2022

Lin, Z., Qian, L., Bai, W., Numerical Simulation of Liquid Sloshing Using a Fully Nonlinear Potential Flow Model in the Non-inertial Coordinate System, International Journal of Offshore and Polar Engineering, 32(1) (2022): 1-6, DOI

Brown, S. A., Xie, N., Hann, M. R., Greaves, D. M., ‘Investigation of wave-driven hydroelastic interactions using numerical and physical modelling approaches’, Applied Ocean Research, 129 (2022), DOI; Open access

Zheng, S., Michele, S., Liang, H., Meylan, M., Greaves, D., ‘Wave power extraction from a floating elastic disk-shaped wave energy converter’, Journal of Fluid Mechanics, 948 (2022), DOI;

Greaves, D., Jin, S., Wong, P., White, D., Jeffrey, H., Scott, B., Wigg, R., ‘UK perspective research landscape for offshore renewable energy and its role in delivering Net Zero’, Progress in Energy 4(4) (2022), DOI; Open access

Kheshti, M., Zhao, X., Liang, T., Nie, B., Ding, Y., Greaves, D., ‘Liquid air energy storage for ancillary services in an integrated hybrid renewable system’, Renewable Energy, 199 (2022): 298-307, DOI; Open access

Zhang, J., Zhao, X., Jin, S., Greaves, D., ‘Phase-resolved real-time ocean wave prediction with quantified uncertainty based on variational Bayesian machine learning’, Applied Energy, 324 (2022), DOI; Open access

Greaves, D., ‘Preface to the special issues of the Fourteenth European Wave and Tidal Energy Conference (EWTEC 2021)’, International Marine Energy Journal, 5(1) (2022): i-i , DOI

Wang, D., Conley, D., Hann, M., Collins, K., Jin, S., Greaves, D., ‘Power output estimation of WEC with HF radar measured complex representative sea states’, International Journal of Marine Energy 5(1) (2022): 1-10, DOI; Open access

Liang, H., Zheng, S., Magee, A., Greaves, D., ‘Water wave interactions with perforated elastic disks: Quadratic pressure discharge condition’, Physical Review Fluids 7(5) (2022), DOI; Open access

Mortimer, W., Raby, A., Antonini, A., Greaves, D., van den Bremer, T. ‘Correct generation of the bound set-down for surface gravity wave groups in laboratory experiments of intermediate to shallow depth’, Coastal Engineering, 174 (2022), DOI; Open access

Dorrell, R. M., Lloyd, C. J., Lincoln, B.J., Rippeth, T.P., Taylor, J.R., Caulfield, C-C. P., Sharples, J., Polton, J. A., Scannell, B. D., Greaves, D. M., ‘Anthropogenic Mixing in Seasonally Stratified Shelf Seas by Offshore Wind Farm Infrastructure’, Frontiers in Marine Science, 9 (2022), DOI; Open access

Michele, S., Zheng, S., Greaves, D., ‘Wave energy extraction from a floating flexible circular plate’, Ocean Engineering, 245 (2022), DOI; Open access

Büttner, T., Pérez-Collazo, C., Abanades, J., Hann, M., Harper, P., Greaves, D., Stiesdal H., ‘OrthoSpar, a novel substructure concept for floating offshore wind turbines: Physical model tests under towing conditions’, Ocean Engineering, 245 (2022), DOI; Open access

de la Torre, O., Hann, M., Miles, J., Stripling, S., Greaves, D., ‘Effect of the Current-Wave Angle on the Local Scour Around Circular Piles’, Journal of Waterway, Port, Coastal, and Ocean Engineering, 148(1) (2022), DOI

Jin, S., Zheng, S., Greaves, D., ‘On the Scalability of Wave Energy Converters’, Ocean Engineering, 243 (2022): 110212, DOI; Open access

2021

Tao, J., Hann, M., Greaves, D., Shi, H., ‘Numerical study of a point absorber wave energy converter with different power take-off systems’, Ocean Engineering, 242 (2021): 110181-110181, DOI

Coles, D., Angeloudis, A., Greaves, D., Hastie, G., Lewis, M., Mackie, L., McNaughton, J., Miles, J., Neill, S., Piggott, M., ‘A review of the UK and British Channel Islands practical tidal stream energy resource’, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 477 (2021): 2255, DOI; Open access

Renzi, E., Michele, S., Zheng, S., Jin, S., Greaves, D., ‘Niche Applications and Flexible Devices for Wave Energy Conversion: A Review’, Energies, 14(20) (2021): 6537-6537, DOI; Open access

Davey, T., Sarmiento, J., Ohana, J., Thiebaut, F., Haquin, S., Weber, M., Gueydon, S., Judge, F., Lyden, E., O’Shea, M., ‘Round Robin Testing: Exploring Experimental Uncertainties through a Multifacility Comparison of a Hinged Raft Wave Energy Converter’, Journal of Marine Science and Engineering 9(9) (2021): 946-946, DOI; Open access

Porter, R., Zheng, S., Greaves, D., ‘Extending limits for wave power absorption by axisymmetric devices’, Journal of Fluid Mechanics, 924 (2021), Publisher Site; DOI; Open access

Howey, B., Collins, K. M., Hann, M., Iglesias, G., Gomes, R. P. F., Henriques, J. C. C., Gato L. M. C., Greaves, D., ‘Compact floating wave energy converter arrays: Inter-device mooring connectivity and performance’, Applied Ocean Research, 115 (2021), DOI; Open access

Liang, H., Zheng, S., Shao, Y., Chua, K. H., Choo, Y. S., Greaves, D., ‘Water wave scattering by impermeable and perforated plates’, Physics of Fluids, 33(7) (2021), DOI; Open access

Zheng, S., Meylan, M., Zhang, X., Iglesias, G., Greaves, D., ‘Performance of a plate-wave energy converter integrated in a floating breakwater’, IET Renewable Power Generation, 15(14) (2021), DOI; Open access

