): Porous medium-based PTO damping and overset mesh motion: A combined approach for effective OpenFOAM® simulations of floating OWCs — APPLIED OCEAN RESEARCH 0141-1187 1879-1549 (2025)
Davidson Joshua Patrick (Áramlástan);Kalmár-Nagy Tamás (Áramlástan, Elméleti és alkalmazott mechanika): Parametric resonance in wave energy converters and offshore wind turbines: A review — RENEWABLE & SUSTAINABLE ENERGY REVIEWS 1364-0321 1879-0690 (2025)
Davidson Joshua Patrick (Áramlástan);Silva Fujiyama Erik (Fluid mechanics);Kalmár-Nagy Tamás (Áramlástan, Elméleti és alkalmazott mechanika): Modelling of Parametric Oscillations in Floating Bodies — 36-42 old. (2025)
Davidson Joshua Patrick (Áramlástan);Silva Fujiyama Erik (Fluid mechanics);Lelkes János (Áramlástan és hőtan);Kalmár-Nagy Tamás (Áramlástan, Elméleti és alkalmazott mechanika): A computationally efficient analytical modeling approach for parametric oscillations in floating bodies — JOURNAL OF SOUND AND VIBRATION 0022-460X 1095-8568 (2025)
Davidson Joshua Patrick (Áramlástan): Exploiting Axisymmetry to Optimize CFD Simulations—Heave Motion and Wave Radiation of a Spherical Buoy — SYMMETRY (BASEL) 2073-8994 16/9 (2024)

More 57 items

Davidson Joshua Patrick (Áramlástan): On the Importance of High–Fidelity Numerical Modelling of Ocean Wave Energy Converters under Controlled Conditions — 31-38 old. (2022)
Davidson Joshua Patrick (Áramlástan);Habib Giuseppe (műszaki mechanika): Coexisting attractors in floating body dynamics undergoing parametric resonance — ACTA MECHANICA 0001-5970 1619-6937 2351-2367 old. (2022)
Davidson Joshua Patrick (Áramlástan);Habib Giuseppe (műszaki mechanika);Kalmár-Nagy Tamás (Áramlástan, Elméleti és alkalmazott mechanika): Parametric excitation suppression in a floating cylinder via dynamic vibration absorbers: a comparative analysis — NONLINEAR DYNAMICS 0924-090X 1573-269X 1081-1108 old. (2022)
Davidson Joshua Patrick (Áramlástan): A Review on the Modelling of Wave-Structure Interactions Based on OpenFOAM — OpenFOAM® Journal 2753-8168 116-142 old. (2022)
Davidson Joshua Patrick (Áramlástan);Habib Giuseppe (műszaki mechanika);Kalmár-Nagy Tamás (Áramlástan, Elméleti és alkalmazott mechanika): Parametric resonance in floating bodies - Comparing monochromatic and polychromatic input waves — 936-937 old. (2022)
Davidson Joshua Patrick (Áramlástan);Habib Giuseppe (műszaki mechanika);Kalmár-Nagy Tamás (Áramlástan, Elméleti és alkalmazott mechanika): Nonlinear kinematics of a moored axisymmetric wave energy converter — 842-849 old. (2022)
Davidson Joshua Patrick (Áramlástan): Assessing the validity of regular wave theory in a short physical wave flume using particle image velocimetry — EXPERIMENTAL THERMAL AND FLUID SCIENCE 0894-1777 1879-2286 (2021)
Davidson Joshua Patrick (Áramlástan);Horváth Csaba (Áramlástan): Highly Accurate Experimental Heave Decay Tests with a Floating Sphere: A Public Benchmark Dataset for Model Validation of Fluid–Structure Interaction — ENERGIES 1996-1073 1996-1073 14/2 (2021)
Davidson Joshua Patrick (Áramlástan): Numerical analysis of the hydrodynamic scaling effects for the Wavestar wave energy converter — JOURNAL OF FLUIDS AND STRUCTURES 0889-9746 1095-8622 (2021)
Davidson Joshua Patrick (Áramlástan): Opening the air-chamber of an oscillating water column spar buoy wave energy converter to avoid parametric resonance — IET RENEWABLE POWER GENERATION 1752-1416 1752-1424 15/14 3109-3125 old. (2021)
Davidson Joshua Patrick (Áramlástan): Focused wave interactions with floating structures: a blind comparative study — PROCEEDINGS OF THE INSTITUTION OF CIVIL ENGINEERS-ENGINEERING AND COMPUTATIONAL MECHANICS 1755-0777 1755-0785 174/1 46-61 old. (2021)
Davidson Joshua Patrick (Áramlástan);Lelkes János (Áramlástan és hőtan);Kalmár-Nagy Tamás (Áramlástan, Elméleti és alkalmazott mechanika): Modelling of Parametric Resonance for Heaving Buoys with Position-Varying Waterplane Area — JOURNAL OF MARINE SCIENCE AND ENGINEERING 2077-1312 9/11 (2021)
