Debabrata Karmakar
AuthID: R-000-VE8
1
TÃTULO: Hydroelastic analysis of VLFS integrated with porous floating box breakwater using multi-domain boundary element method
AUTORES: Hemanth, S; Karmakar, D;
PUBLICAÇÃO: 2025, FONTE: Marine Structures, VOLUME: 101
AUTORES: Hemanth, S; Karmakar, D;
PUBLICAÇÃO: 2025, FONTE: Marine Structures, VOLUME: 101
2
TÃTULO: Hydrodynamic performance of a hybrid floating breakwater-wave energy conversion system
AUTORES: Shivakumar B Patil; Debabrata Karmakar;
PUBLICAÇÃO: 2025, FONTE: Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment
AUTORES: Shivakumar B Patil; Debabrata Karmakar;
PUBLICAÇÃO: 2025, FONTE: Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment
3
TÃTULO: Hydrodynamic performance of pile restrained U-shaped OWC device using boundary element method
AUTORES: Muduli, R; Shivakumar B Patil; Karmakar, D;
PUBLICAÇÃO: 2024, FONTE: Engineering Analysis with Boundary Elements, VOLUME: 158
AUTORES: Muduli, R; Shivakumar B Patil; Karmakar, D;
PUBLICAÇÃO: 2024, FONTE: Engineering Analysis with Boundary Elements, VOLUME: 158
4
TÃTULO: Hydrodynamic analysis of an H-shaped pile-restrained floating breakwater combined with a pair of vertical barriers
AUTORES: Aparna Panda; Karmakar, D; Manu Rao;
PUBLICAÇÃO: 2024, FONTE: Ocean Engineering, VOLUME: 298
AUTORES: Aparna Panda; Karmakar, D; Manu Rao;
PUBLICAÇÃO: 2024, FONTE: Ocean Engineering, VOLUME: 298
5
TÃTULO: Hydrodynamic response analysis of a hybrid TLP and heaving-buoy wave energy converter with PTO damping
AUTORES: J.S Rony; Karmakar, D;
PUBLICAÇÃO: 2024, FONTE: Renewable Energy, VOLUME: 226
AUTORES: J.S Rony; Karmakar, D;
PUBLICAÇÃO: 2024, FONTE: Renewable Energy, VOLUME: 226
6
TÃTULO: Wave attenuation due to stratified porous structure in the presence of stepped seabed
AUTORES: Ashna Varghese; Athul R A Krishna; Karmakar, D;
PUBLICAÇÃO: 2024, FONTE: Marine Systems & Ocean Technology
AUTORES: Ashna Varghese; Athul R A Krishna; Karmakar, D;
PUBLICAÇÃO: 2024, FONTE: Marine Systems & Ocean Technology
7
TÃTULO: Hydrodynamic analysis of U-shaped OWC with varying bottom profiles integrated with Π-breakwater
AUTORES: Muduli, R; Karmakar, D;
PUBLICAÇÃO: 2024, FONTE: Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment
AUTORES: Muduli, R; Karmakar, D;
PUBLICAÇÃO: 2024, FONTE: Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment
8
TÃTULO: Dynamic analysis of frustum TLP-type wind turbine multi-purpose floating platform
AUTORES: Rony, JS; Karmakar, D;
PUBLICAÇÃO: 2023, FONTE: Ships and Offshore Structures, VOLUME: 19, NÚMERO: 3
AUTORES: Rony, JS; Karmakar, D;
PUBLICAÇÃO: 2023, FONTE: Ships and Offshore Structures, VOLUME: 19, NÚMERO: 3
9
TÃTULO: Hydrodynamic Performance of Fixed Floating Structures Coupled with Submerged Breakwaters Using the Multidomain Boundary Element Method
AUTORES: Shivakumar B Patil; Debabrata Karmakar;
PUBLICAÇÃO: 2023, FONTE: Journal of Waterway, Port, Coastal, and Ocean Engineering, VOLUME: 149, NÚMERO: 4
AUTORES: Shivakumar B Patil; Debabrata Karmakar;
PUBLICAÇÃO: 2023, FONTE: Journal of Waterway, Port, Coastal, and Ocean Engineering, VOLUME: 149, NÚMERO: 4
10
TÃTULO: Coupled dynamic analysis of hybrid STLP-WEC offshore floating wind turbine with different mooring configurations
AUTORES: Rony, JS; Karmakar, D;
PUBLICAÇÃO: 2023, FONTE: Journal of Ocean Engineering and Marine Energy, VOLUME: 9, NÚMERO: 4
AUTORES: Rony, JS; Karmakar, D;
PUBLICAÇÃO: 2023, FONTE: Journal of Ocean Engineering and Marine Energy, VOLUME: 9, NÚMERO: 4
