VFlowTech is excited to offer a PhD scholarship under the Industrial Postgraduate Programme, a fully funded initiative by the Singapore Economic Development Board and Enterprise Singapore. This program provides aspiring researchers with the opportunity to address critical challenges in Vanadium Redox Flow Battery technology, focusing on mitigating shunt currents, reducing losses, and enhancing system reliability and efficiency. Candidates will be full-time employees of VFlowTech while pursuing their PhD at Newcastle University (UK).
The research project aims to develop a hybrid energy storage system (HESS) by integrating flow battery and lithium-ion battery technologies into a single microgrid solution. The candidate will contribute to hardware development and advanced control algorithm creation, optimizing performance, efficiency, and reliability. This prestigious program offers a unique opportunity to drive innovation in energy storage systems.
Key Responsibilities:
1) Design and Simulation of Hybrid Energy Storage System (HESS):
- Determine suitable battery chemistries and sizes for the HESS.
- Conduct simulation tests and analyze initial results to ensure optimal design and functionality.
2) Development and testing of HESS Hardware:
- Implement and integrate the simulated HESS design into the physical hardware.
- Conduct intensive testing and validation of the HESS prototype to ensure performance standards are met.
3) Development of Energy MAnagement System (EMS) Algorithm:
- Develop a hybrid EMS to control and optimize the use of both battery technologies.
- Implement smart charge and discharge control logic to enhance system efficiency, reliability, safety, cost-effectiveness, lifespan, and overall power and energy density.
- Utilize state-of-the-art AI techniques to develop advanced EMS algorithms for efficient energy management.
Qualifications:
- Academic Background:
- An Undergraduate or master’s degree in electrical engineering, Power Electronics, Energy Systems, or closely related field.
- Strong academic record and research experience in relevant areas.
- Technical Skills:
- Proficiency in power electronics and energy storage system design.
- Experience with battery management systems (BMS) and energy management systems (EMS).
- Familiarity with simulation software and tools used in power and energy systems.
- Research and Development:
- Demonstrated experience in designing, simulating, and testing energy storage systems.
- Ability to conduct independent research and develop innovative solutions to complex problems.
- Strong analytical and problem-solving skills.
- Soft Skills:
- Excellent written and verbal communication skills.
- Ability to work collaboratively in a multidisciplinary team.
- Strong organizational and project management skills.
Benefits:
- Opportunity to work on a pioneering project with significant real-world applications.
- Access to state-of-the-art research facilities and resources.
- Collaboration with leading experts in the field of energy storage and power electronics.
- Competitive salary and funding for research-related expenses.
- Work and earn a PhD degree simultaneously with no tuition fee.
Application Process:
Interested candidates should submit the following documents:
- A detailed CV highlighting relevant experience and skills.
- A cover letter explaining your motivation for applying and your research interests.
- Academic transcripts and certificates.
- Contact information for at least two academic or professional references.
Deadline:
Applications will be reviewed on a rolling basis until the position is filled. Early applications are encourage.
Contact:
For further information or to submit your application, please contact: h[email protected] and [email protected]
Join us in advancing the future of energy storage technology and making a significant impact on the efficiency and reliability of micro-grid systems!