Kurniawan, A., Tran, T. T., Brown, S. A., Eskilsson, C., Orszaghova, J., Greaves, D. ‘Numerical simulation of parametric resonance in point absorbers using a simplified model’, IET Renewable Power Generation, 15(14) (2021), DOI; Open access

Ransley, E., Brown, S., Hann, M., Greaves, D., Windt, C., Ringwood, J., Davidson, J., Schmitt, P., Yan, S., Wang, J. X., Wang, J. H., Ma, Q., Xie, Z., Giorgi, G., Hughes, J., Williams, A., Masters, I., Lin, Z., Chen, H., Qian, L., Ma, Z., Chen, Q., Ding, H., Zang, J., van Rij, J., Yu, Y., Li, Z., Bouscasse, B., Ducrozet, G., Bingham, H., Focused wave interactions with floating structures: A blind comparative study, Proceedings of the Institution of Civil Engineers – Engineering and Computational Mechanics, 174(1) (2021): 46-61 DOI; Open access

Kramer, M. B., Andersen, J., Thomas, S., Bendixen, F. B., Bingham, H., Read, R., Holk, N., Ransley, E., Brown, S., Yu, Y.-H., Janson, C.-E., Eskilsson, C., Tran, T. T., Davidson, J., Horvath, C., Nielsen, K., Highly Accurate Experimental Heave Decay Tests with a Floating Sphere: A Public Benchmark Dataset for Model Validation of Fluid-Structure Interaction, Energies, 14(2) (2021): 269 DOI; Open access

Bingham, H., Yu, Y.-H., Nielsen, K., Tran, T., Kim, K.-H., Park, S., Hong, K., Said, H., Kelly, T., Ringwood, J., Read, R., Ransley, E., Brown, S., Greaves, D., Ocean Energy Systems Wave Energy Modelling Task 10.4: Numerical Modelling of a Fixed Oscillating Water Column, Energies, 14(6) (2021): 1718, DOI; Open access

Allen, J., Iglesias, G., Greaves, D., Miles, J., Physical Modelling of the Effect on the Wave Field of the WaveCat Wave Energy Converter, Journal of Marine Science and Engineering, 9(3) (2021): 309-309, DOI

Brown, S.A., Ransley, E.J., Greaves, D.M., Assessing focused wave impacts on floating wave energy converters using OpenFOAM, Proceedings of the Institution of Civil Engineers – Engineering and Computational Mechanics, 174(1) (2021): 4-18, DOI

Vyzikas, T., Stagonas, D., Maisondieu, C., Greaves, D., Intercomparison of Three Open-Source Numerical Flumes for the Surface Dynamics of Steep Focused Wave Groups, Fluids, 6(1) (2021): 9-9, DOI; Open access

Brown, S., Ransley, E., Xie, N., Monk, K., De Angelis, G., Nicholls-Lee, R., Guerrini, E., Greaves, D., On the impact of motion-thrust coupling in floating tidal energy applications, Applied Energy, 282(B) (2021): 116246, DOI, Open access

Windt, C., Untrau, A., Davidson, J., Ransley, E., Greaves, D., Ringwood, J., Assessing the validity of regular wave theory in a short physical wave flume using particle image velocimetry, Experimental Thermal and Fluid Science, 121 (2021): 110276, DOI; Open access

Brown, S.A., Ransley, E.J., Zheng, S., Xie, N., Howey, B., Greaves, D.M., Development of a fully nonlinear, coupled numerical model for assessment of floating tidal stream concepts, Ocean Engineering, 218 (2020): 108253, DOI; Open access

Feichtner, A, Mackay, E., Tabor, G., Thies, P.R., Johanning, L., Comparison of Macro-Scale Porosity Implementations for CFD Modelling of Wave Interaction with Thin Porous Structures, J. Mar. Sci. Eng., 9(2) (2021): 150, DOI; Open access

Sufian, A., Artigaut, M., Shire, T. and O’Sullivan, C., Influence of fabric on stress distribution in gap-graded soil, Journal of Geotechnical and Geoenvironmental Engineering, 147(5) (2021): 04021016, DOI

Yin, T., Zhang, Z., Huang, X., Shire, T. and Hanley, K. J., On the morphology and pressure-filtration characteristics of filter cake formation: insight from coupled CFD–DEM simulations, Tunnelling and Underground Space Technology, 111 (2021): 103856, DOI

Charlton, T., S., Rouainia, M., Cyclic performance of a monopile in spatially variable clay using an advanced constitutive model, Soil Dynamics and Earthquake Engineering, 140 (2021): 106437, DOI

Lin, Z., Qian, L., Bai, W., Ma, Z., Simulation of Steep Focused Wave Impact on a Fixed Cylinder Using Fully Nonlinear Potential Flow and Navier–Stokes Solvers, International Journal of Offshore and Polar Engineering, 31 (2021): 78-86, DOI

Lin, Z., Chen, H., Qian, L., Ma, Z., Causon, D.M., Mingham, C., Simulating focused wave impacts on point absorber wave energy converters, Proceedings of the Institution of Civil Engineers – Engineering and Computational Mechanics, 174(1) (2021): 19-34, DOI

Lin, Z., Qian, L., Bai, W., Ma, Z., Chen, H., Zhou, J.-G., Gu, H., A Finite Volume Based Fully Nonlinear Potential Flow Model for Water Wave Problems, Applied Ocean Research, 106 (2021): 102445, DOI

2020

Domfeh, M.K, Gyamfi, S., Amo-Boateng, M., Andoh, R., Ofosu, E.A. and Tabor, G. Numerical Simulation of an Air-Core Vortex and its Suppression at an Intake using OpenFOAM, Fluids 5(4) (2020): 221, DOI; Open access

