Energy Storage Systems
Kontrolmatik manufactures its energy storage systems on a turnkey basis in its factory in Ankara. It is planned that the energy storage system solutions will be offered by Pomega Enerji Depolama Teknolojileri A.Ş., a 100% subsidiary of Kontrolmatik after 2022.
What is the Energy Storage System?
Pomega Energy Storage Systems (PESS), using the world-proven prismatic lithium ferrous phosphate technology, are systems that store the energy produced at any time and with any energy source and enable it to be reused at the desired place and time.
The main purpose of Energy Storage Systems for electrical networks is to convert and store electrical energy into a form to be stored and transfer it back to the grid as electrical energy when necessary. Energy Storage Systems is installed with control and management systems to support a reliable operating process. The aim is not only to provide local control but also to provide coordinated control of equipment throughout the national grid. PESS can charge and discharge itself to reduce energy costs and control demand load.
Some of the prominent features of Energy Storage Systems are as follows:
Experienced and Dynamic Staff
Energy Storage Systems provide many advantages to users. The most important of these are:
The First Lithium-Ion Battery Cell Factory in Turkey
Future of Energy; Energy Storage
Kontrolmatik has been providing turnkey solutions for power generation, transmission and distribution projects for over a decade. The company has successfully completed many renewable energy power plants, aerial transmission lines, substations that form national grids. Kontrolmatik's strength comes from its market knowledge and reference projects. The company provides services to the Energy Organizations of the Countries to increase the installed capacities and create reliable Energy infrastructure.
Due to the global climate change problem, country governments have set deep and binding carbon emission reduction targets. In the short term, almost zero emission electricity generation is targeted. Studies detailing potential pathways for such low-carbon futures are characterized by the significant changes required in how electricity is generated, distributed and used.
Low-carbon generation portfolios comprising nuclear, renewables, carbon capture and storage have particular challenges as electricity generation aims to meet demand despite the prospect of increasingly volatile and even negative wholesale electricity prices. Studies exploring in detail the system balancing requirements of such futures are characterized by the need for large-scale electricity storage deployment.
Thanks to Kontrolmatik's market experience, it was able to easily enter the energy storage market with its existing customers and partnerships. Since its entry into the market, the company has achieved solid results.
Energy Storage Usage Areas
Residential Type Energy Storage Systems
Residential Type Battery Energy Storage Systems help reduce costs as well as meet electricity demand. The stored energy in the battery is used during the night, ensuring minimal dependency on the grid.
Grid Type Battery Energy Storage System
The main purpose of energy storage systems for electricity grids is to convert and store electrical energy into a form to be stored and to transfer it back to the grid as electrical energy when needed. Energy storage systems are often installed together with control systems to support a safe and reliable operation process. The aim is not only to provide local control, but also to enable coordinated control of equipment throughout the network.
Power Plant Type Battery Energy Storage System
The batteries used in Power Plant Battery Storage Systems offer the possibility to store the electricity generated during the day and use it at night. These batteries not only limit price increases, but can also add value to renewable power plants. The two goals of storage are to increase the use of renewable energy and to ensure electricity supply during peak demand.