Ahmet Soydan
Om
Ahmet Soydan is currently pursuing his PhD thesis, titled "Numerical Modeling of Ship Hydrodynamics in Real Sea Conditions," under the supervision of Professor Hans Bihs in the Marine Civil Engineering Research Group. He received his master’s degree in the Department of Naval Architecture and Marine Engineering, from Istanbul Technical University in 2018. Previously, he worked as a Research Engineer at Milper Propeller Technologies Inc. (2015-2017), SEFT Ship Design (2017-2019), and Turkish Aerospace (2019-2021). His research interests include:
- Computational fluid dynamics (CFD)
- Ship hydrodynamics in waves
- Wave-structure interaction
- Floating body dynamics in waves
- Mooring line's dynamics
- High-performance computing (HPC)
- Rotor/propeller aero/hydrodynamics-aero/hydroacoustics
Publikasjoner
2022
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Soydan, Ahmet;
Wang, Weizhi;
Kamath, Arun;
Bihs, Hans.
(2022)
A direct forcing immersed boundary method for simulating floating objects.
Taylor & Francis
Vitenskapelig Kapittel/Artikkel/Konferanseartikkel
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Soydan, Ahmet;
Şahin, Hürkan;
Biçer, Barış;
Sarıözkan, Şebnem;
Şahin, Mehmet.
(2022)
Experimental and Numerical Investigation of Co-Axial Rotor Interaction to Thrust.
Progress in Computational Fluid Dynamics, An International Journal (CFD)
Vitenskapelig artikkel
2021
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Soydan, Ahmet;
Bal, Şakir.
(2021)
An investigation of scale effects on marine propeller under cavitating and non-cavitating conditions.
Ship Technology Research
Vitenskapelig artikkel
Tidsskriftspublikasjoner
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Soydan, Ahmet;
Şahin, Hürkan;
Biçer, Barış;
Sarıözkan, Şebnem;
Şahin, Mehmet.
(2022)
Experimental and Numerical Investigation of Co-Axial Rotor Interaction to Thrust.
Progress in Computational Fluid Dynamics, An International Journal (CFD)
Vitenskapelig artikkel
-
Soydan, Ahmet;
Bal, Şakir.
(2021)
An investigation of scale effects on marine propeller under cavitating and non-cavitating conditions.
Ship Technology Research
Vitenskapelig artikkel
Del av bok/rapport
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Soydan, Ahmet;
Wang, Weizhi;
Kamath, Arun;
Bihs, Hans.
(2022)
A direct forcing immersed boundary method for simulating floating objects.
Taylor & Francis
Vitenskapelig Kapittel/Artikkel/Konferanseartikkel
Undervisning
Emner
Formidling
2023
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Vitenskapelig foredragSoydan, Ahmet; Wang, Weizhi; Bihs, Hans. (2023) An Improved Direct Forcing Immersed Boundary Method for Simulating Floating Objects. 10th Conference on Computational Methods in Marine Engineering (Marine 2023) , Madrid 2023-06-27 - 2023-06-29
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Vitenskapelig foredragSoydan, Ahmet; Wang, Weizhi; Bihs, Hans. (2023) Numerical Applications of Wave-Structure Interaction Problems Using a Direct Forcing Immersed Boundary Method in REEF3D::CFD. 25th Numerical Towing Tank Symposium , Ericira 2023-10-15 - 2023-10-17
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Vitenskapelig foredragKnoblauch, Fabian; Soydan, Ahmet; Wang, Weizhi; Bihs, Hans Sebastian. (2023) The Fixed Grid Fully Non-linear Potential Flow Model REEF3D::PTF - Examination of Different Methods for Solving The Laplace Equation at the Free Surface. International Centre for Numerical Methods in Engineering (CIMNE) 10th International Conference on Computational Methods in Marine Engineering , Madrid, Spain 2023-06-27 - 2023-06-29
2021
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Vitenskapelig foredragSoydan, Ahmet; Kamath, Arun; Martin, Tobias; Bihs, Hans. (2021) Validation of the direct forcing immersed boundary method of REEF3D for floating objects. UiS Third Conference of Computational Methods and Ocean Technology (COTech) , Stavanger 2021-11-25 - 2021-11-26