DescriptionAre you a curious, self-driven individual with a strong passion for developing sustainable energy solutions? The Department of Wind and Energy Systems at the Technical University of Denmark (DTU) invites applications for a PhD position focused on the topic of AI augmented design optimization of wind farms at DTU Wind. This is your opportunity to make a significant contribution towards the next generation wind farm design methodology.
Job Information
- Organisation/Company: Technical University of Denmark (DTU), Department of Wind and Energy Systems
- Research Field: Wind Energy, Computer Science, Data Science
- Researcher Profile: First Stage Researcher (R1)
- Country: Denmark
- Application Deadline: November 30th
- Type of contract: Temporary (3 years)
- Job Status: Full Time
- Offer Starting Date (Vacancy Opening): November 1st
- Is the job funded through the EU Research Framework Programme?: YES
- Marie Curie Grant Agreement Number: 101168673
- Is the Job related to staff position within a Research Infrastructure?: NO
Offer description
TWEED Project
TWEED is looking for 12 talented and motivated Doctoral Candidates (DCs) with the skills, knowledge and enthusiasm to work as part of a network to advance the field of digitalistion within the wind energy sector.
The “Training Wind Energy Experts on Digitalisation (TWEED)” Doctoral Network (DN) aims to train the next generation of excellent researchers equipped with a full set of technical and complementary skills to develop high-impact careers in wind energy digitalisation.
Co-funded by the European Commission through the Horizon Europe Marie Sklodowska Curie Doctoral Networks Programme, the TWEED network offers 12 Doctoral Candidates (DCs) positions to provide high-level training in the new emerging research field of Wind Energy Data Science and Digitalisation.
An outstanding research-for-innovation programme, and a unique training programme that combines hands-on research training, interactive schools and hackathons, innovation management and placements with industry partner organisations has been designed for the DCs who will participate in the network. Alongside the exciting research topics related to wind energy data science, the research programme also includes state-of-the-art technology to develop a new Wind Energy Data Science Hub that will facilitate a virtual research environment to foster collaboration, data sharing and testing of innovative solutions to significantly increase the value of wind energy.
The network will provide an interdisciplinary and inter-sectoral context to foster creativity in tackling wind energy data science and digitalisation challenges by developing solutions for commercial exploitation.
DCs will be trained in business innovation to extend their focus beyond the academic context, to be able to identify added-value products or services with the guidance from established researchers and entrepreneurs. As a result, a research-for-innovation mindset will be developed to provide enhanced career prospects for the fellows, equipping them with a complete set of thematic, technological and innovation skills.
DCs are expected to i) conduct high quality, original academic research in the fields of Wind Energy, Digitalisation, Data Science and Computer Science, ii) participate in the network’s planned training-dissemination activities and mobility plan, iii) collaborate with fellow researchers, with the goal of advancing and promoting the network's objectives.
The most talented and motivated candidates will be selected to participate in the network's interdisciplinary collaborative research training, preferably starting in February 2024. The assessment shall be carried out by the TWEED recruitment team.
DC Project
Internal code of the position: DC1
Host Institution: Technical University of Denmark (DTU), Department of Wind and Energy Systems
Brief description: AI augmented design optimization of wind farms
The overall design of large wind farms concerns the selection of turbines, siting of turbine layout and many other engineering decisions. Its optimization holds a great potential for reducing the investment costs and increasing the profit. Traditionally, wind farm layouts are optimised with physics-based flow models and search & evolutionary algorithms such as Random Search and Genetic Algorithm, which are also a type of AI techniques for solving optimization problems. Many studies have applied machine learning (ML), a subset of AI techniques, to build surrogate models for wind farm flows. This project will investigate the potential of combining the strengths of ML based surrogate modelling with AI enabled search & evolutionary algorithms, by proposing a framework/ methodology to better integrate AI into the workflow of design optimization of wind farms to achieve faster and better results. The process of building/refining the surrogate model will be integrated with the searching/optimization process guided by the search & evolutionary algorithms to save computational costs and improve optimization results. The research will consider both onshore and offshore applications, with realistic modelling of wind farm costs included. A new framework/methodology to integrate AI into the workflow of design optimization of wind farms, which can be generalised to other engineering design problems, will be developed, that can better reduce investment costs and improve profits for future wind farms.
Secondments:
- 3 months industrial secondment at EDF UK hosted by Suguang Dou to improve the cost model of wind farms, with a tentative date of May-July in 2026.
- 3 months academic secondment at TU-Delft hosted by Prof. Simon Watson to combine the wind resource assessment techniques developed by DC2 and apply the optimization framework to multiple wind farm design, with a tentative date of Feb-April in 2027.
Personal Supervisory Team: Ju Feng (DTU), Pierre-Elouan Mikael Réthoré (DTU), Prof. Simon Watson (TU-Delft), Suguang Dou (EDF UK).
Requirements
Research Field: Engineering, Wind Energy, Data Science, Computer Science
Education Level: Master Degree or equivalent
Skills / Qualifications:
- Applicants must be proficient in the English language.
- Master degree or equivalent obtained by the time they are appointed. Students currently in the final year of a Master’s degree are encouraged to apply but should note that if selected, they will be expected to start their PhD in the first quarter of 2025.
Specific requirements:
- Programming skills
- Ability to work in a team and independently.
- Willingness to follow the mobility plan of the programme (conduct secondments in the country of the host institute or abroad)
- The successful candidate must also fulfill the requirements for admission to a PhD program at DTU as described at: https://www.dtu.dk/english/education/phd/applicant/pre_acceptance-1-
Languages: English
Level: Excellent
Approval and Enrolment
The scholarship for the PhD degree is subject to academic approval, and the candidate will be enrolled in one of the general degree programmes at DTU. For information about our enrolment requirements and the general planning of the PhD study programme, please see DTU's rules for the PhD education.
