Statoil: Batteries can address wind power variability
Nov. 28 (UPI) — Norwegian energy company Statoil said it was planning a battery system for a floating wind farm that will be “smart ” enough to compensate for calm conditions.
The company said Tuesday its Hywind facility off the coast of Scotland, the first floating wind farm in service in the world, will be equipped next year with batteries to store power.
“The purpose is to ‘teach’ the battery when to hold back and store electricity, and when send power to the grid, thus increasing value of the power,” the company explained.
The company last year unveiled an energy-storage project dubbed Batwind at its Hywind floating offshore wind farm. Through a memorandum of understanding signed with the Scottish government, the company aims to install a Lithium battery storage system within two years.
The company said Tuesday it was now handing out contracts to deliver the 1 megawatt battery system, which will be in service by the second quarter of next year.
“Through Batwind we are including software — or a brain if you like — on top of the battery to ensure that the battery behaves the way we want it to behave,” Sebastian Bringsværd, the head of Hywind development at Statoil, said in a statement. “We want the battery to automatically know when to hold back and store electricity, and when to send it out to the grid.”
Reliability for variable sources of energy like wind and solar power are a concern. The U.S. energy secretary, Rick Perry, in April was calling for an investigation into the resilience and reliability of the nation’s energy grid. With renewable resources like solar and wind deemed variable because of the nature of their power origins, the secretary said the issue was a critical one given regulatory burdens enacted by previous administrations that could impact legacy resources like coal-fired power generation.
For Statoil, the battery component for wind energy adds support to its efforts to complement its oil and gas portfolio with “profitable renewable energy.”