Gomes, R. P. F., Gato, L. M. C., Henriques, J. C. C., Portillo, J. C. C., Howey, B. D., Collins, K. M., Hann, M. R., Greaves, D. M., Compact floating wave energy converter arrays: Mooring loads and survivability through scale physical modelling, Applied Energy, 280 (2020): 115982, DOIOpen access

Zhu, G., Graham, D., Zheng, S., Hughes, J., Greaves, D., Hydrodynamics of onshore oscillating water column devices: A numerical study using smoothed particle hydrodynamics, Ocean Engineering, 218 (2020): 108226, DOI; Open access

Zheng, S., Porter, R., Greaves, D., Wave scattering by an array of metamaterial cylinders, Journal of Fluid Mechanics, 903 (2020): A50, DOI; Open access

Portillo, J. C. C., Collins, K. M., Gomes, R. P.F., Henriques, J. C. C., Gato, L. M. C., Howey, B. D., Hann, M. R., Greaves, D. M., Falcão, A. F. O., Wave energy converter physical model design and testing: The case of floating oscillating-water-columns, Applied Energy, 278 (2020): 115638-115638, DOI; Open access

Mai, T., Mai, C., Raby, A., Greaves, D. M., Hydroelasticity effects on water-structure impacts, Experiments in Fluids, 61 (2020): 191, DOI; Open access

Zheng, S., Meylan, M., Zhu, G., Greaves, D., Iglesias, G., Hydroelastic interaction between water waves and an array of circular floating porous elastic plates, Journal of Fluid Mechanics, 900 (2020): A20, DOI; Open access

Musiedlak, P.-H., Ransley, E., Hann, M., Child, B., Greaves, D., Time-Splitting Coupling of WaveDyn with OpenFOAM by Fidelity Limit Identified from a WEC in Extreme Waves, Energies, 13(13) (2020): 3431, DOI; Open access

Zheng, S., Antonini, A., Zhang, Y., Miles, J., Greaves, D., Guixun, Z., Iglesias, G., Hydrodynamic performance of a multi-Oscillating Water Column (OWC) platform, Applied Ocean Research, 99 (2020): 102168, DOI; Open access

Hu, Z. Z., Yan, S., Greaves, D., Mai, T., Raby, A., Ma, Q., Investigation of interaction between extreme waves and a moored FPSO using FNPT and CFD solvers, Ocean Engineering, 206 (2020): 107353-107353, DOI; Open access

Zheng, S., Meylan, M. H., Greaves, D., Iglesias, G., Water-wave interaction with submerged porous elastic disks, Physics of Fluids, 32(4) (2020): 047106-047106, DOI; Open access

Zhang, H., Zhou, B., Vogel, C., Wilden, R., Zang, J., Geng, J., Hydrodynamic performance of a dual-floater hybrid system combining a floating breakwater and an oscillating-buoy type wave energy converter, Applied Energy, 259 (2020): doi

Zhang, H., Zhou, B., Vogel, C., Willden, R., Zang, J., Zhang, L., Hydrodynamic performance of a floating breakwater as an oscillating-buoy type wave energy converter, Applied Energy, 257 (2020): 113996, doi; Open access

Gao, J., Ma, X., Zang, J., Dong, G., Ma, X., Zhu, Y. & Zhou, L., Numerical investigation of harbor oscillations induced by focused transient wave groups, Coastal Engineering. 158 (2020): 103670, doi; Open access

Gao, J., Chen, H., Zang, J., Chen, L., Wang, G. & Zhu, Y., Numerical investigations of gap resonance excited by focused transient wave groups, Ocean Engineering, 212 (2020): 107628, doi; Open access

Chen, Q., Zang, J., Birchall, J., Ning, D. Z., Zhao, X. & Gao, J., On the hydrodynamic performance of a vertical pile-restrained WEC-type floating breakwater, Renewable Energy, 146 (2020): 414-425, doi; Open access

Hu, J., Zhou, B., Vogel, C., Liu, P., Willden, R., Sun, K., Zang, J., geng, J., Jin, P., Cui, L., Collu, M., Optimal design and performance analysis of a hybrid system combing a floating wind platform and wave energy converters, 269 (2020): 114998, doi; Open access

Gao, J., He, Z., Zang, J., Chen, Q., Ding, H. & Wang, G., Numerical investigations of wave loads on fixed box in front of vertical wall with a narrow gap under wave actions, 206 (2020): 107323, doi; Open access

Ebrahimi, M., Djordjevic, S., Kahraman, R., Riella, M., Tabor, G., Kripakaran, P., A Method for Evaluating Local Scour Depth at Bridge Piers due to Debris Accumulation., Proceedings of the Institution of Civil Engineers – Bridge Engineering, 173(2) (2020): 86-99, doi

Ransley, E., Yan, S., Brown, S., Hann, M., Graham, D., Windt, C., Schmitt, P., Davidson, J., Ringwood, Musiedlak, P.-H., J., Wang, J., Wang, J., Ma, Q., Xie, Z., Zhang, N., Zheng, X., Giorgi, G., Chen, H., Lin, Z., Qian, L., Ma, Z., Bai, W., Chen, Q., Zang, J., Ding, H., Cheng, L., Zheng, J., Gu, H., Gong, X., Liu, Z., Zhuang, Y., Wan, D., Bingham, H., Greaves, D., A blind comparative study of focused wave interactions with floating structures (CCP-WSI Blind Test Series 3), International Journal of Offshore and Polar Engineering, 30(1) (2020): 1-10, doi; PEARL

Zhang, N., Yan, S., Zheng, X., Ma, Q., A 3D Hybrid Model Coupling SPH and QALE-FEM for Simulating Nonlinear Wave-structure Interaction, International Journal of Offshore and Polar Engineering, 30(1) (2020): 11-19, doi