Davidson Joshua Patrick (Áramlástan): Validation of a CFD-based numerical wave tank model for the power production assessment of the wavestar ocean wave energy converter — RENEWABLE ENERGY 0960-1481 1879-0682 2499-2516 old. (2020)
Davidson Joshua Patrick (Áramlástan): A critical comparison of excitation force estimators for wave-energy devices — IEEE TRANSACTIONS ON CONTROL SYSTEMS TECHNOLOGY 1063-6536 1558-0865 28/6 2263-2275 old. (2020)
Davidson Joshua Patrick (Áramlástan): Development of an impulse source-based wave-current interaction (WCI) model — (2020)
Davidson Joshua Patrick (Áramlástan);Habib Giuseppe (műszaki mechanika);Kalmár-Nagy Tamás (Áramlástan, Elméleti és alkalmazott mechanika): Nonlinear Dynamic and Kinematic Model of a Spar-Buoy: Parametric Resonance and Yaw Numerical Instability — JOURNAL OF MARINE SCIENCE AND ENGINEERING 2077-1312 8/7 (2020)
Davidson Joshua Patrick (Áramlástan): Efficient Nonlinear Hydrodynamic Models for Wave Energy Converter Design-A Scoping Study — JOURNAL OF MARINE SCIENCE AND ENGINEERING 2077-1312 8/1 (2020)
Davidson Joshua Patrick (Áramlástan): CCP-WSI Blind Test Series 3: CFD-Based Numerical Wave Tank Experiments Employing an Impulse Source Wave Maker — INTERNATIONAL JOURNAL OF OFFSHORE AND POLAR ENGINEERING 1053-5381 1053-5381 30/1 28-35 old. (2020)
Davidson Joshua Patrick (Áramlástan): A Blind Comparative Study of Focused Wave Interactions with Floating Structures (CCP-WSI Blind Test Series 3) — INTERNATIONAL JOURNAL OF OFFSHORE AND POLAR ENGINEERING 1053-5381 1053-5381 30/1 1-10 old. (2020)
Davidson Joshua Patrick (Áramlástan);Horváth Csaba (Áramlástan): OWC-k szimulációjához szükséges hullámmedence CFD vizsgálata [The CFD analysis of watertank necessary for the simulation of OWCs] — 153-156 old. (2020)
Davidson Joshua Patrick (Áramlástan);Kalmár-Nagy Tamás (Áramlástan, Elméleti és alkalmazott mechanika): A Real-Time Detection System for the Onset of Parametric Resonance in Wave Energy Converters — JOURNAL OF MARINE SCIENCE AND ENGINEERING 2077-1312 8/10 (2020)
Davidson Joshua Patrick (Áramlástan): Validation of a CFD-Based Numerical Wave Tank Model of the 1/20th Scale Wavestar Wave Energy Converter — FLUIDS 2311-5521 5/3 (2020)
Davidson Joshua Patrick (Áramlástan): Wave-structure interaction of wave energy converters: a sensitivity analysis — PROCEEDINGS OF THE INSTITUTION OF CIVIL ENGINEERS-ENGINEERING AND COMPUTATIONAL MECHANICS 1755-0777 1755-0785 173/3 144-158 old. (2020)
Davidson Joshua Patrick (Áramlástan): Investigation of Turbulence Modeling for Point-Absorber-Type Wave Energy Converters — ENERGIES 1996-1073 1996-1073 14/1 (2020)
Davidson Joshua Patrick (Áramlástan): Beyond VoF: alternative OpenFOAM solvers for numerical wave tanks — JOURNAL OF OCEAN ENGINEERING AND MARINE ENERGY 2198-6452 2198-6452 2198-6444 6/3 277-292 old. (2020)
Davidson Joshua Patrick (Áramlástan): Blowing the Top on Parametric Resonance: Relief Valve Control for the Stabilisation of an OWC Spar Buoy — (2020)
Davidson Joshua Patrick (Áramlástan): Development of an impulse-source-based wave-current interaction model — 3202-3212 old. (2020)
Davidson Joshua Patrick (Áramlástan): Identification of dynamic models for a wave energy converter from experimental data — OCEAN ENGINEERING 0029-8018 1873-5258 426-436 old. (2019)
Davidson Joshua Patrick (Áramlástan): The Efficient Application of an Impulse SourceWavemaker to CFD Simulations — JOURNAL OF MARINE SCIENCE AND ENGINEERING 2077-1312 7/3 (2019)
Davidson Joshua Patrick (Áramlástan): On the Assessment of Numerical Wave Makers in CFD Simulations — JOURNAL OF MARINE SCIENCE AND ENGINEERING 2077-1312 7/2 (2019)
Davidson Joshua Patrick (Áramlástan): Contribution to the CCP-WSI Blind Test Series 2: CFD-based numerical wave tank experiments employing an impulse source wave maker — (2019)
Davidson Joshua Patrick (Áramlástan): Dynamic mesh motion in OpenFOAM for wave energy converter simulation — (2019)
Davidson Joshua Patrick (Áramlástan): Validation of a CFD-based numerical wave tank of the Wavestar WEC — 439-446 old. (2019)
