Sultan Qaboos University will massively improve its power supply reliability and be able to lower costs by combining electricity from solar, wind and battery storage. This will be possible with Siemens providing equipment and software for a microgrid at the university, which is the first deployment of the technology for Siemens in the Middle East.
Siemens will revamp the existing microgrid setup in the Smart Grid and Protection Lab at the department of Electrical and Computer Engineering by adding smart grid features to it. ‘This means that the grid – connecting renewable energy sources with battery capacity – will have intelligent control algorithms optimising power production, storage and consumption in real-time,’ stated
Siemens.The project is the third phase of developing the Smart Grid and Protection Lab and is financed by Siemens and The Research Council. With smart grid features, students will be able to simulate different situations and monitor the grid behaviour through a control panel.
“This project demonstrates Siemens’ commitment to Omani society by advancing knowledge of nationals in the sultanate’s top university while exemplifying integration of renewables in the energy mix and grid modernisation,” said Claudia Vergueiro Massei, CEO, Siemens in Oman. “We are proud to serve society and contribute to clean energy and an energy-efficient future in Oman.”
Microgrids are transforming traditional electric supply systems. Renewable energy sources like solar and wind, coupled with more stable and intuitive grid automation and control solutions, are giving rise to localised grids that can operate autonomously. This allows campuses, industries, or remote areas to operate their own grids, and can also accelerate the emergence of prosumers – or consumers who generate a surplus of energy and sell it in the macrogrid or to the main grid, if it is connected.
“The College of Engineering (CoENG) at SQU has worked jointly with Siemens to establish this important cooperation for industrial knowledge transfer through specialised workshops, research and development opportunities, capacity building and students’ training with a field work know-how. The CoENG will further coordinate for the dissemination of experience and industrial knowledge to the SQU community,” said Dr Hadj Bourdoucen, professor of Electrical and Computer Engineering and the previous Dean of CoENG. “The current Dean, Dr Nabeel al Rawahi, strongly supports the collaboration as it will benefit the college staff and students and will be an excellent addition to teaching and research activities at SQU.”
Microgrids are expected to expand in Oman and across the Middle East. Some rural areas in Oman, for example, use small diesel generators to power communities. More renewable power capacity, along with stable, reliable, and efficient microgrids can help these rural areas phase out some diesel power plants. Campuses, military bases, islands and industrial zones can also benefit from microgrids, which provide reliable, stable and sustainable power supply.
Siemens signed a Cooperation Agreement with SQU’s College of Engineering earlier this year. The agreement formalises an existing relationship with SQU and includes seminars with Siemens experts, summer internships, knowledge exchange activities, and the contribution of the microgrid lab.
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