Brown, S. A., Ransley, E. J., Musiedlak, P.-H., Greaves, D., Quantifying the Predictive Capability of OpenFOAM 5.0: Focused Wave Impacts with Floating Bodies, International Journal of Offshore and Polar Engineering, 30(1) (2020): 20-27, doi

Windt, C., Ringwood, J. V., Davidson, J., Schmitt, P., 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, 30(1) (2020): 28-35, doi

Giorgi, G., CCP-WSI Blind Test Series 3: A Nonlinear Froude–Krylov Modeling Approach, International Journal of Offshore and Polar Engineering, 30(1) (2020): 36-42, doi

Yan, S., Wang, J., Wang, J., Ma, Q., Xie, Z., CCP-WSI Blind Test Using qaleFOAM with an Improved Passive Wave Absorber, International Journal of Offshore and Polar Engineering, 30(1) (2020): 43-52, doi

Liu, Z., Zhuang, Y., Wan D., Numerical Study of Focused Wave Interactions with a Single-Point Moored Hemispherical-Bottomed Buoy, International Journal of Offshore and Polar Engineering, 30(1) (2020): 53-61, doi

Cheng, L., Zheng, J., Gu, H., Gong, X., Chen, D., Focused Wave Interaction with Floating Structures by Virtual Boundary Force Method, International Journal of Offshore and Polar Engineering, 30(1) (2020): 62-69, doi

Chen, H., Lin Z., Qian, L., Ma, Z., Bai, W., CFD Simulation of Wave Energy Converters in Focused Wave Groups Using Overset Mesh, International Journal of Offshore and Polar Engineering, 30(1) (2020): 70-77, doi

Brown, S. A., Ransley, E. J., Greaves, D. M., Developing a coupled turbine thrust methodology for floating tidal stream concepts: Verification under prescribed motion, Renewable Energy, 147(1) (2020): 529-540, doi

Windt, C., Davidson, J., Ransley, E. J., Greaves, D., Jakobsen, M., Kramer, M., Ringwood, J. V., Validation of a CFD-based numerical wave tank model for power production assessment of the Wavestar ocean wave energy converter, Renewable Energy, 146 (2020): 1-18, doi

2019

Wendt, F., Nielsen, K., Yu, Y-H., Bingham, H., Eskilsson, C., Kramer, M. B., Babarit, A., Bunnik, T., Costello, R., Crowley, S., Gendron, G., Giorgi, G., Giorgi, S., Girardin, S., Greaves, D., Heras, P., Hoffman, J., Islam, H., Jakobsen, K.-R., Janson, C.-E., Jansson, J., Kim, H. Y., Kim, J.-S., Kim, K.-H., Kurniawan, A., Leoni, M., Mathai, T., Nam, B.-W., Park, S., Rajagopalan, K., Ransley, E., Read, R., Ringwood, J. V., Rodrigues, J. M., Rosenthal, B., Roy, A., Ruehl, K., Schofield, P., Sheng, W., Shiri, A., Thomas, S., Touzon, I., Yasutaka, I., 2019. OES Wave Energy Modelling Task: Modelling, Verification and Validation of Wave Energy Converters, Journal of Marine Science and Engineering, 7, 379 (2019): doi

Michele S., Renzi E., Perez-Collazo C., Greaves D., Iglesias G., Power extraction in regular and random waves from an OWC in hybrid wind-wave energy systems, Ocean Engineering, 191 (2019): 106519-106519, DOI PEARL

 

Zheng S., Antonini A., Zhang Y., Greaves D., Miles J., Iglesias G., Wave power extraction from multiple oscillating water columns along a straight coast, Journal of Fluid Mechanics, 878 (2019): 445-480, DOI PEARL

Perez-Collazo C., Pemberton R., Greaves D., Iglesias G., Monopile-mounted wave energy converter for a hybrid wind-wave system, Energy Conversion and Management, 199: 111971-111971, DOI PEARL

Xie N., Hann M., Pemberton R., Iglesias G., Greaves D., A numerical and experimental investigation of the effect of side walls on hydrodynamic model testing in a wave flume, Ocean Engineering, 186 (2019): 106108-106108, DOI

Shi H., Zhao C., Hann M., Greaves D., Han Z., Cao F., WHTO: A methodology of calculating the energy extraction of wave energy convertors based on wave height reduction, Energy, 185 (2019): 299-315 , DOI PEARL

Mai T., Mai C., Raby A., Greaves D. M., Aeration effects on water-structure impacts: Part 2. Wave impacts on a truncated vertical wall, Ocean Engineering, 186 (2019): 106053-106053 , DOI PEARL

Xue, M.A., Chen, Y., Zheng, J., Qian, L, Yuan, X., Fluid dynamics analysis of sloshing pressure distribution in storage vessels of different shapes. Ocean Engineering, 192 (2019):106582, DOI

Chen, H., Qian, L., Bai, W., Ma, Z., Lin Z., Xue, M.A., Oblique focused wave group generation and interaction with a fixed FPSO-shaped body: 3D CFD simulations and comparison with experiments. Ocean Engineering. 192 (2019):106524, DOI

Chen, Q., Zang, J., Ning, D., Blenkinsopp, C., Gao, J., A 3D parallel Particle-In-Cell solver for extreme wave interaction with floating bodies, Ocean Engineering, 179 (2019): 1-12, doi

Chen, Q., Zhang, C., Zang, J., Ning, D., A coupled Particle-In-Cell (PIC)-Discrete Element Method (DEM) solver for fluid-solid mixture flow simulations, Journal of Fluids and Structures, 91 (2019): 1-15, doi

Gao, J., Ma, X., Dong, G., Zang, J., Ma, Y., Zhou, L., Effects of offshore fringing reefs on the transient harbor resonance excited by solitary waves, Ocean Engineering, 190 (2019): 1-13, doi

