PhD Position in Hydrogen for Hubs for Circularity: System Integration and Optimization
Updated: 24 Nov 2024
Job Description
As a researcher, you will have the opportunity to make a significant contribution to sustainable energy solutions by analyzing hydrogen technologies, developing decarbonization strategies, and conducting techno-economic and environmental impact analyses. Next to developing a groundbreaking PhD thesis, the selected candidate will focus on two tasks as a part of UT’s responsibilities within the European Commission-funded project entitled “From Industrial Symbiosis to Hubs for Circularity – IS2H4C:
- Developing and optimizing large-scale, multi-vector energy systems supported by hydrogen. This task includes designing, simulating, and testing energy conversion technologies that maximize resource efficiency and industrial symbiosis.
- Conducting performance analysis and technical optimization of hydrogen technologies using advanced simulation models to deliver actionable recommendations for full-scale industrial applications.
The research outcomes aim to enhance the integration of hydrogen as a central component in circular energy hubs, reduce carbon emissions, and improve energy efficiency. For more information, please check this website
Key Responsibilities
- Conduct thermodynamic and techno-economic analyses of hydrogen-based energy systems.
- Develop simulation models for multi-vector energy systems, incorporating renewable energy integration and waste recovery.
- Collaborate with industrial and academic partners to gather inputs and validate research findings.
- Prepare technical reports, publications, and deliverables aligned with project milestones.
- Contribute to the transition of linear energy systems to circular frameworks by leveraging hydrogen technologies.
Requirements:
- We seek a motivated, dedicated, and forward-thinking individual to join our research team.
- You are an exceptional Master's graduate in Chemical Engineering, Mechanical Engineering, Systems Engineering, or a closely related field. You have a distinct inclination toward interdisciplinary research projects.
- Your academic background includes a deep understanding of energy systems, waste recovery, and sustainability principles, aligning with the project's focus on contributing to the circular economy.
- You have specialized knowledge and demonstrable experience in hydrogen technologies, including—but not limited to—hydrogen production, storage, transport, system integration, and applications in multi-vector energy systems.
- You have the ambition and talent to thrive in tackling complex multidisciplinary technological challenges. You are keen on driving innovation in hydrogen technologies to optimize industrial synergies.
- Proficiency in programming languages such as Python or MATLAB is required, along with strong skills in mathematical modeling and simulation. Experience with optimization techniques and techno-economic analysis is highly desirable.
- Your analytical and problem-solving skills are complemented by an ability to communicate complex ideas clearly, both in writing and verbally.
- Teamwork is key: You should be comfortable working in a multidisciplinary research environment, collaborating with academics, industry professionals, and technology providers from various sectors.
- Effective communication skills and a structured approach to project management are essential for success in this role.
- Proficiency in spoken and written English is mandatory, as the project involves international collaboration.
- You can do independent work but also value the insights from collaborative efforts, maintaining a balance that serves the project's objectives.
- We encourage you to apply if you meet these criteria and are enthusiastic about contributing to a pioneering research project that aims to shape the future of sustainable and circular energy systems.
- This is a unique opportunity to work on a cutting-edge research project with a talented team, access state-of-the-art equipment and facilities, and receive a competitive salary and benefits package.
Salary Benefits:
- A full-time, 4-year Ph.D. position;
- Mentorship and a stimulating international research environment with excellent facilities;
- A professional and personal development program within Graduate School Twente;
- A starting salary of € 2.872 and a salary of € 3.670 in the fourth year gross per month;
- A holiday allowance of 8% of the gross annual salary and a year-end bonus of 8.3%;
- A solid pension scheme;
- A minimum of 29 holidays per year in case of full-time employment;
- A dynamic and international environment, combining the benefits of academic research with a topic of high industrial relevance;
- Full status as an employee at the UT, including pension and health care benefits;
- Excellent working conditions, an exciting scientific environment, and a lively green campus.
40 hours per week
Drienerlolaan 5