Peter Rohrer
Om
Forskningtema: Multidisciplinary design optimization of floating wind turbines
Finansiert av: SFI BLUES Center
Hovedveileder: Prof. Erin Bachynski-Polić
Biveileder: Prof. Zhen Gao
Tidligere utdanning
M.Sc. Naval Architecture and Marine Engineering, University of Michigan, Ann Arbor, MI, May 2021. Thesis: Gradient-Based Design Optimization of Large Tension-Leg Platform Wind Turbines.
B.S.E. Naval Architecture and Marine Engineering, University of Michigan, Ann Arbor, MI, May 2020. Minor: Oceanography.
Kompetanseord
Publikasjoner
2026
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Rohrer, Peter Joshua;
Bachynski-Polić, Erin;
Gao, Zhen;
Hegseth, John Marius.
(2026)
Gradient-based Design Optimization of Floating Wind Turbines.
Norges teknisk-naturvitenskapelige universitet
Norges teknisk-naturvitenskapelige universitet
Doktorgradsavhandling
2025
-
Rohrer, Peter Joshua;
Bachynski-Polic, Erin Elizabeth;
Hegseth, John Marius.
(2025)
Gradient-based design optimization of semi-submersible floating wind turbines.
Marine Structures
Vitenskapelig artikkel
-
Rohrer, Peter Joshua;
Bachynski-Polic, Erin Elizabeth;
Hegseth, John Marius.
(2025)
Gradient-based design optimization of floating wind turbines using surrogate models for hydrodynamic coefficients.
Journal of Physics: Conference Series (JPCS)
Vitenskapelig artikkel
-
Wang, Lu;
Robertson, Amy;
Jonkman, Jason;
Liao, Yingqian;
Berthelsen, Petter Andreas;
Abdelmoteleb, Serag-Eldin.
(2025)
OC7 phase I: Toward practical sea-state-dependent modeling of hydrodynamic viscous drag and damping.
Ocean Engineering
Vitenskapelig artikkel
2024
-
Rohrer, Peter Joshua;
Bachynski-Polic, Erin Elizabeth.
(2024)
Analytical gradients of first-order diffraction and radiation forces for design optimization of floating structures.
Applied Ocean Research
Vitenskapelig artikkel
2023
-
Rohrer, Peter Joshua;
Bachynski-Polic, Erin Elizabeth;
Hegseth, John Marius.
(2023)
Gradient-Based Design Optimization of Fully-Flexible Floating Wind Turbines Using Modal Analysis.
Vitenskapelig Kapittel/Artikkel/Konferanseartikkel
2022
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Rohrer, Peter Joshua;
Bachynski-Polic, Erin Elizabeth;
Collette, Matthew.
(2022)
Towards gradient-based design optimization of fully-flexible tension-leg platform wind turbines.
Journal of Physics: Conference Series (JPCS)
Vitenskapelig artikkel
Tidsskriftspublikasjoner
-
Rohrer, Peter Joshua;
Bachynski-Polic, Erin Elizabeth;
Hegseth, John Marius.
(2025)
Gradient-based design optimization of semi-submersible floating wind turbines.
Marine Structures
Vitenskapelig artikkel
-
Rohrer, Peter Joshua;
Bachynski-Polic, Erin Elizabeth;
Hegseth, John Marius.
(2025)
Gradient-based design optimization of floating wind turbines using surrogate models for hydrodynamic coefficients.
Journal of Physics: Conference Series (JPCS)
Vitenskapelig artikkel
-
Wang, Lu;
Robertson, Amy;
Jonkman, Jason;
Liao, Yingqian;
Berthelsen, Petter Andreas;
Abdelmoteleb, Serag-Eldin.
(2025)
OC7 phase I: Toward practical sea-state-dependent modeling of hydrodynamic viscous drag and damping.
Ocean Engineering
Vitenskapelig artikkel
-
Rohrer, Peter Joshua;
Bachynski-Polic, Erin Elizabeth.
(2024)
Analytical gradients of first-order diffraction and radiation forces for design optimization of floating structures.
Applied Ocean Research
Vitenskapelig artikkel
-
Rohrer, Peter Joshua;
Bachynski-Polic, Erin Elizabeth;
Collette, Matthew.
(2022)
Towards gradient-based design optimization of fully-flexible tension-leg platform wind turbines.
Journal of Physics: Conference Series (JPCS)
Vitenskapelig artikkel
Del av bok/rapport
-
Rohrer, Peter Joshua;
Bachynski-Polic, Erin Elizabeth;
Hegseth, John Marius.
(2023)
Gradient-Based Design Optimization of Fully-Flexible Floating Wind Turbines Using Modal Analysis.
Vitenskapelig Kapittel/Artikkel/Konferanseartikkel
Rapport
-
Rohrer, Peter Joshua;
Bachynski-Polić, Erin;
Gao, Zhen;
Hegseth, John Marius.
(2026)
Gradient-based Design Optimization of Floating Wind Turbines.
Norges teknisk-naturvitenskapelige universitet
Norges teknisk-naturvitenskapelige universitet
Doktorgradsavhandling
Formidling
2024
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Faglig foredragRohrer, Peter Joshua. (2024) Gradients of Hydrodynamic Coefficients for Design Optimization. SFI BLUES Partner Event - Summer 2024 , Trondheim 04.06.2024 - 04.06.2024
2023
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PosterRohrer, Peter Joshua. (2023) A gradient-friendly boundary element method solver?. SFI BLUES Spring Event 2023 , Trondheim 23.05.2023 - 24.05.2023
2022
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Faglig foredragRohrer, Peter Joshua. (2022) Platform elasticity in a linearized aero-hydro-servo-elastic model for gradient-based optimization. SFI BLUES Autumn Event 2022 , Oslo 15.11.2022 - 16.11.2022