Zhang, H., Zhou, B., Vogel, C., Wilden, R., Zang, J., Zhang, L., Hydrodynamic performance of a floating breakwater as an oscillating-buoy type wave energy converter, Applied Energy, 257 (2019): 1-19, doi

Reabroy, R., Zheng, X., Zhang, L., Zang, J., Yuan, Z., Liu, M., Sun, K., Tiaple, Y., Hydrodynamic Response and Power Efficiency Analysis of Heaving Wave Energy Converter Integrated with Breakwater, Journal of Energy Conversion and Management, 195 (2019): 1174-1186, doi

Li, J., Zang, J., Liu, S., Jia, W., Chen, Q., Numerical investigation of wave propagation and transformation over a submerged reef, Coastal Engineering Journal, 61(3) (2019): 363-379, doi,

Gao, J., Zhou, X., Zhou, L., Zang, J., Chen, H., Numerical investigation on effects of fringing reefs on low-frequency oscillations within a harbour, Ocean Engineering, 172 (2019): 86-95, doi

Chen, L., Stagonas, D., Santo, H., Buldakov, E. V., Simons, R. R., Taylor, P. H., Zang, J., Numerical modelling of interactions of waves and sheared currents with a surface piercing vertical cylinder, Coastal Engineering, 145 (2019): 65-83, doi

Gao, J., Zang, J., Chen, L., Chen, Q., Ding, H., Liu, Y., On hydrodynamic characteristics of gap resonance between two fixed bodies in close proximity, Ocean Engineering, 173 (2019): 28-44, doi

Chen, Q., Zang, J., Birchall, J., Ning, D. Z., Zhao, X., Gao, J, On the hydrodynamic performance of a vertical pile-restrained WEC-type floating breakwater, Renewable Energy, 146 (2020): 414-425, doi

Chen, Q., Kelly, D. M., Zang, J, On the relaxation approach for wave absorption in numerical wave tanks, Ocean Engineering, 187 (2019): [106210], doi

Gao, J., He, Z., Zang, J., Chen, Q., Ding, H., Wang, G., Topographic effects on wave resonance in the narrow gap between fixed box and vertical wall, Ocean Engineering, 180 (2019): 97-107, doi

Gao, J., Ma, X., Dong, G., Zang, J., Zhou, X., Zhou, L., Topographic influences on transient harbor oscillations excited by N-waves, Ocean Engineering, 192 (2019): [106548], doi

Zhuang, Y., & Wan, D., Numerical Study of Focused Waves Acting on a Fixed FPSO-Shaped Body. International Journal of Offshore and Polar Engineering, 29(2) (2019): doi

Engsig-Karup, A. P., & Eskilsson, C. Spectral Element FNPF Simulation of Focused Wave Groups Impacting a Fixed FPSO. International Journal of Offshore and Polar Engineering. 29(2) (2019). doi

Yan, S., Li, Q., Wang, J., Ma, Q., Xie, Z., & Stoesser, T. Comparative Numerical Study on Focusing Wave Interaction with FPSO-like Structure. International Journal of Offshore and Polar Engineering. 29(2) (2019). doi

Liu, S., Gatin, I., Obhrai, C., Ong, M. C., Jasak, H., CFD simulations of violent breaking wave impacts on a vertical wall using a two-phase compressible solver, Coastal Engineering 154 (2019): 103564

Keser, R., Vukčević, V., Battistoni, M., Im, H., Jasak, H., Implicitly coupled phase fraction equations for the Eulerian multi-fluid model, Computers & Fluids 192 (2019), 104277

Senturk, U., Brunner, D., Jasak, H., Herzog, N., Rowley, C. W., Smits, A. J., Benchmark simulations of flow past rigid bodies using an open-source, sharp interface immersed boundary method, Progress in Computational Fluid Dynamics, an International Journal 19(4) (2019): 205-219, Inderscience Publishers (IEL)

Bakica, A., Gatin, I., Vukčević, V., Jasak, H., Vladimir, N., Accurate assessment of ship-propulsion characteristics using CFD, Ocean Engineering 175(2019): 149-162

Gatin, I., Vladimir, N., Malenica, Š ., Jasak, H., Green sea loads in irregular waves with Finite Volume method, Ocean Engineering 171 (2019): 554-564

H Jasak, H., Vukčević, V., Gatin, I., Lalović, I., CFD validation and grid sensitivity studies of full scale ship self propulsion, International Journal of Naval Architecture and Ocean Engineering 11(1) (2019): 33-43

Zhang, X., Zheng, S. , Lu, D., Tian, X., Numerical investigation of the dynamic response and power capture performance of a VLFS with a wave energy conversion unit, Engineering Structures, 195 (2019): 62-83, doi

Zheng, S. , Zhang, Y., Liu, Y., Iglesias, G., Wave radiation from multiple cylinders of arbitrary cross sections, Ocean Engineering, 184 (2019): 11-22, doi; PEARL

Ransley, E., Yan, S., Brown, S., Mai, T., Graham, D., Ma, Q., Musiedlak, P.-H., Engsig-Karup, A. P., Eskilsson, C., Li, Q., Wang, J., Xie, Z., Sriram, V., Stoesser, T., Zhuang, Y., Li, Q., Wan, D., Chen, G., Chen, H., Qian, L., Ma, Z., Mingham, C., Causon, D., Gatin, I., Jasak, H., Vukčević, V., Downie, S., Higuera, P., Buldakov, E., Stagonas, D., Chen, Q., Zang, J., Greaves, D., A blind comparative study of focused wave interactions with a fixed FPSO-like structure (CCP-WSI Blind Test Series 1), International Journal of Offshore and Polar Engineering, 29(2) (2019): 113-127, doi; PEARL

