A blackout in Britain which cut power to one million customers and caused transport chaos on Aug. 9 was due to a lightning strike, the grid operator said in a report to regulator Ofgem, which said it would investigate the matter further.
An hour-long outage on the evening of Aug. 9 cut off one million electricity customers, including homes, businesses, one hospital and Newcastle Airport and caused disruption on the rail network.
National Grid said the power cuts were the result of an unusual issue that led to the almost simultaneous loss of output from two generators – Orsted’s Hornsea off-shore windfarm and RWE’s Little Barford gas-fired plant.
There were many lightning strikes that hit the electricity grid that day, but only one had a significant impact – on a transmission line at 1652 local time, which returned to normal operation after around 20 seconds, the grid’s report said.
Around 500 megawatts of generation capacity was also disconnected – all of which is normal for such events.
However, immediately after the lightning strike and within seconds of each other, Hornsea and Little Barford reduced supply to the grid, disconnecting 1,378 MW of generation.
“As generation would not be expected to trip off or de-load in response to a lightning strike, this appears to represent an extremely rare and unexpected event,” National Grid said.
“This unexpected loss of generation meant that the frequency fell very quickly and went outside the normal range of 50.5Hz – 49.5Hz,” it added.
Back-up power and other tools were used but the size of the generation loss meant the frequency fell to 48.8Hz which is a level at which secondary backup systems were required to disconnect some demand to ensure the safety of the network.
This, along, with additional generation, returned the system to normal by 1706 and network operators started to returned supply to customers by 1737, the report said.
National Grid said it will deliver its final report to Ofgem by Sept. 6, in which it will examine the exact failure mechanisms at Little Barford and Hornsea, as well as demand side impacts and communication processes.