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1. Concurrent Probabilistic Control Co-Design and Layout Optimization of Wave Energy Converter Farms Using Surrogate Modeling

   https://doi.org/10.1115/DETC2023-116896  

   Azad, Saeed; Herber, Daniel R. (August 2023, ASME 2023 International Design Engineering Technical Conferences)

   Wave energy converters (WECs) are a promising candidate for meeting the increasing energy demands of today’s society. It is known that the sizing and power take-off (PTO) control of WEC devices have a major impact on their performance. In addition, to improve power generation, WECs must be optimally deployed within a farm. While such individual aspects have been investigated for various WECs, potential improvements may be attained by leveraging an integrated, system-level design approach that considers all of these aspects. However, the computational complexity of estimating the hydrodynamic interaction effects significantly increases for large numbers of WECs. In this article, we undertake this challenge by developing data-driven surrogate models using artificial neural networks and the principles of many-body expansion. The effectiveness of this approach is demonstrated by solving a concurrent plant (i.e., sizing), control (i.e., PTO parameters), and layout optimization of heaving cylinder WEC devices. WEC dynamics were modeled in the frequency domain, subject to probabilistic incident waves with farms of 3, 5, 7, and 10 WECs. The results indicate promising directions toward a practical framework for array design investigations with more tractable computational demands. 

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2. Numerical investigation of a variable-shape buoy wave energy converter

   Shabara, Mohamed; Zou, Shangyan; Abdelkhalik, Ossama (January 2021, The 40th International Conference on Ocean, Offshore and Arctic Engineering, OMAE2021)

   null (Ed.)

   A novel Variable-Shape Buoy Wave Energy Converter (VSB WEC) that aims at eliminating the requirement of reactive power is analyzed in this paper. Unlike conventional Fixed Shape Buoy Wave Energy Converters (FSB WECs), the VSB WEC allows continuous shape-changing (flexible) responses to ocean waves. The non-linear interaction between the device and waves is demonstrated to result in more power when using simple, low-cost damping control system. High fidelity numerical simulations are conducted to compare the performance of a VSB WEC to a conventional FSB WEC, of the same volume and mass, in terms of power conversion, maximum displacements, and velocities. A Computational Fluid Dynamics (CFD) based Numerical Wave Tank (CNWT), developed using ANSYS 2-way fluid-structure interaction (FSI) is used for simulations. The results show that the average power conversion is significantly increased when using the VSB WEC. 

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3. Evolving Hidden Genes in Genetic Algorithms for Systems Architecture Optimization

   https://doi.org/10.1115/1.4040207  

   Abdelkhalik, Ossama; Darani, Shadi (October 2018, Journal of Dynamic Systems, Measurement, and Control)

   The concept of hidden genes was recently introduced in genetic algorithms (GAs) to handle systems architecture optimization problems, where the number of design variables is variable. Selecting the hidden genes in a chromosome determines the architecture of the solution. This paper presents two categories of mechanisms for selecting (assigning) the hidden genes in the chromosomes of GAs. These mechanisms dictate how the chromosome evolves in the presence of hidden genes. In the proposed mechanisms, a tag is assigned for each gene; this tag determines whether the gene is hidden or not. In the first category of mechanisms, the tags evolve using stochastic operations. Eight different variations in this category are proposed and compared through numerical testing. The second category introduces logical operations for tags evolution. Both categories are tested on the problem of interplanetary trajectory optimization for a space mission to Jupiter, as well as on mathematical optimization problems. Several numerical experiments were designed and conducted to optimize the selection of the hidden genes algorithm parameters. The numerical results presented in this paper demonstrate that the proposed concept of tags and the assignment mechanisms enable the hidden genes genetic algorithms (HGGA) to find better solutions. 

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4. Concurrent geometry, control, and layout optimization of wave energy converter farms in probabilistic irregular waves using surrogate modeling

   https://doi.org/10.1016/j.oceaneng.2024.120183  

   Azad, Saeed; Herber, Daniel R; Khanal, Suraj; Jia, Gaofeng (March 2025, Ocean Engineering)

   A promising direction toward improving the performance of wave energy converter (WEC) farms is to leverage a system-level integrated approach called control co-design (CCD), integrating geometric attributes, control parameters, and layout. However, the resulting optimization problem requires the estimation of hydrodynamic coefficients through computationally prohibitive numerical methods such as multiple scattering (MS). To mitigate this bottleneck, we construct data-driven surrogate models (SMs) using artificial neural networks and many-body expansion. To rectify errors in SMs, a hybrid optimization strategy, that involves solving an optimization problem with a genetic algorithm and SMs to generate a starting point which is then used by a gradient-based optimizer and MS, is devised. The effectiveness and efficiency of the proposed approach are demonstrated for a 5-WEC farm. For layout optimization study, the proposed framework offers a 91-fold increase in computational efficiency compared to the direct usage of MS. The framework also enables complex investigations, including concurrent geometry, control, and layout optimization of heaving cylindrical WEC devices in probabilistic irregular waves across various US coastal locations. The method’s scalability is assessed for a 25-WEC farm and the results indicate promising directions toward a practical framework for integrated WEC farm design with more tractable computational demands. 

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5. Hierarchical control of a park of floating oscillating water column wave energy converters

   Gaebele, Daniel T; Magana, Mario E (September 2021, Proceedings of the European Wave and Tidal Energy Conference)

   null (Ed.)

   —Ocean wave energy is a renewable energy which remains costly for large-scale electricity generation. Although the oscillating water column (OWC) wave energy converter (WEC) is a promising device type with a rectifying air turbine and generator which convert alternating airflow induced by the water motion into kinetic energy then to electric energy, there are still several challenges to overcome to achieve commercial energy production. A first step is deploying multiple devices close to each other in WEC parks, to save cost associated with mooring lines and power transmission cables and a second step is applying control at each stage of energy conversion to increase the electric energy output of the devices and ensure a safe operation. Herein, we first present a state-space model of a park of seven hydrodynamically interacting floating OWC WECs in all degrees of freedom with nonlinear PTO dynamics and a shared, quasi-static mooring model. The electric power flow is modeled by considering the conversion losses from the AC generators over a DC link, including a storage unit to the grid connection. Secondly, the OWC WEC park is expressed from a higher hierarchical level as an automaton driven by discrete events. Finally, we use a standard supervisory control approach to enable different local control schemes to ensure a save operation of the individual WEC and the park. The supervisor has good adaptability potential for different WECs and the incorporation of safety mechanisms. 

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