Energy storage is essential for a sustainable energy future: It helps balance short-term fluctuations, provides operating reserves, and maintains grid stability. Additionally, it supports long-term storage and overall grid functionality.
At Ayesa, we use our deep knowledge of transmission, distribution networks, and energy storage solutions to guide clients in developing large-scale energy storage projects. Our approach covers all aspects—technical, financial, economic, and commercial—ensuring effective opportunity evaluation and risk management.
In-house Experts
Our team of specialists, skilled in distribution grid electrical engineering, power electronics, controls, system commercialisation, and energy economics, leads our energy storage and demand-side management projects. We combine extensive engineering experience in the renewable sector with advanced AI technologies for storage operations, covering the entire project value chain. We have successfully implemented technologies for over 300 MWh of storage.
Ayesa has been actively involved in a range of energy storage technologies globally, including:
Battery Energy Storage Systems (BESS): Rechargeable batteries that store energy from variable sources and discharge it as needed to balance the electrical grid, provide backup power, and enhance grid stability. Ayesa has delivered circa 20 projects with BESS solutions around the world.
Pumped Hydro Energy Storage (PHES): A well-established method where water is pumped to a higher elevation during low-demand periods and released to generate electricity during peak demand. Its potential is growing as countries seek to improve energy resilience and maximize renewable energy use.
Thermal Storage: This category includes technologies like salt thermal storage and Concentrated Solar Power (CSP), which store energy in thermal form for later use.
Hydrogen Electrolyzers: Devices that use electricity to split water into hydrogen and oxygen, with hydrogen stored for energy applications.