Davidson Joshua Patrick (Áramlástan): Evaluation of the overset grid method for control studies of wave energy converters in OpenFOAM numerical wave tanks — JOURNAL OF OCEAN ENGINEERING AND MARINE ENERGY 2198-6452 2198-6452 2198-6444 5/1 55-70 old. (2019)
Davidson Joshua Patrick (Áramlástan): On the importance of advanced mesh motion methods for WEC experiments in CFD-based numerical wave tanks — 145-156 old. (2019)
Davidson Joshua Patrick (Áramlástan): Evaluation of Energy Maximising Control Systems for Wave Energy Converters Using OpenFOAM (R) — 157-171 old. (2019)
Davidson Joshua Patrick (Áramlástan): Contribution to the CCP-WSI Blind Test Series 3: Analysis of scaling effects of moored point-absorber wave energy converters in a CFD-based numerical wave tank — 3051-3058 old. (2019)
Davidson Joshua Patrick (Áramlástan): Adaptive Control of a Wave Energy Converter — IEEE TRANSACTIONS ON SUSTAINABLE ENERGY 1949-3029 1949-3037 9/4 1588-1595 old. (2018)
Davidson Joshua Patrick (Áramlástan): A high-fidelity wave-to-wire simulation platform for wave energy converters: Coupled numerical wave tank and power take-off models — APPLIED ENERGY 0306-2619 1872-9118 655-669 old. (2018)
Davidson Joshua Patrick (Áramlástan): Performance assessment of the overset grid method for numerical wave tank experiments in the OpenFOAM environment — (2018)
Davidson Joshua Patrick (Áramlástan);Kalmár-Nagy Tamás (Áramlástan, Elméleti és alkalmazott mechanika): Nonlinear rock and roll - Modelling and control of parametric resonances in wave energy devices — 21-22 old. (2018)
Davidson Joshua Patrick (Áramlástan): High-fidelity numerical modelling of ocean wave energy systems: A review of computational fluid dynamics-based numerical wave tanks — RENEWABLE & SUSTAINABLE ENERGY REVIEWS 1364-0321 1879-0690 610-630 old. (2018)
Davidson Joshua Patrick (Áramlástan): Mathematical modelling of mooring systems for wave energy converters - A review — ENERGIES 1996-1073 1996-1073 10/5 (2017)
Davidson Joshua Patrick (Áramlástan): Adaptive control of a wave energy converter simulated in a numerical wave tank — (2017)
Davidson Joshua Patrick (Áramlástan): Assessment of Numerical Wave Makers — (2017)
Davidson Joshua Patrick (Áramlástan): Identification of wave energy device models from numerical wave tank data - Part 1: Numerical wave tank identification tests — IEEE TRANSACTIONS ON SUSTAINABLE ENERGY 1949-3029 1949-3037 7/3 1012-1019 old. (2016)
Davidson Joshua Patrick (Áramlástan): Identification of Wave Energy Device Models From Numerical Wave Tank Data—Part 2: Data-Based Model Determination — IEEE TRANSACTIONS ON SUSTAINABLE ENERGY 1949-3029 1949-3037 7/3 1020-1027 old. (2016)
Davidson Joshua Patrick (Áramlástan): Identifying Models Using Recorded Data — 123-147 old. (2016)
Davidson Joshua Patrick (Áramlástan): Numerical wave tank identification of nonlinear discrete time hydrodynamic models — 279-286 old. (2015)
Davidson Joshua Patrick (Áramlástan): Linear parametric hydrodynamic models for ocean wave energy converters identified from numerical wave tank experiments — OCEAN ENGINEERING 0029-8018 1873-5258 31-39 old. (2015)
Davidson Joshua Patrick (Áramlástan): Implementation of an OpenFOAM Numerical Wave Tank for Wave Energy Experiments — (2015)
Davidson Joshua Patrick (Áramlástan): Optimising numerical wave tank tests for the parametric identification of wave energy device models — (2015)
Davidson Joshua Patrick (Áramlástan): Identification of nonlinear excitation force kernels using numerical wave tank experiments — (2015)
Davidson Joshua Patrick (Áramlástan): Comparison of numerical simulations with experimental measurements for the response of a modified submerged horizontal cylinder moored in waves — (2014)
Davidson Joshua Patrick (Áramlástan): Thermal energy harvesting for wireless sensor nodes with case studies — 221-242 old. (2010)
Davidson Joshua Patrick (Áramlástan): Energy Options for Wireless Sensor Nodes — SENSORS 1424-8220 8/12 8037-8066 old. (2008)
Davidson Joshua Patrick (Áramlástan): Adaptive vibration energy harvesting — (2007)

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