G.B. National Grid Status
This is the total demand of the entire country (but not plus exports) less
generating sources like wind but including an estimate
The amber warning represents the demand level that cannot be reliably met by wood or fossil burning and nuclear generation, but must be augmented by imports, or unreliable intermittent 'renewable' energy.
Frequency: Grid frequency is controlled to be exactly 50Hz on average, but varies slightly. A lower frequency corresponds to a higher potential demand than actual generating capacity: by allowing the frequency and voltage to go lower, the demand is reduced slightly to keep the balance, and vice versa.
CCGT: Combined Cycle Gas Turbines are gas turbines whose hot exhausts are used to drive a boiler and steam turbine. This two stage process makes them very efficient in gas usage. They are also quite fast to get online - less than an hour in general, so they are used to cover (profitable) peak demand and to balance wind output.
Wind: This is the total contributed by metered wind farms. Wind power contributes about another 30% from embedded (or unmetered) wind turbines that shows only as a drop in demand. Wind like nuclear, will sell into any market price because turbines are expensive, wind is not and subsidies are always paid. The variability of wind leads to very high fluctuations in output.
Biomass: These power stations are either (parts of) old coal plants that have been converted to run on imported timber - e.g. Drax 2 - thus enabling them to qualify as 'renewable' and gain subsidies thereby, or purpose built biomass burners like Stevens Croft (40MW) built to use sawmill waste.
Nuclear: Currently the UK has seven AGR designs and one relatively modern PWR. Nuclear power stations are run flat-out to maximise income. Since the cost of fuel is almost insignificant, it pays them to sell at any price they can get. Variations in output are generally signs that refuelling or maintenance is ongoing.
French Interconnectors: These are a 2GW and a 1GW bi-directional link to France which are able to import up to 3GW of power from France - usually in summer when France has a nuclear power surplus - and export in winter, when the UK's excess of backup plant and coal power can be profitably sold to meet continental shortfalls.
French ICTs 2.49GW
BritNed Interconnector: This is a 1GW connector to Holland. Its usage seems to reflect a surplus or a deficit of NW europe wind energy.
Dutch ICT 1.06GW
Moyle interconector.: This is a 500MW (0.5GW) bi-directional link from Scotland to N Ireland. Normally used to import cheaper electricity to Ireland, but sometimes reverses when demand is high, as Ireland has a good installed base of gas turbine power stations.
Irish ICT -0.18GW
East-West Interconnector: This is a new 500MW (0.5GW) bi-directional link between Wales and the Irish Republic, enabling access to the UK (and continental) grid, and prices, for the Irish consumers. On 8 September 2016, the interconnector developed a fault. The interconnector re-entered service on the 20 December 2016 with a fully rated 500 MW import, however exports to the UK are still limited to roughly 280MW
E-W ICT 0.26GW
NEMO Interconnector: This is a new 1GW connector to Belgium. Its usage seems to reflect a surplus or a deficit of NW europe wind energy.
NEMO ICT 1.02GW
Pumped Storage: These are small hydro-electric stations that can use overnight electricity to recharge their reservoirs. Mainly used to meet very short term peak demands (the water soon runs out). They represent the nearest thing to 'storage' that is attached to the grid.
Hydroelectric power: The UK has no major hydroelectric power stations, but a collection of smaller ones, mainly in Scotland, that provide very useful power (if it's rained recently!). There would be a little more, but many stations deliberately reduce output to get the best renewable subsidy rates.
As no solar PV to date is metered centrally, we cannot show accurate real time figures on solar PV power.
Estimated power (data provided by
Sheffield University) is shown here. There is good evidence from the lack of decrease in recorded demand at midday to suppose this is somewhat overestimated, however.
Coal: Coal is no longer the largest contributor to the UK grid as gas prices are currently low, and legislation has forced closure of most plants. Drax also co-fires biomass with coal, which allows them to gain access to renewable subsidies. Coal plants are now restricted in running hours for emissions, so tend to run only in winter, when prices are higher.
OCGT: Open Cycle Gas Turbines, are gas turbines without steam plant to maximise their efficiency. They are cheap to build, but expensive to run, so are seldom used except in emergencies in winter, when very high market prices of electricity make them profitable.
Daily Demand (GW)
Weekly Demand (GW)
Monthly Demand (GW)
Yearly Demand (GW)
Daily Nuclear/Coal/CCGT/Wind (GW)
Weekly Nuclear/Coal/CCGT/Wind (GW)
Monthly Nuclear/Coal/CCGT/Wind (GW)
Yearly Nuclear/Coal/CCGT/Wind (GW)
Daily Hydro/Pumped/Bio/Solar (GW)
Weekly Hydro/Pumped/Bio/Solar (GW)
Monthly Hydro/Pumped/Bio/Solar (GW)
Yearly Hydro/Pumped/Bio/Solar (GW)
Daily French/Irish/Dutch/EW/BE ICT (GW)
Weekly French/Irish/Dutch/EW/BE ICT (GW)
Monthly French/Irish/Dutch/EW/BE ICT (GW)
Yearly French/Irish/Dutch/EW/BE ICT (GW)
All data is in GMT except this information, which is in local time for user convenience:
Data last recorded on
Monday the 8th. of March, 2021 at 18:30 GMT
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