Brown, S. A., Musiedlak, P.-H., Ransley, E., Greaves, D., Quantifying the Predictive Capability of OpenFOAM 4.1: Focused Wave Interactions with a Fixed FPSO, International Journal of Offshore and Polar Engineering, 29(2) (2019): 158-164, doiPEARL

Chen, H.,  Qian, L.,  Ma, Z., Bai, W., Li, Y.,  Causon, D.M., Mingham, C.G., Application of an overset mesh based numerical wave tank for modelling realistic free-surface hydrodynamic problems,  Ocean Engineering, 176 (2019): 97-117, doi

Zheng, S., Zhang, Y., Iglesias, G., Coast/breakwater-integrated OWC: a theoretical model, Marine Structures, 66 (2019):121-135, doi;

He, F., Zhang, H., Zhao, J., Zheng, S., Iglesias, G., Hydrodynamic performance of a pile-supported OWC breakwater: an analytical study, Applied Ocean Research, (2019):  doi;

Raby, A.C., Jayaratne, R., Bredmose, H., Bullock, G., Individual violent wave-overtopping events: behaviour and estimation, Journal of Hydraulic Research (2019), doiPEARL

Xie, N., Iglesias, G., Hann, M., Pemberton, R., Greaves, D., Experimental study of wave loads on a small vehicle in close proximity to a large vessel, Applied Ocean Research, 83 (2019):77-87, doiPEARL

Yu, H., Zheng, S., Zhang, Y., Iglesias, G., Wave radiation from a truncated cylinder of arbitrary cross section, Ocean Engineering, 173 (2019): 519-530, doi;

2018

Zheng, S., Zhang, Y., Iglesias, G., Wave-structure interaction in hybrid wave farms, Journal of Fluids and Structures, 83 (2018): 386-412, doi;

Collins, K. M., Stripling, S., Simmonds, D., Greaves, D., Quantitative metrics for evaluation of wave fields in basins, Ocean Engineering, 169 (2018): 300-314, doi, PEARL

Whittaker, C. N., Fitzgerald, C. J., Raby, A. C., Taylor, P. H., Borthwick, A. G. L., Extreme coastal responses using focused wave groups: Overtopping and horizontal forces exerted on an inclined seawall, Coastal Engineering, 140 (2018): 292-305 , doiPEARL

Thomas, S., Giassi, M., Göteman, M., Isberg, J., Eriksson, M., Ransley, E., Hann, M., Engström, J., A model free control based on machine learning for energy converters in an array, Big Data and Cognitive Computing, 2(4) (2018): 36, doi;

Perez-Collazo, C., Greaves, D., Iglesias Rodriguez, J. G., Hydrodynamic response of the WEC sub-system of a novel hybrid wind-wave energy converter Energy Conversion and Management, Energy Conversion and Management, 171 (2018): 307-325, doiPEARL

Perez-Collazo, C., Greaves, D., Iglesias Rodriguez, J. G., A Novel Hybrid Wind-Wave Energy Converter for Jacket-Frame Substructures, Energies, 11(3) (2018): 1-20, doiPEARL

Martinez-Ferrer, P. J., Qian, L., Ma, Z., Causon, D., Mingham, C., An efficient finite-volume method to study the interaction of two-phase fluid flows with elastic structures, Journal of Fluids and Structures, 83 (2018): 54-71, doi

Yan, B., Bai, W., Qian, L., Ma Z., Study on hydro-kinematic characteristics of green water over different fixed decks using immersed boundary method, Ocean Engineering, 164 (2018): 74-86, doi

Ma, Z., Qian, L., Numerical simulation of wave slamming on wedges and ship sections during water entry, Ocean Systems Engineering, 8(2) (2018): 183-199, doi

Ma, Z., Qian, L., Martinez-Ferrer, P. J., Causon, D. M., Mingham, C. G., Bai, W., An overset mesh based multiphase flow solver for water entry Problems, Computers and Fluids, 172 (2018): 689-705, ​doi

Thomas, S., Giassi, M., Göteman, M., Hann, M., Ransley, E., Isberg, J., Engström, J., Performance of a Direct-Driven Wave Energy Point Absorber with High Inertia Rotatory Power Take-off, Energies, 11(9) (2018): 2332, doi; PEARL

Wang, J., Ma, Q.W., Yan, S., A fully nonlinear numerical method for modelling wave-current interactions, Journal of Computational Physics, 369 (2018): 173-190, doi

Wang, J., Ma, Q.W., Yan, S., Qin, H., Numerical study on the quantitative error of the Korteweg–de Vries equation for modelling random waves on large scale in shallow water, European Journal of Mechanics – B/Fluids, 71 (2018): 92-102, doi

Wang, J., Yan, S., Ma, Q. W., Deterministic numerical modelling of three-dimensional rogue waves on large scale with presence of wind, Procedia IUTAM, 26 (2018): 214-226, doi

Xui, H., Cantwell, C.D., Monteserin, C, Eskilsson, C., Engsig-Karup, A.P., and Sherwin, S. J., Spectral/hp element methods: Recent developments, applications, and perspectives, Journal of Hydrodynamics, 30(1) (2018): 1-22, doi

Wang, J., Ma, Q. W., Yan, S., Chabchoub, A., Breather Rogue Waves in Random Seas, Physical Review Applied, 9(1) (2018): 014016, doi

Martinez-Ferrer, P., Qian, L., Ma, Z., Causon, D., Mingham, C., Improved numerical wave generation for modelling ocean and coastal engineering problems, Ocean Engineering, 152 (2018): 257-272, doi

Martinez-Ferrer, P., Qian, L., Ma, Z., Causon, D., Mingham, C., Numerical Simulation of Wave Slamming on a Flap-Type Oscillating Wave Energy Device, International Journal of Offshore and Polar Engineering, 28(1) (2018): 65-71, doi