Salary and appointment terms
The appointment will be based on the collective agreement with the Danish Confederation of Professional Associations. The allowance will be agreed upon with the relevant union. The period of employment is 3 years.
Additional Information
Benefits
You will work under a 36-month employment contract with the competitive conditions and salary adapted to the living costs in each host country, set by the MSCA Doctoral Networks (DN). The MSCA DN programme offers a highly competitive and attractive salary and working conditions. The successful candidates will receive a salary in accordance with the MSCA regulations for DCs, according to the national rules of the country with full social security benefits.
The successful candidate will receive a financial package plus an additional mobility and family allowance according to the rules for Doctoral Candidates (DCs) in an EU Marie Skłodowska-Curie Actions Doctoral Networks:
- Living Allowance of € 4488/month to be paid in the currency of the country of the Host Organisation.
- Mobility allowance of €600/month to be paid to all DCs recruited.
- Family allowance of €660/month to be paid depending on DCs family status
The gross salary will be calculated by deducting the applicable employer taxes and social security contribution for each country, from the amounts mentioned above and will be approximately €3300/month (without family allowance). Additional deductions may apply based on your personal circumstances and local tax/social security regulations.
In support of families with young children, flexible working hours will be offered to the DC whenever it is feasible within the requirements of the project.
Following the EU’s commitment to DEI, the TWEED network and DTU encourages and promotes the participation of under-represented groups such as women in technical careers, people from diverse economic and ethnic backgrounds, people with disabilities, those who identify as neurodivergent and LGBTQA+. The {Host institution} community aims to exercise a policy of equal opportunities at all times.
Additional information can be found in Information Note for Marie Sklodowska-Curie fellows in Doctoral Networks.
Eligibility criteria
All applicants must, at the date of the recruitment, comply with the following ELIGIBILITY CRITERIA:
- Candidate status: At the time of recruitment, applicants must not hold a doctoral degree or equivalent.
- Mobility Rule: Applicants can be of any nationality. However, applicants must not have resided or carried out their main activity (work, studies, etc.) in the country of the recruiting organisation for more than 12 months in the 3 years immediately before the appointment. This excludes short stays such as holidays or compulsory national service
Candidates are required to document in their applications their compliance with the eligibility criteria. To prove their eligibility, candidates can use supporting documents such as studies, residence or work certificates.
Selection process
Selection process complies with the guidelines set forth in the European Charter for Researchers, including the Code of Conduct for Recruitment of Researchers.
Candidates will be requested to provide their consent for their application documents to be shared among the members of the recruitment team for review (including other institutions than the institution to which they originally addressed their application). Additionally, they will be requested to consent (or decline) to having their application forwarded to another host institution within the network, should their profile be better suited for a different position. Personal documents and information of the candidate will be treated confidentially.
Eligibility check
- The Recruitment Team of TWEED will gather the information from all candidates and will check that they comply with the eligibility criteria and that the applications are complete, in English, and submitted before the deadline.
- The initial check of the eligibility criteria will have to be formally approved by the host institution at the time of recruitment of the appointed candidates.
- Ineligible candidates will be notified via email.
- Candidate personal information
- Information about graduate and postgraduate degree and qualifications
- Work experience
- English proficiency
- Identification of other possible positions at TWEED in which you may be interested or which have also been applied for.
Assessment:
A Selection Committee will be set up at the host institution, led by the Main Supervisor. The Selection Committee will assess all candidates according to their academic profile, personal motivation, relevant background, professional experience, scientific knowledge, transversal skills, soft skills and English proficiency. The Selection Committee will short-list at least the best 3 candidates.
Interview
The Selection Commitee will interview the short-listed candidates and will produce a ranked list of candidates that qualify for the position.
Decision
According to the procedure established in TWEED, the Selection Committee will submit its list of preferences to the Supervisory Board (the project's governing body). The SB will prepare the final ranking of candidates for each position.
Communications
Candidates will be informed of the status of their application during the selection process.
How to apply
Your complete online application must be submitted no later than 30 November 2024 (23:59 Danish time). To apply, please open the link "Apply now", fill out the online application form, and attach all your materials in English in one PDF file. The application must include:
- Detailed CV:
- Eligibility information, countries of residence for the last 3 years
- Motivation letter
- The names and contact information of two referees.
- Written agreement of the permission to share information with the TWEED project Recruitment Team.
Work location
Number of offers available: 1
Company/Institute: Technical University of Denmark (DTU)
Country: Denmark
City: Roskilde
Postal Code: 4000
Street: Frederiksborgvej 399, 4000 Roskilde
Contact
Main supervisor: Senior Researcher, Ju Feng, +45 93510691, jufen@dtu.dk
Main contact of the project: tweedproject@unizar.es
About DTU
DTU develops technology for people. With our international elite research and study programmes, we are helping to create a better world and to solve the global challenges formulated in the UN’s 17 Sustainable Development Goals. Hans Christian Ørsted founded DTU in 1829 with a clear mission to develop and create value using science and engineering to benefit society. That mission lives on today. DTU has 13,500 students and 6,000 employees. We work in an international atmosphere and have an inclusive, evolving, and informal working environment. DTU has campuses in all parts of Denmark and in Greenland, and we collaborate with the best universities around the world.
The Department of Wind and Energy Systems is one of the world’s largest centers of wind energy and energy systems research and knowledge, with a staff of 400 people from 37 countries working in research, innovation, research-based consulting and education. DTU Wind and Energy Systems has approximately 100 PhD students. The department’s cross-disciplinary research is organized through strategic research programmes that collaborate with Danish and international universities, research institutions and organizations, as well as the wind industry.