Soon we’ll have too MUCH energy! Boom in wind and solar power will see so much surplus electricity generated by 2030 that some will go to waste, forecast says
- Electricity generated by solar and wind is set to outstrip demand significantly
- Analysis predicts that huge amounts of electricity could go to waste by 2030
- Without sufficient energy storage, electricity could be cheaper at off-peak times
Britain is predicted to have an excess amount of electricity by 2030 due to huge investments in wind and solar power, according to new analysis.
An enormous amount of energy produced by renewable sources could go to waste within a decade without significantly more energy storage technologies, such as batteries and electrolysers to make hydrogen – according to LCP, a consultancy.
Britain’s electricity grid runs on a supply and demand basis and therefore has to be kept in balance to keep the system running and avoid blackouts.
If more energy is produced than there is demand for, it goes to waste.
This impacts wind and solar notably, as unlike coal and nuclear their energy production cannot be increased on command to match demand.
The government’s new energy security strategy – which is aiming for 95% of its electricity to be from low-carbon sources such as solar panels by 2030 – raised questions for investors of renewable sources and nuclear plants about if they will be able to find buyers for when they are producing energy above levels of demand.
The UK could end up wasting huge amounts of electricity by 2030 as it invests heavily in solar and wind power, but there may not be enough energy storage to stop wastage (pictured: off shore wind farm near the River Mersey)
Solar and wind power produce electricity in a less predictable manner than nuclear and coal and therefore sometimes it’s energy goes to waste if there is not enough supply (pictured: solar farm in Northamptonshire)
If they are unable to, it is possible they will ask for higher subsidies for times when they do operate to balance their costs.
Another consequence of this is thought to be that electricity tariffs dubbed ‘time of use’ will offer consumers cheaper power at times of oversupply.
When it’s sunny and windy people will be encouraged to use more energy, by charging electric vehicles or other energy-hungry devices.
Wind is already the second biggest contributor of energy in the UK, and it is believed that the price of wind energy will drop to about a quarter of the price of gas energy in 2023.
Currently low-carbon wind, solar and nuclear power generated in the UK rarely exceeds Britain’s power demand.
However LCP estimates this oversupply could happen for 53% per cent of the time by 2030.
Without a big expansion of energy storage technologies, this could lead to huge amounts of green electricity being wasted, with plant owners being forced to switch off production.
Chris Matson, a partner at LCP, spoke to The Times, he said: ‘For more than half the time in 2030 the UK’s renewable and nuclear backed energy system will be producing more energy from renewables and nuclear than it uses.
‘Simply wasting this generation would harm both consumers and investors so a whole system approach is essential to minimise the cost of delivering net zero.’
He said the UK needed to accelerate the delivery of technologies such as battery storage, pumped hydro-electric plants, and electrolysers.
Consumers could be offered discounted electricity at off-peak times in the future to combat the problem of there not being enough energy storage facilities in the UK
In 2021, LCP estimated that an extra 20GWh of battery storage could reduce the amount of wind power wasted by up to 50%.
They also predicted by 2025, wind curtailments between Scotland and England will cost consumers £1bn per year and that this figure is likely to grow.
Analysis showed Great Britain curtailed wind power on 75% of days in 2020, with over 3.6TWh of wind power being turned off in total, mainly due to network constraints.
This volume of wasted wind power is enough to have powered over a million homes for a whole year.