Vyzikas, T., Stagonas, D., Buldakov, E., Greaves, D.,  The evolution of free and bound waves during dispersive focusing in a numerical and physical flume, Coastal Engineering, 132 (2018): 95-109, doiPEARL

2017

Hann, M., Greaves, D., Raby, A., Howey, B., Use of constrained focused waves to measure extreme loading of a taut moored floating wave energy converter, Ocean Engineering, 148 (2017): 33-42, doiPEARL

Chen, Q., Zang, J., Kelly, D.M., Dimakopoulos, A.S., A 3-D numerical study of solitary wave interaction with vertical cylinders using a parallelised particle-in-cell solver, Journal of Hydrodynamics, 29(5) (2017): 790-799, doi

Jasak, H., Gatin, I., Vukčević, V., Monolithic Coupling of the Pressure and Rigid Body Motion Equations in Computational Marine Hydrodynamics, Journal of Marine Science and Application, (2017): 1-7 doi

Gatin, I., Vukčević, V., Jasak, H., Rusche, H., Enhanced coupling of solid body motion and fluid flow in finite volume framework, Ocean Engineering, 143 (2017): 295–304, doi

Sjökvist, L., Wu, J., Ransley, E., Engström, J., Eriksson, M., Göteman, M., Numerical models for the motion and forces of point-absorbing wave energy converters in extreme waves, Ocean Engineering, 145 (2017): 1-14, doi; PEARL

Feng, X., Bai, W., Chen, X., Qian, L., Ma Z., Numerical investigation of viscous effects on the gap resonance between side-by-side barges, Ocean Engineering, 145 (2017): 44-58, doi

Loh, T. T., Pizer, D., Simmonds, D., Kyte, A., Greaves, D., Simulation and Analysis of Wave-Structure Interactions for a Semi-Immersed Horizontal Cylinder, Ocean Engineering, 147 (2017): 676-689, doi; PEARL

Hu, Z.Z., Mai, T., Greaves, D., Raby, A., Investigations of Offshore Breaking Wave Impacts on a Large Offshore Structure, Journal of Fluids and Structures (2017): 99-116, doi; PEARL

Kurniawan, A., Chaplin, J., Hann, M., Greaves, D. M., Farley, F., Wave energy absorption by a submerged air bag connected to a rigid float, Proceedings of the Royal Society A, 473, doiPEARL

Ning, D., Wang, R., Chen, L. F., Li, J., Zang, J., Cheng, L. & Liu, S., Extreme wave run-up and pressure on a vertical seawall, Applied Ocean Research. 67 (2017): 188-200, doi

Garcia-Oliva, M., Djordjevic, S., Tabor, G.,The Impacts of Tidal Turbines on Water Levels in a Shallow Estuary,  International Journal of Marine Energy, 19 (2017): 177-197, doi

Wang, Jinghua, Ma, Q., & Yan, S. (2017). On quantitative errors of two simplified unsteady models for simulating unidirectional nonlinear random waves on large scale in deep sea. Physics of Fluids, 29(6), 067107 (2017), doi

Vukčević, V., Jasak, H., Gatin, I., Implementation of the Ghost Fluid Method for Free Surface Flows in Polyhedral Finite Volume Framework, Computers & Fluids, 153 (2017): 1–19, doi

Ransley, E., Greaves, D., Raby, A., Simmonds, D., Hann, M., Survivability of Wave Energy Converters using CFD, Renewable Energy, 109 (2017): 235-247, doi; PEARL

Ransley, E., Greaves, D., Raby, A., Simmonds, D., Jakobsen, M., Kramer, M., RANS-VOF Modelling of the Wavestar Point Absorber, Renewable Energy, 109 (2017): 49-65, doi; PEARL

Collins, K., Meng, M., Le, H., Greaves, D., Bellamy, N., Modelling of the buckling of a diaphragm–spine structure for a wave energy converter, Materials & Design, 119 (2017): 159-170, doi; PEARL

Xu, S., Ma, Q., Han, D., Experimental study on inertial hydrodynamic behaviors of a complex remotely operated vehicle, European Journal of Mechanics, B/Fluids, 65 (2017): 1–9, doi

Martins, K., Blenkinsopp, C., Almar, R., Zang, J., The influence of swash-based reflection on surf zone hydrodynamics:a wave-by-wave approach, Coastal Engineering, 122 (2017): 27-43, doi

Tang, J., Shen, Y., Causon, D., Qian, L., Mingham C., Numerical study of periodic long wave run-up on a rigid vegetation sloping beach, Coastal Engineering, 121 (2017): 158-166, doi

Vyzikas, T., Deshoulieres, S., Barton, M., Giroux, O., Greaves, D., Simmonds, D., Experimental investigation of different geometries of fixed oscillating water column devices, Renewable Energy, 104 (2017): 248-258, doi; PEARL

Zhou, Y., Ma, Q., Yan, S., MLPG_R method for modelling 2D flows of two immiscible fluids, Int. J. Numer. Meth. Fluids, 84(7) (2017): 385–408, doi

Vyzikas, T., Deshoulieres, S., Giroux, O., Barton, M., Greaves, D., Numerical study of fixed Oscillating Water Column with RANS-type two-phase CFD model, Renewable Energy, 102(B) (2017): 294-305, doi; PEARL

Yang, H., Yan, S., Ma, Q., Lu, J., Zhou, Y., Turbulence modelling and role of compressibility on oil spilling from a damaged double hull tank, International Journal for Numerical Methods in Fluids, 83(11) (2017): 841–865, doi

Garcia-Oliva, M., Djordjevic, S., Tabor, G.,The influence of channel geometry on tidal energy extraction in estuaries,  Renewable Energy, 101 (2017): 513-525, doi

2016

Kurniawan, A., Chaplin, J. R., Greaves, D. M., Hann, M., Wave energy absorption by a floating air bag, Journal of Fluid Mechanics, 812 (2016): 294-320, doiPEARL

