MUM: Marten Hollm

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Marten Hollm

M-13 Mechanik und Meerestechnik

Mechanik und Meerestechnik

Eißendorfer Straße 42 (M),

21073 Hamburg

Building M, Room 0517

Phone: +49 40 42878 2308

E-mail: marten.hollm@tuhh.de

Personal Homepage

Research Interests

Renewable energies play an increasingly important role. In addition to solar and wind energy, energy can be harvested from ocean waves. For this purpose, mechanical systems are positioned on the sea surface and harvest energy through their motion. My research focuses on:

Design and analysis of wave energy converters
Nonlinear fluid-structure interaction
Behavior of nonlinear water waves

Publications

Legend: black = published;

orange = submitted for publication;

green = accepted for publication

2024

Bathymetry reconstruction from experimental data using PDE-constrained optimisation
Angel, Judith; Behrens, Jörn; Götschel, Sebastian; Hollm, Marten; Ruprecht, Daniel; Seifried, Robert
Computers & Fluids 278: 106321 (2024)
Open Access | Publisher DOI
Determination of particle paths and hydrodynamic forces of random wind forced nonlinear ocean waves
Hollm, Marten; Dostal, Leo; Carter, John D.; Seifried, Robert
Journal of Engineering for the Maritime Environment 238 (2): 406-416 (2024-05)
Open Access | Publisher DOI

2023

Hydrodynamic forces acting on mechanical systems in linear and nonlinear ocean waves
Hollm, Marten; Seifried, Robert
Proceedings in Applied Mathematics & Mechanics 23 (2): e202300141 (2023)
Open Access | Publisher DOI
First passage times for nonlinear ship dynamics using Gaussian random fields and effective waves
Dostal, Leo; Hollm, Marten; Maki, Atsuo
Ocean Engineering 281: 114751 (2023-08-01)
Open Access | Publisher DOI

2022

Investigation of the dynamics of a multibody wave energy converter excited by regular and irregular waves
Hollm, Marten; Dostal, Leo; Höhne, Joshua; Yurchenko, Daniil; Seifried, Robert
Ocean Engineering 265: 112570 (2022-12-01)
Open Access | Publisher DOI
Design and optimization of a wave energy converter for drifting sensor platforms in realistic ocean waves
Harms, Julius; Hollm, Marten; Dostal, Leo; Kern, Thorsten Alexander; Seifried, Robert
Applied Energy 321: 119303 (2022-09-01)
Open Access | Publisher DOI
Particle paths and hydrodynamic forces of random wind forced nonlinear ocean waves
Hollm, Marten; Dostal, Leo; Seifried, Robert
in: Sustainable Development and Innovations in Marine Technologies - Proceedings of the 19th International Congress of the International Maritime Association of the Mediterranean (IMAM 2022)
Publisher DOI
A nonlinear gradient elasticity model for the prediction of seismic waves
Dostal, Leo; Hollm, Marten; Metrikine, Andrei; Fărăgău, Andrei; Dalen, Karel N. van
10th European Nonlinear Dynamics Conference (ENOC 2022)
Open Access
Dynamical analysis of a multibody wave energy converter excited by random waves
Hollm, Marten; Dostal, Leo; Höhne, Joshua; Seifried, Robert
10th European Nonlinear Dynamics Conference (ENOC 2022)
Open Access
Multivariate simulation of offshore weather time series: a comparison between markov chain, autoregressive, and long short-term memory models
Eberle, Sebastian; Cevasco, Debora; Schwarzkopf, Marie-Antoinette; Hollm, Marten; Seifried, Robert
Wind 2 (2): 394-414 (2022-06-16)
Open Access | Publisher DOI
Performance increase of wave energy harvesting of a guided point absorber
Hollm, Marten; Dostal, Leo; Yurchenko, Daniil; Seifried, Robert
European Physical Journal Special Topics 231 (8): 1465-1473 (2022)
Open Access | Publisher DOI
Localized stationary seismic waves predicted using a nonlinear gradient elasticity model
Dostal, Leo; Hollm, Marten; Metrikine, Andrei; Tsouvalas, Apostolos; Dalen, Karel N. van
Nonlinear Dynamics 107 (1): 1107-1125 (2022-01)
Open Access | Publisher DOI
Hydrodynamic Forces Acting on Cylindrical Piles Subjected to Wind-Forced Random Nonlinear Water Waves
Hollm, Marten; Dostal, Leo; Seifried, Robert
NODYCON Conference (2022)
Publisher DOI

2021

Study on the interaction of nonlinear water waves considering random seas
Hollm, Marten; Dostal, Leo; Fischer, Hendrik; Seifried, Robert
Proceedings in applied mathematics and mechanics 20 (1): e202000307 (2021)
Open Access | Publisher DOI

2020

Study on the behavior of weakly nonlinear water waves in the presence of random wind forcing
Dostal, Leo; Hollm, Marten; Kreuzer, Edwin
Nonlinear Dynamics 3 (99): 2319-2338 (2020-02-01)
Publisher DOI

2019

Study of weakly nonlinear water waves subjected to stochastic wind excitation
Hollm, Marten; Dostal, Leo
International Congress of the International Maritime Association of the Mediterranean, IMAM: 79-86 (2019-09)
Publisher DOI

