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UK’s ‘stunning Sunday’ of 70% low-carbon power offers glimpse of near future

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PV Magazine

A ‘stunning Sunday’ for the U.K.’s energy sector was recorded on June 11 as warm, windy sunny weather helped to push the amount of low-carbon energy on the grid to 70%, bringing the nation’s carbon intensity of power production below 100g of CO2 per kWh for the first time ever.

solar penetration on the uk energy market copy

A healthy combination of solar PV, wind and nuclear crowded out coal and gas, enabling the British grid to reach a level of carbon intensity not expected to become the norm until 2030.

This glimpse into the country’s energy future was welcomed by grid managers despite the inherent challenges that remain in bringing greater volumes of intermittent power on to the grid.

According to the National Grid’s figures, the afternoon of June 11 saw solar PV meet 8.1% of the U.K.’s power needs, with wind at more than 25%. This follows a Friday in late May when solar briefly outshone the nation’s eight nuclear power stations, and the country’s first coal-free day since the Industrial Revolution.

An upshot of more renewable power on the grid – even to those ideologically opposed to clean energy – is that as demand for power on the grid reduces, so too do prices.

With high wind output in the U.K. last week, the country recorded its first negative power prices whereby conventional power plants then had to pay some utilities to take their electricity.

While such negative power prices have already been seen in Germany, this is the first time the U.K. has recorded them.

“This has surprised people,” Aurora Energy Research analyst John Feddersen told the Guardian, adding that the country’s capacity market protects the U.K.’s big utilities from the type of share price tumbles seen in Germany in the wake of negative pricing.

Also, the National Grid pays its thermal power plant providers emergency-backup subsidies that help to keep them in the black. “This is the new world for how the system’s meant to work in the U.K.,” Feddersen added. “Generators know you’re not going to get your investment back in the energy market.”

And it’s not just negative pricing that the National Grid has to deal with, but more unpredictable prices as wind and solar load the grid during the day.

This volatility – which has seen day-ahead power prices fluctuate between zero and more than $90 per MWh in the past month – means that fossil fuel plants have to be ready to ramp up or down at short notice. This brings new, but welcome, challenges to the grid in the summer months.

Already in 2017 the U.K. has recorded more than 300 coal-free hours – more than the 210 hours recorded over the course of 2016, and this figure is only going to keep on rising as more wind and solar is added.

National Grid daily operations manager Duncan Burt believes that the country is prepared to handle more renewables. “It is one of these things where we’ve tipped through a threshold,” he said. “But the work we’ve done to get ready for this has paid off.”

Source: PV Magazine. Reproduced with permission.  

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  • Kevan Daly

    I don’t know why you get so excited about this. In summer National Grid runs nuclear at about the daily minimum demand and lets solar/wind/gas scrabble around for the rest. But it easily has enough gas capacity to meet demand when there is zero solar/wind. It’s winter you should be thinking about.

  • Stunning modelling of 100% low carbon power …

    Wind power, energy storage and back-up can meet demand 24/7/52.

    My recently extended computer modelling of a wind power, pumped-storage hydro and back-up generators system predicts the following relationships between system features.

    Table of wind, pumped-storage & back-up factors
    The factors in the table are peak demand power multipliers. Each row triplet describes a possible system configuration for 24/7/52 reliable 100% renewable energy generation*

    __ Wind power __| _ Storage days __.|_ Back-up
    ______ 7 ______.|______ 1.5 ______|____ 0
    _____ 5.5 ______|______ 1.1 ______|____ 0.15
    ______ 4 ______.|______ 0.7 ______|____ 0.3
    _____ 2.7 ______|______ 0.6 ______|____ 0.4
    _____ 1.5 ______|______ 0.4 ______|____ 0.5

    * Assuming of course that the back-up generation is from renewable energy, such as biomass burning – not diesel, nor natural gas, nor coal nor any fossil fuel.

    Modelling of wind and pumped-storage power
    https://scottishscientist.wordpress.com/2015/04/03/scientific-computer-modelling-of-wind-pumped-storage-hydro/

    Scottish Scientist
    Independent Scientific Adviser for Scotland
    https://scottishscientist.wordpress.com/

    * Double Tidal Lagoon Baseload Scheme
    * Off-Shore Electricity from Wind, Solar and Hydrogen Power
    * World’s biggest-ever pumped-storage hydro-scheme, for Scotland?
    * Modelling of wind and pumped-storage power
    * Scotland Electricity Generation – my plan for 2020
    * South America – GREAT for Renewable Energy

  • Ren Stimpy

    This is like a Test Cricket tour of England. How could we let ourselves get beaten by the Poms so easily when we have all the advantages?