Allen, J., Sampanis, K., Wan, J., Greaves, D., Miles, J. Iglesias, G., Laboratory Tests in the Development of WaveCat, Sustainability, 8(12) (2016): 1339-1339, doiPEARL

Hu, Z. Z., Greaves, D. M., Raby, A., Numerical wave tank study of extreme waves and wave-structure interaction using OpenFoam®, Ocean Engineering, 126 (2016): 329-342, doiPEARL

Whittaker, C. N., Fitzgerald, C. J., Raby, A. C., Taylor, P. H., Orszaghova, J., Borthwick, A. G. L., Optimisation of focused wave group runup on a plane beach, Coastal Engineering, 121 (2016): 44-55 , doiPEARL

Mai, T., Greaves, D., Raby, A. and Taylor, P.H., Physical Modelling of Wave Scattering Around Fixed FPSO-Shaped Bodies, Applied Ocean Research, 61 (2016): 115-129, doi; PEARL

Ma, Q., Zhou, Y., Yan, S., A review on approaches to solving Poisson’s equation in projection-based meshless methods for modelling strongly nonlinear water waves, Journal of Ocean Engineering and Marine Energy, 2(3) (2016): 279–299, doi

Willers Moore, O., Mala-Jetmarova, H., Gebreslassie, M., Tabor, G., Belmont, M., Savic, D., Comparison of multiple surrogates for 3D CFD model in tidal farm optimisation, Procedia Engineering, 154 (2016): 1132 – 1139, doi

Gebreslassie, M.G., Sanchez, S. O., Tabor, G.R., Belmont, M.R., Bruce, T., Payne, G. S., Moon, I., Experimental and CFD analysis of the wake characteristics of tidal turbines,  International Journal of Marine Energy, 16 (2016): 209-219, doi

Ma, Z., Causon, D., Qian, L., Mingham, C., Ferrer, P., Numerical investigation of air enclosed wave impacts in a depressurised tank, Ocean Engineering, 123 (2016): 15-27, doi

Vukčević, V., Jasak, H., Malenica, S., Decomposition model for naval hydrodynamic applications, Part I: Computational method, Ocean Engineering, 121 (2016): 37–46, doi

Vukčević, V., Jasak, H., Malenica, S., Decomposition model for naval hydrodynamic applications, Part II: Verification and validation, Ocean Engineering, 121 (2016): 76–88, doi

Abo, A. A., Muhammad, R. J., Raby, A., Kyte, A., Greaves, D. M., Analysis of high velocity free surface flow interaction with a bridge pier in a trapezoidal channel using CFD, NAFEMS International Journal of CFD Case Studies, 11 (2016), PEARL

Engsig-Karup, A. P., Eskilsson, C., and Bigoni, D., A Stabilised Nodal Spectral Element Method for Fully Nonlinear Water Waves, Journal of Computational Physics, 318 (2016): 1-21, doi

Brown, S., Greaves, D., Magar, V., Conley, D., Evaluation of turbulence closure models under spilling and plunging breakers in the surf zone, Coastal Engineering, 114 (2016): 177-193, doi; PEARL

Kurniawan, A., Greaves, D., Wave power absorption by a submerged balloon fixed to the sea bed, IET Renewable Power Generation, 10(10) (2016):1461, doiPEARL

Chen, Q., Kelly, D.M, Dimakopoulos, A.S., Zang, J., Validation of the PICIN solver for 2D coastal flows, Coastal Engineering, 112 (2016): 87-98, doi

Wang, J, Ma, Q., Yan, S., A hybrid model for simulating rogue waves in random seas on a large temporal and spatial scale, Journal of Computational Physics, 313 (2016): 279–309, doi

Chen, Q., Zang, J., Dimakopoulos, A.S., Kelly D.M., A Cartesian cut cell based two-way strong fluid–solid coupling algorithm for 2D floating bodies, Journal of Fluid and Structure, 62 (2016): 252-271, doi

Chen, L., Sun, L., Zang, J., Hillis, A., Plummer, A., Numerical study of roll motion of a 2-D floating structure in viscous flow. Journal of Hydrodynamics, 28(4) (2016): 544-563, doi

Stringer, R., Hillis, A., Zang, J., Numerical investigation of laboratory tested cross-flow tidal turbines and Reynolds number scaling, Renewable Energy, 85 (2016): 1316-1327, doi

Ma, Z. H., Causon, D. M., Qian, L., Mingham, C. G., Mai, T., Greaves, D., Raby, A., Pure and aerated water entry of a flat plate, Physics of Fluids, 28(1) (2016):016104, doiPEARL

2015

Göteman, M., Engström, J., Eriksson, M., Leijon M., Hann, M., Ransley, E., Greaves, D., Wave Loads on a Point-Absorbing Wave Energy Device in Extreme Waves, Journal of Ocean and Wind Energy, 2(3) (2015): 176-181, doi; PEARL

Gebreslassie, M.G., Tabor, G.R., Belmont, M.R., Investigation of the performance of a staggered configuration of tidal turbines using CFD,  Renewable Energy, 80 (2015): 690-698, doi

Hann, M., Greaves, D., Raby, A., Snatch loading of a single taut moored floating wave energy converter due to focussed wave groups, Ocean Engineering, 96 (2015): 258-271, doiPEARL

2013

Gebreslassie, M.G., Tabor, G.R., Belmont, M.R., Numerical modelling of a new class of cross flow tidal turbine using OpenFOAM – Part II: Investigation of turbine-to-turbine interaction,  Renewable Energy, 50 (2013): 1005-1013, doi

Gebreslassie, M.G., Belmont, M.R., Tabor, G.R., Numerical modelling of a new class of cross flow tidal turbine using OpenFOAM – Part I: Calibration of energy extraction,  Renewable Energy, 50 (2013): 994-1004, doi