Indeed! That's including available wind generation that was curtailed (not used) due to transmission constraints. So it's the actual output plus the amount of output that was "lost" because we had to switch off some wind farms, even though the wind was there to generate more.
Apparently they've announced some plan to sell this power cheaply to local people on the same side of the bottleneck, though I've not seen the details yet.
Seems to be another one of those sensible ideas that needs a global crisis to be pushed through to reality.
Yup! Looks like it'll be some form of regional demand flexibility, similar to what suppliers like Octopus Energy (disclaimer: my employer) and others have experimented with over the past few years.
(edit: I see you answered a sibling comment with the same question. TL;DR: Potential output is the output pretending that curtailment did not apply. Thanks!)
A UI or terminology question: when 'Potential output' says it is 'Including curtailment', does this mean that it pretends that curtailment doesn't apply, or that it subtracts the curtailed power from the total available so that the total power shown is only the power actually transmitted (exported) to the grid? It's very likely that I'm just not familiar enough with the terms, but this wasn't immediately clear. My guess is the former meaning, although I can imagine it meaning either.
Regardless, this is incredibly neat, and I'd love to see this kind of data for the grid that serves me (Eastern Interconnect in the US) -- are you aware of any sites similar?
> Regardless, this is incredibly neat, and I'd love to see this kind of data for the grid that serves me (Eastern Interconnect in the US) -- are you aware of any sites similar?
(for most US grids, ElectricityMaps consumes somewhat delayed EIA Balancing Agency generation mix data from https://www.eia.gov/electricity/gridmonitor/dashboard/electr... ; their data is mostly live for system operators that provide live data on their own website, CAISO in California and ERCOT in Texas, for example)
Love your stuff Robin. The graphs and wind turbine model are particular favourites
How can we fix the curtailment problem? Storage nearer the turbines or just more transmission capacity generally? I presume we'd saturate storage pretty quickly so is it just a case of running more grid wiring from Scotland to say.. Manchester?
Thanks! The ultimate fix is to finish upgrading the aging grid. There are other things that can improve the situation however, such as building wind farms away from these constraints, storage (but these can sometimes exacerbate constraints), demand flexibility (eg. place demand above constraints), zonal/regional pricing, and probably more I can't remember off the top of my head.
In Ireland, we’re running at about 75% renewables for the day, with most of that being wind. The absolute numbers are smaller, but that’s a peak of about 500 MW of solar and 3.6GW of wind, against something like 5-6Gw of demand.
Not to steal from Robin's excellent work, you can see how much it's been (low carbon/renewables generation) over the last twelve months at https://app.electricitymaps.com/map/zone/GB/12mo/monthly (~56% renewables, ~73% low carbon)
(Robin, if there is a way to see this on your site, I could not find it, my apologies!)
What are the lines that cross Scotland ? At time of writing they are red where as other lines further south are green.
I know of some on shore wind up near the Rochdale area too. Does it mean they are offline if they just appear as black dots on the map?
Seems to be another one of those sensible ideas that needs a global crisis to be pushed through to reality.
https://www.gov.uk/government/news/government-to-make-plug-i...
A UI or terminology question: when 'Potential output' says it is 'Including curtailment', does this mean that it pretends that curtailment doesn't apply, or that it subtracts the curtailed power from the total available so that the total power shown is only the power actually transmitted (exported) to the grid? It's very likely that I'm just not familiar enough with the terms, but this wasn't immediately clear. My guess is the former meaning, although I can imagine it meaning either.
Regardless, this is incredibly neat, and I'd love to see this kind of data for the grid that serves me (Eastern Interconnect in the US) -- are you aware of any sites similar?
https://app.electricitymaps.com/
(for most US grids, ElectricityMaps consumes somewhat delayed EIA Balancing Agency generation mix data from https://www.eia.gov/electricity/gridmonitor/dashboard/electr... ; their data is mostly live for system operators that provide live data on their own website, CAISO in California and ERCOT in Texas, for example)
How can we fix the curtailment problem? Storage nearer the turbines or just more transmission capacity generally? I presume we'd saturate storage pretty quickly so is it just a case of running more grid wiring from Scotland to say.. Manchester?
The demand flexibility aspect is already being explored: https://www.gov.uk/government/news/government-to-make-plug-i...
(Robin, if there is a way to see this on your site, I could not find it, my apologies!)
https://apnews.com/article/trump-offshore-wind-energy-climat...