‪Dimitra Anevlavi‬ - ‪Google Scholar‬

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Co-authors

Kostas BelibassakisProfessor, National Technical University of AthensVerified email at fluid.mech.ntua.gr
Evangelos FilippasAssistant Professor, Department of Naval Architecture, School of Engineering, UNIWAVerified email at uniwa.gr
Angeliki KarperakiAston UniversityVerified email at aston.ac.uk

Dimitra Anevlavi

Dimitra Anevlavi

PhD Candidate, National Technical University of Athens

Verified email at mail.ntua.gr

lifting flows boundary element methods fluid-structure interaction marine propulsion systems


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A non-linear BEM–FEM coupled scheme for the performance of flexible flapping-foil thrusters DE Anevlavi, ES Filippas, AE Karperaki, KA Belibassakis Journal of Marine Science and Engineering 8 (1), 56, 2020	21	2020
An adjoint optimization prediction method for partially cavitating hydrofoils D Anevlavi, K Belibassakis Journal of Marine Science and Engineering 9 (9), 976, 2021	7	2021
Analysis of partially cavitating hydrofoils under the free surface using BEM-based adjoint optimization D Anevlavi, KA Belibassakis Applied Mathematical Modelling 112, 415-435, 2022	3	2022
Hydroelastic analysis of flapping foils by a coupled BEM-FEM with application to marine energy extraction devices D Anevlavi National Technical University of Athens (NTUA), Greece, 2020	3	2020
Energy-minimizing kinematics for actively morphing flapping-foil thrusters D Anevlavi, E Filippas, K Belibassakis SNAME International Symposium on Ship Operations, Management and Economics …, 2023	2	2023
Optimization of a flexible flapping-foil thruster based on a coupled bem-fem model D Anevlavi, E Filippas, A Karperaki, K Belibassakis International Conference on Offshore Mechanics and Arctic Engineering 85901 …, 2022	2	2022
Efficiency Enhancement of Marine Propellers via Reformation of Blade Tip-Rake Distribution D Anevlavi, S Zafeiris, G Papadakis, K Belibassakis Journal of Marine Science and Engineering 11 (11), 2179, 2023	1	2023
A GPU-accelerated 3dBEM supporting the optimization of actively morphing flapping-foil thrusters with application to AUV propulsion D Anevlavi, E Filippas, K Belibassakis Ocean Engineering 300, 117513, 2024		2024
Flapping-foil thruster design with optimal flexural rigidity profile based on a coupled BEM-FEM model D Anevlavi, K Belibassakis Sustainable Development and Innovations in Marine Technologies, 389-396, 2022		2022
Effects on partially cavitating hydrofoils in finite submergence depth via an adjoint-based prediction method D Anevlavi, K Belibassakis Sustainable Development and Innovations in Marine Technologies, 141-149, 2022		2022
An adjoint optimization method for partially cavitating hydrofoils with free-surface effects D Anevlavi, KA Belibassakis Trends in Maritime Technology and Engineering, 291-300, 2022		2022
Prediction Model for Partially Cavitating Hydrofoils based on Sensitivity Derivatives D Anevlavi, K Belibassakis 9th Conference on Computational Methods in Marine Engineering (Marine 2021), 2021		2021
Analysis of biomimetic stream energy device based on flapping foils I Malefaki, D Anevlavi, K Belibassakis MARINE21, 2021		2021
OPTIMIZATION OF AN AQUATIC-INSPIRED THRUSTER BASED ON A COUPLED BEM-FEM MODEL D Anevlavi, E Filippas, A Karperaki, K Belibassakis
Hydroelastic analysis of flapping-foil thrusters using a partitioned BEM-FEM D Anevlavi, E Filippas, A Karperaki, K Belibassakis
PREDICTION MODEL FOR PARTIALLY CAVITATING FOILS BASED ON SENSITIVITY DERIVATIVES D ANEVLAVI, KA BELIBASSAKIS

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