The ESS (Energy Storage System) was designed to improve energy efficiency by using power only when it is necessary after it has been stored. The ESS is an energy solution system for improving the quality of renewable energy and stabilizing power supply.
Materialize smart grids for storing electricity that is generated from renewable energies, such as solar power, hydraulic power, wind power and terrestrial energy, or through cheap midnight power and selling it when electricity supply and demand are high
ESS for Gencos
Materialize economic and effective grids through storing cheap midnight power and managing energy consumption properly in order to control peak power use of companies
ESS for Energy Control Companies
Create revenues through efficient energy management by charging batteries through renewable energies, such as solar power, hydraulic power, wind power and terrestrial energy, using cheap midnight electricity
Can do effective generation business because power scheduling is possible due to the power management system (PMS)
Can effectively expand the power market for all power companies and business people by discharging batteries in the afternoon when power consumption is high
Use renewable energy systems and eco-friendly energy all day long
The ESS minimizes the power purchasing of grids by storing energy produced by PV during the day for people to use it whenever necessary.
Raise energy self-consumption and can reduce entire power rates
Secure stable and cheap power self-supply networks with renewable energy systems, including solar power, terrestrial heat, hydraulic power and wind power, in islands where it is difficult to establish transmission networks
Can be used as alternative energy sources, during unexpected power failures
LFP is good in terms of safety and durability and has equal voltage. Develop and produce LFP batteries with excellent stability based on our strong ability to design batteries Secure high power generation and long durability through optimizing composition of electrodes and electrolytic solutions Excellent properties at a very low temperature As high-capacity batteries are used after connecting many end cells in series and rows, it is important to minimize variations between batteries. Produce batteries with equal efficiency in terms of capacity, resistance and durability, through production automation and strict process management Divide operation and unusual conditions with independent communication-controlling algorithms Secure system stability by cell balance, tray balance and module balancing Secure system stability by circuits for preventing inrush currents Manage deep DOS and SOC with control algorithms optimized for LiFePo4 The best operation through connection solar energy control systems