Presentations

09/2024: European Fluid Dynamics Conference (EFDC), Aachen, Germany.
A Computational Method for the Fluid-Structure Interaction Using the Nonlinear Schrödinger Equation
07/2024: European Nonlinear Oscillations Conference (ENOC), Delft, Netherlands.
Dynamical Behavior of Cylindrical Offshore Structures in Extreme Waves
05/2023: GAMM Annual Meeting 2023, Dresden, Germany.
Hydrodynamic Forces Acting on Mechanical Systems in Linear and Nonlinear Ocean Waves
09/2022: International Maritime Association of the Mediterranean (IMAM), Istanbul, Turkey.
Particle paths and hydrodynamic forces of random wind forced nonlinear water ocean waves
07/2022: European Nonlinear Oscillations Conference (ENOC), Lyon, France.
Dynamical Analysis of a Multibody Wave Energy Converter excited by Random Waves
07/2022: European Nonlinear Oscillations Conference (ENOC), Lyon, France.
A nonlinear gradient elasticity model for the prediction of seismic waves
03/2021: International Conference on Advances in Energy Harvesting Technology (ICAEHT), Lublin (virtual), Poland.
Dynamics of a Wave Energy Converter considering Flexible Multibody Systems
03/2021: GAMM Annual Meeting 2020/2021, Kassel (virtual), Germany.
Trajectories of Water Particles under the Influence of Interacting Nonlinear Water Waves
02/2021: Second International Nonlinear Dynamics Conference (NODYCON), Rome (virtual), Italy.
Hydrodynamic Forces Acting on Cylindrical Piles Subjected to Wind Forced Random Nonlinear Water Waves
09/2019: International Maritime Association of the Mediterranean (IMAM), Varna, Bulgaria.
Study of weakly nonlinear water waves subjected to stochastic wind excitation

Supervised Student Theses

Li, W. (UC Berkeley): "Latching control of a point absorber using neural networks", Visiting Scholar, 2024.
Joers, A. (U Waterloo): "Numerical Analysis of the Fluid-Structure Interaction of a Wave Energy Converter and Random Nonlinear Water Waves", Visiting Scholar, 2024.
Stewart, S. (Iowa State University): "Modeling and Simulation of a Wave Energy Converter", Visiting Scholar, 2024.
Höhne, J.: "Latching control of a point absorber in short-crested seas", Masterarbeit, 2023.
Dahlström, E.: "Auswirkungen einer nichtlinearen Fluid-Struktur-Interaktion auf die Bewegung eines Wellenenergiekonverters", Masterarbeit, 2023.
Baumgärtner, T.: "Regelung der Dynamik eines Punktabsorbers mittels Latching control", Bachelorarbeit, 2023.
Eberle, S.: "Untersuchung statistischer Vorhersagealgorithmen für Offshore-Wetterzeitreihen", Bachelorarbeit, 2022.
Zetek, C.: "Numerische Analyse der Fluid-Struktur-Interaktion bei unterschiedlichen Schwimmkörperformen", Bachelorarbeit, 2022.
McConnell, A. (UNC Charlotte): "Dynamics of a Wave Energy Converter", Visiting Scholar, 2022.
Höhne, J.: "Simulative Untersuchung der Dynamik eines Multi-Komponenten-Wellenenergiekonverters im irregulären Seegang", Bachelorarbeit, 2022.
Engel, J.: "Simulative Untersuchung und Regelung der räumlichen Bewegung eines Multi-Komponenten-Wellenenergiekonverters", Bachelorarbeit, 2022.
Woidelko, M.: "Wave Energy Converter Output Enlargement using Reinforcement Learning for Power Take-Off Control", Masterarbeit, 2022.
Sprengell, A.: "Simulative Untersuchung eines Multi-Harvester-Systems zur Wandlung von Wellenenergie", Bachelorarbeit, 2021.
Gohle, S.: "Auswirkungen der Form eines zylindrischen Schwimmkörpers auf die agierenden hydrodynamischen Kräfte", Bachelorarbeit, 2021.
Shamko, P.: "Simlulative Untersuchung der Dynamik eines Wellenenergiekonverters in regulären Wellen", Bachelorarbeit, 2021.
Bluhm, B.: "Analyse und Optimierung der Dynamik eines kinetischen Wellenenergiekonverters", Bachelorarbeit, 2021.
Yang, Z.: "Systematische Untersuchung der Performance eines Wellenenergiekonverters", Bachelorarbeit, 2021.
Kühne, C.: "Simulative und experimentelle Untersuchung der Dynamik eines Wellenenergiekonverters unter Verwendung flexibler Mehrkörpersysteme", Bachelorarbeit, 2020.
Heidler-Behne, N.: "Systematische Untersuchung eines Wellenenergiekonverters", Bachelorarbeit, 2020.
Laketa, S. (U Waterloo): "Energy Converter Excited by Water Waves", Visiting Scholar, 2019.
Champenois, B. (UC Berkeley): "Pendulum Energy Converter Excited by Water Waves", Visiting Scholar, 2019.
Fischer, H.: "Untersuchung der Interaktionen schwach nichtlinearer Wasserwellen", Bachelorarbeit, 2019.
Thomsen, N.: "Berechnung und Vergleich von linearen und nichtlinearen Wasserwellen", Bachelorarbeit, 2019.

TU Hamburg

Institute of Mechanics and Ocean Engineering

Eißendorfer Straße 42