Summary
The University of Victoria (UVic), Canada, invites applications for Graduate Student Positions in the Department of Civil Engineering under an exciting research project focused on Multi-scaled, Multi-sector, and Multi-vector (M3) Energy Systems Modelling. Supervised by Dr. Madeleine McPherson, the project aims to develop next-generation energy system models using machine learning, applied statistics, optimization, and high-performance computing to support global decarbonization efforts. Successful candidates will also be affiliated with the Institute for Integrated Energy Systems (IESVic).
PhD Research Position 2026 in Energy Systems Modelling Study in University of Victoria, Canada
Designation
| Details | Information |
|---|---|
| Position | Graduate Student (Master’s/PhD Research Position) |
| Department | Civil Engineering |
| Institution | University of Victoria (UVic) |
| Research Group | Sustainable Energy Systems Integration & Transitions (SESIT) Group |
| Supervisor | Dr. Madeleine McPherson |
| Research Institute | Institute for Integrated Energy Systems (IESVic) |
| Country | Canada |
| Start Date | May or September (as available) |
Research Area
The selected candidates will work on interdisciplinary research involving:
- Energy Systems Modelling
- Multi-scale Energy Analysis
- Multi-sector Energy Integration
- Multi-vector Energy Systems
- Machine Learning
- Applied Statistics
- Optimization Techniques
- Artificial Intelligence for Energy Systems
- Parallel Computing
- Scientific Computing
- Data Visualization
- Sustainable Energy Transition
- Decarbonization Technologies
- Computer Science Applications in Energy
Location
Department of Civil Engineering
University of Victoria (UVic)
Victoria, British Columbia, Canada
Eligibility / Qualification
Applicants should possess:
- A Bachelor’s or Master’s degree in:
- Engineering, Computer Science, Or a closely related discipline.
- Strong written and spoken English communication skills.
- Working knowledge of Python or another object-oriented programming language with the ability to quickly learn Python.
- Knowledge of Applied Statistics and/or Machine Learning methods.
- Familiarity with optimization techniques is desirable.
- Interest or background in energy systems is an advantage.
- Ability to work effectively within an interdisciplinary and diverse research team.
Job Description
The successful graduate researcher will contribute to the development of an innovative M3 Modelling Platform capable of integrating multiple energy sectors, spatial and temporal scales, and different energy carriers into a unified modelling framework.
Research responsibilities include:
- Developing scalable energy system models.
- Applying machine learning algorithms for energy modelling.
- Performing applied statistical analyses.
- Designing optimization approaches for complex energy systems.
- Implementing parallel computing techniques.
- Creating advanced visualization tools.
- Collaborating with researchers from multiple disciplines.
- Supporting research aimed at accelerating global energy transition and decarbonization.
How to Apply
Interested applicants should submit their application via email with the subject line:
“M3 Modelling Position”
Include the following documents:
- Detailed Curriculum Vitae (CV)
- One-page Cover Letter describing:
- Programming expertise
- Previous research experience
- Publication record (if applicable)
- Suitability for the position
- Names and contact information of two academic/professional references
Applications should be sent to:
Email: mmcpherson@uvic.ca
Applicants should also mention their preferred starting term (May or September) in the cover letter.
Last Date for Apply
Open Now
Applications are accepted until the position is filled. Early submission is strongly encouraged.
About the Scholarship
This graduate research opportunity focuses on developing cutting-edge computational tools for future energy systems. By integrating artificial intelligence, optimization, and advanced computing with sustainable energy research, students will gain valuable interdisciplinary experience while contributing to global decarbonization initiatives. The project is hosted within the Sustainable Energy Systems Integration & Transitions (SESIT) Group and the Institute for Integrated Energy Systems (IESVic) at the University of Victoria, offering an excellent environment for research and professional development.








