The project aims to test and demonstrate Azelio’s Stirling engine systems and integrated thermal energy storage, TES, solution for renewable energy projects that use photovoltaic solar, concentrated solar power, CSP, and wind energy, or projects that provide off-grid solutions, with the purpose of determining if the technology can be included in current and future renewable energy projects.
"With Masdar City established as the natural home for innovation in sustainable urban development and clean technologies, we are delighted to be working with Azelio and Khalifa University to help validate the commercial feasibility of their project," Yousef Baselaib, Executive Director of Sustainable Real Estate at Masdar.
Testing will begin with an evaluation of Azelio’s Stirling engine system for renewable power production in fall 2019. This will be followed by an analysis of the complete system – including the TES – during the first half of 2020.
Dr. Arif Sultan Al Hammadi, Executive Vice-President, Khalifa University of Science and Technology, said, "As a research-intensive academic institution, Khalifa University offers one of the most suitable platforms for testing and demonstration of new technologies and solutions, especially in clean energy, and we are delighted to partner with Azelio and Masdar to evaluate the Stirling system with integrated energy storage. We believe the pilot phases will provide adequate data that will help Azelio’s technology to target large and exposed segments in terms of access to energy. We look forward to offer our expertise in evaluating the technology together with our partners." He added, "Masdar Institute at Khalifa University will continue to serve as the research location for leading and pioneering cutting-edge scientific exploration in clean energy-related areas including energy storage, biofuels, renewable energy mapping, advanced power and nuclear energy. We firmly believe, as a research institute, Masdar Institute will continue to set fresh milestones while obtaining new solutions in clean energy and advanced sustainable technologies." Khalifa University will provide the research support and expertise for the two testing periods and the data collected by the researchers during the testing phases will be compared with data from existing dispatchable technologies.
"Masdar has a proven track record in the incubation of advanced clean technologies," said Eklind. "Through this agreement we hope to gain vital operational data and other technical insights to help prepare our solution for the commercial market." The pilot will be installed within the site of the Sustainable Bioenergy Research Consortium – a research centre located at the Masdar City campus of Khalifa University. The power generated from the project will be used to power the air conditioning for the project’s office and storage units.
© Copyright Emirates News Agency (WAM) 2019.