Vital Energi sign collaboration agreement with the University of Birmingham to develop and commercialise thermal storage solutions
Vital Energi have signed a collaboration agreement with the University of Birmingham to develop and commercialise a range of thermal storage solutions to help accelerate decarbonisation within the heating and cooling sector.
Vital Energi and the University of Birmingham will work together over an initial four years to continue the development of thermal storage Intellectual Property (IP) with a view to bringing a number of products to market. As part of the agreement, the University has assigned several IP rights, including a number of patents, to Vital Energi.
The implementation of thermal energy storage is imperative to address the challenges posed by intermittent renewables and enhance the overall reliability and sustainability of energy systems. Just as decarbonisation of electrical generation necessitated the huge growth in electrical storage over the last 10 years, it is expected that thermal energy storage will emerge over the next decade as a key enabler in accelerating the electrification of heat which will form the core of heat decarbonisation.
The collaboration will leverage the combined strengths of Vital Energi’s industry experience and the expertise in the academic team led by Professor Yulong Ding, Chamberlain Chair of Chemical Engineering and the founder of the Birmingham Centre for Energy Storage. Both entities aim to accelerate the pace of innovation and commercialisation of thermal storage solutions.
Vital Energi’s technical development director, Chris Taylor, said:
“We see thermal energy storage as a core component in the decarbonisation of the heating and cooling sector. Through this collaboration, we aim to bring innovative energy storage to the market and tackle some of the obstacles introduced by an evolving energy system.
“This is an exciting time for Vital and we believe we have found the perfect partners in Professor Ding and his team at the University of Birmingham, and look forward to working together to commercialise their concepts.”
Professor Ding added:
“Globally, thermal energy accounts for over 50% of final energy consumption and is responsible for more than 40% of energy-related carbon dioxide emissions, making it central to achieving net zero emissions. While it is the hardest-to-decarbonise sector, thermal energy storage can help us address this challenge, and I am looking forward to working with Vital Energi to make this happen.”
Professor Martin Freer, director of the Birmingham Energy Institute at the University of Birmingham, added:
"This partnership is really exciting as it allows a pathway for the discoveries of Professor Ding and his team to deliver impact in the development of the UK’s energy system in the much-needed area of energy storage.
“The University of Birmingham’s research is world leading in this area and it presents the opportunity with Vital Energi, who have been fantastic partners, to deliver world leading energy solutions."
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