RWE selects Parker Hannifin PV energy storage system
Parker Hannifin has secured an order from RWE to help accommodate the rising amount of photovoltaic (PV) solar energy generated on its network. The solution, a Parker 890PX series grid-tie inverter paired with LG Chem Li-ion batteries in a container-based energy storage system, will not only defer the otherwise necessary investment in distribution grid upgrades, but reduce solar PV generation curtailment and improve grid power quality in terms of voltage and frequency.
Once installed, the solution will allow Westnetz, the distribution system operator of RWE in the relevant region, to defer previously planned distribution grid investment, reduce the probability to truncate solar PV generation and ensure stable and consistent power for their customers. The project will be realised not only to test the system in critical grid situations, but also as a first showcase and pilot for a further development of the future market design and regulatory framework. The system is presently being manufactured with delivery and commissioning anticipated in September 2015.
Westnetz is the largest distribution system operator in Germany and faces huge challenges in rural grids due to the increasing levels of solar PV generation on its network, particularly in the peak summer months. Traditionally, stabilisation efforts would require the operator to reinforce network infrastructure with new distribution lines and distribution transformers. Westnetz has found another, more satisfactory solution.
The experienced engineering team from Parker’s EGT Division partnered with RWE from the concept stage to develop a grid level battery energy storage system which allows peak solar generation above the network limit to be stored during daylight hours and released later as required. The Parker system offers a 250kW system with a capacity of 1MWh energy storage, in a single 40ft ISO shipping container. Combining the inverter, controls and battery in one container offers Westnetz the potential to relocate the system to a different area of the power grid in the future as required.