But the overall message? The world has 100 TIMES the PHES sites it needs - pick your best, safest, least controversial, highest (most economical) 1% and you're done. If your state doesn't have it - build lines to it. It's there. This is a geological fact.None of the PHES sites discussed in this study have been the subject of geological, hydrological, environmental, heritage and other studies, and it is not known whether any particular site would be suitable. The commercial feasibility of developing these sites is unknown. As with all major engineering projects, diligent attention to quality assurance would be required for safety and efficacy.
There has been no investigation of land tenure apart from exclusion of some environmental areas and urban areas, and no discussions with land owners and managers. Nothing in this list of potential site locations implies any rights for development of these locations. Accuracy of the sites depends on the accuracy of the source data. There may be sites that fall into protected areas or urban areas that are not identified by the source data. In coastal regions there may be a few lower reservoirs sitting on top of the ocean due to limited accuracy of the DEM data.
But that's the world.
Not the UK - the UK is fairly flat.
I'm not sure what percentage of this database's finds would be automatically ruled out - I imagine it would be quite high. (But national parks have already been mostly ruled out.)
STORAGE REQUIRED
For global pumped hydro ATLAS CLICK HEREAn approximate guide to storage requirements for 100% renewable electricity, based on analysis for Australia, is 1 Gigawatt (GW) of power per million people with 20 hours of storage, which amounts to 20 GWh per million people [2]. This is for a strongly - connected large - area grid (1 million km2) with good wind and solar resources in a high energy use country. Local analysis is required for an individual country. For example, Australia needs about 500 GWh (and has storage potential that is 300 times larger) and the USA needs about 7000 GWh (and has storage potential that is 200 times larger)
So I had a bit of a play with the Atlas database (above) and am by NO MEANS an expert!
I'm not even sure what the different colours mean - I think I remember that gold is optimal (good head height) and red more expensive (less head height.) There's some engineering rule that if you TRIPLE the head, you HALVE the cost. I'll just have to take that on faith from the experts, as I have a Social Sciences background. (Just being honest.) So we'll call the UK 68 Million people therefore 68 million * 20 GWh per million = 1360 GWh storage (or 1.36 TWh) required for the whole UK to have 20 hours storage per person.
I found 2250 GWh (2.25 TWh) just with the big 150 Gwh dam button selected.
There was 1 down south.
But the rest were all up north.
The next sample size was 50 GWH, which means we'd need about 28 - let's call it 30.
I found 60-ish such dams.
Here's North
Here's South
There were heaps more in the 15 GWH and 5 GWH categories but I ran out of links per post. Go play with the Atlas - it's fun.
But if there's a 90% fail rate on further investigation of these dams - then the UK would not have enough storage. The claim is not that each and every nation has 100 times more storage than it needs - although that's true most of the time. It's that each continent does! Each nation will have to decide what it is going to do within the geopolitics of its own unique situation. But that does not mean the potential PHES is not there. It is. Nations may just have to learn to 'get along'.
EG: Singapore doesn't have a hill above 15m - but it can import all the storage it wants from its neighbours.
