Hybrid Thermal Electric Microgrid (HyTEM)

Transitioning to fully-electric heating is not feasible as the existing grid cannot cope with an all-electric heating load and the ever-increasing demands for electrification of the transport sector.

NSERC CREATE HyTEM provides the research and training needed to advance the development of novel flexible hybrid microgrids. These microgrids enable integration of distributed renewable energy resources into electric grids and thermal networks. HyTEM can be used to create stand-alone microgrids in remote, island and northern communities. In urban settings, HyTEM systems can integrate renewables and waste-heat energy from industry, computing centres and even sewers into the overall energy infrastructure and supply.

INTRODUCTION

The NSERC Collaborative Research and Training Experience (CREATE) Hybrid Thermal Electric Microgrids (HyTEM) program is providing over 100 undergraduate, graduate, and post-graduate scholars with the interdisciplinary training needed to integrate distributed energy resources into electric and thermal networks to work in harmony for the reliable supply of clean and sustainable energy.

Led by Dr. Majid Bahrami of Simon Fraser University (SFU) along with 10 other professors from SFU, University of Waterloo, Carleton University, University of Ottawa, University of British Columbia, and Toronto Metropolitan University, the CREATE HyTEM program will provide scholars with the skills needed to develop technical solutions and navigate the business, governmental, policymaking, and social/organizational drivers of the sustainable energy field.

Project Status: Active

Project Lead: Dr. Majid Bahrami

Co-creation Partners

CREATE HyTEM brings together eleven leading research teams from six Canadian universities in partnership with over 30 national labs, international research centers, municipal district energy utilities, clean industry partners and non-profit think tanks.