阿伯丁大学PhD position in Coupled Modelling Framework for Anchors and Moorings in Floating Offshore Wind申请条件要求-申请方

PhD position in Coupled Modelling Framework for Anchors and Moorings in Floating Offshore Wind
PhD直招2026秋季
申请时间:2026.07.09截止
主办方
阿伯丁大学
PhD直招介绍
About the Project Important: This project is fully funded for Home/UK students only. We welcome applications from international candidates, but please be aware that a successful international candidate would be responsible for covering the difference between the international and Home/RUK tuition fee rates (approximately £22,000 per annum). International candidates must provide evidence that they have these funds available. Project Description Floating offshore wind is expected to play a major role in achieving national and global net‑zero targets, enabling large‑scale renewable energy generation in deep waters where fixed‑bottom turbines are not feasible. Although early commercial projects such as Hywind Scotland and Kincardine have demonstrated the viability of floating offshore wind turbines (FOWTs), the technology remains significantly more expensive than fixed‑bottom systems. One of the largest contributors to this cost is the mooring and anchoring system, which governs platform stability, fatigue life, installation cost and long‑term reliability. Current design practice typically treats anchors and mooring lines separately, despite strong physical interdependence, leading to conservative and often suboptimal solutions. This PhD project will develop new modelling tools to transform how floating wind mooring and anchoring systems are designed. Using advanced numerical modelling software and working closely with industry partners, the project will investigate anchor–soil interaction, mooring line dynamics and the fully coupled behaviour of the system under realistic environmental loading. The project will explore different anchor types, soil conditions and mooring configurations, ultimately producing an integrated optimisation framework that identifies cost‑effective and reliable design solutions. The research will also generate engineering outputs that support wider marine planning and coexistence studies, including interactions with fisheries. The project will initially focus on identifying suitable anchor types for floating wind, considering soil conditions, installation methods, and environmental loading, followed by a development of a coupled framework integrating anchor–soil interaction with mooring system dynamics. This will then be followed by utilising optimisation methods to determine cost‑effective anchor–mooring pairings under extreme and fatigue conditions. Following the validation of the models the tool will provide engineering recommendations for coexistence with other seafloor users. The student will join a vibrant multidisciplinary team based at the University of Aberdeen’s National Decommissioning Centre (NDC)( https://www.ukndc.com/ ), working alongside a cohort of PhD students, postdoctoral fellows and world leading academic supervisors. Students will also benefit from access to a network of industry expertise, ongoing research projects, and advanced facilities and infrastructure. References • Díaz and Guedes Soares, 2020 Díaz, H., Guedes Soares, C., 2020. Review of the current status, technology and future trends of offshore wind farms. Ocean Engineering 209, 107381. https://doi.org/10.1016/J.OCEANENG.2020.107381 • MacNamara, C., Kapitaniak, M., Dunning, P., Karadimos, A., Milano, D., & Crawford, C. (2024). Design optimisation of floating offshore wind turbine mooring systems. In Innovations in Renewable Energies Offshore (pp. 411-417). CRC Press. • Eatough, L., 2021. Floating Offshore Wind Technology and Operation Review. • Bai, H., Xu, K., Gao, Z., 2026. Development and Future Challenges of Offshore Floating Wind Turbine Technologies in China. Engineering. https://doi.org/10.1016/J.ENG.2026.01.006 • Pham DT, Ivanović A, Neilson RD, Kapitaniak M, Eatough L. (2026) Numerical assessment of spatial interactions between floating wind turbines and fisheries submitted to Ocean Engineering
阿伯丁大学 PhD position in Coupled Modelling Framework for Anchors and Moorings in Floating Offshore Wind项目有没有奖学金,是不是全奖Phd招生,下面我们一起看一下【大学名称】Phd的奖学金资助情况
项目资助情况
Funding Notes The studentship covers a stipend/living expenses equivalent to UKRI stipend amount (£21,805 for October 2026 starts and increasing each year for 3.5 years), home/RUK tuition fees for 3.5 years (£5238 for academic year 2026/27),, a research training grant worth £3500 over 3.5 years, research expenses worth £10,000 over the 3.5 years and a travel allowance to support students travelling from Aberdeen City to the NDC campus in Newburgh, Aberdeenshire. *We welcome applications from international candidates for this studentship, but please be aware that a successful international candidate would be responsible for covering the difference between the international and Home/RUK tuition fee rates (approximately £22,000 per annum). International candidates must provide evidence that they have these funds available.
阿伯丁大学Phd申请条件和要求都有哪些?PhD position in Coupled Modelling Framework for Anchors and Moorings in Floating Offshore Wind项目是不是全奖?有没有奖学金?下面我们一起看一下阿伯丁大学申请Phd直招需要具备哪些条件和要求,以及托福、雅思语言成绩要到多少才能申请。
申请要求
Candidate Background Candidates should have (or expect to achieve) a UK honours degree at 2.1 level or above (or equivalent) in offshore, civil, or mechanical engineering, naval architecture, or geotechnical engineering. Essential background/knowledge: Strong interest or experience in numerical modelling, finite‑element analysis, and dynamic simulations Familiarity with software such as Abaqus, Plaxis, ANSYS, Orcaflex, Flexcom, MATLAB, or Python is preferred (but not required) Understanding of structural dynamics, soil mechanics, and hydrodynamics is advantageous Motivation to work at the interface of industry‑driven engineering challenges and renewable energy research This project is ideal for candidates who want to contribute directly to the future of floating offshore wind and the wider net‑zero transition. We actively encourage applications from diverse career paths and backgrounds and across all sections of the community, regardless of age, disability, ethnicity, gender, gender expression, sexual orientation and transgender status, amongst other protected characteristics.
报名方式
招生人信息
Prof A Ivanovic, Dr P Dunning, Dr S Aluwihare
邮箱:a.ivanovic@abdn.ac.uk
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