A Rough Guide to Offshore Wind Energy and Geography [VIDEO]
It has become a cliche to call the seas around the UK the “Saudi Arabia of offshore wind.” The reasons for this are relatively straightforward. The ideal conditions for an offshore wind farm is a lot of wind and a not particularly deep stretch of water. The North Sea has both, so much so that more or less all of the planet’s offshore wind farms are located there. To demonstrate why the UK is rightly called the Saudia Arabia of offshore wind let’s first consider some simple geometry and then take a quick tour around the world and consider how the UK compares to other regions.
Roughly speaking offshore wind farms are currently restricted to regions where sea bed depth is no greater than 60 metres. And for obvious reasons you don’t want to build one too far from land. On a lot, though not all, of the planet coastal regions gradually get deeper until you get to the continental slope when the ocean gets deep quickly, which goes like this:
If we assumed for simplicity all coastlines on the planet are the same then the distance from shore at which offshore wind is viable will be the same. A simple consequence of this is that, all things being equal, the larger the land mass the lower the relative potential for offshore wind becomes. To show this consider two circular land masses, one much large than the other, with the blue region signifying the fixed distance from shore that offshore wind can be developed.
So, essentially a small island, e.g. the United Kingdom, should, all things being equal, have a significantly higher offshore wind resource than most other countries, which are almost all significantly larger, or have much smaller coastlines.
Of course all things are not equal. Two other factors are very important, average wind speed and sea bed depth. I will only consider sea bed depth, because it is this that gives the United Kingdom an added advantage.
At this point I should perhaps digress to explain how much sea would need to be covered in wind turbines to provide X% of a country’s electricity or energy supply. If you interested in subject this Ted Talk by David MacKay is a good primer. However the gist is this: the UK consumes about 1.25 watts of energy of per square metre, whereas wind farms produce about 2.5 watts per square metre. So, to get all of the UK’s energy needs from wind power you would need wind farms to cover roughly half the area of the UK.
Let’s begin with at the European scale and consider how the UK fares against the rest of Europe.
As I mentioned at the start, most offshore wind farms are restricted to regions where sea bed depths are less than about 60 metres. Below are the regions (coloured black) in the waters around Europe that are shallower than 60 metres.
So, a huge swathe of the North Sea is available, along with the English Channel and parts of the Baltic Sea. The Atlantic Coast does not have a great deal of potential at this depth, and the Mediterranean is even worse. The North part of the Adriatic has some potential. The UK and Denmark are clearly the most favourable regions, and Holland is not too bad either.
Let’s say we could develop in waters 500 metres deep, which is pretty unlikely any time soon, but is a good indication of the absolute limits of fixed foundation wind farms. What then?
This expands the range of offshore in the North of Europe greatly, but does very little to the potential in the south of Europe. Mostly it just confirms the advantage the UK and Denmark have over the rest of Europe in terms of their offshore wind resources.
The advantageous geography has already resulted in a proposal to build a wind farm, the Dogger Bank, in the middle of the North Sea. And at a distance from shore close to impossible in southern Europe:
Let’s shift to America. Here are the regions deeper than 60 metres.
What leaps out is how much more favourable the Atlantic Coast and the Gulf of Mexico are compared to the Pacific regions. As before, let’s consider regions where sea bed depths are greater than 500 metres.
This improves things a lot in the Atlantic regions, but the Pacific still has little relative potential. This map shows that onshore wind should continue to dominate the US wind industry for some time.
A quick comparison of US east coast waters shallower than 60 metres with the UK shows that the UK has significantly higher relative offshore wind than the US. (note however that energy use per square kilometre in the UK is about 3 times higher than in the US, so in a less rough guide to offshore wind you wind to adjust for that properly.) Essentially wind farms can be built further from the coast in the UK than almost the entire US eastern seaboard.
Moving to China, and its western neighbours. First consider Japan and Korea. The regions shallower than 60 metres are:
At this depth Japan has some, but limited offshore wind potential. Certainly not comparable with the North Sea. The western coast of Korea is reasonable. Quite clearly Japan’s potential seems to be much lower than the UK’s. (another digression: Japan has a higher energy use per square kilometre than the UK. It also has close to the highest level of forest coverage in the world, 68%. So, you can easily see that a nuclear-free Japan may have some problems going nuclear free. A subject I will cover in an upcoming post.)
Let’s push it up to 500 metres.
An improvement, but this indicates that offshore wind has some limits in Japan, and will probably need the development of floating turbines to give it a UK level of offshore wind potential.
China’s coast runs from Vietnam to Korea. Let’s have a look at that. The regions shallower than 60 metres are shown below.
Sea bed depth then appears to be quite favourable for offshore wind in China. It’s also worth noting that the regions near the major population centres, such as Beijing and Shanghai appear to be even better than the rest of the Chinese coast. However, given the size of China, and its relatively small coastline it is clear its relative offshore wind potential is likely smaller than the UK’s.
For brevity I will skip the other major regions of the world, as I fear that while they back up the point that the UK has a much better offshore wind resource than most of the planet, the reader is likely to be getting slightly bored by the repetition.
A more detailed view of the UK’s offshore potential can be found in the Crown Estate’s Offshore Valuation.
Robert Wilson is a PhD Student in Mathematical Ecology at the University of Strathclyde.
His secondary interests are energy and the environment and writes on these issues at The Energy Collective.
Follow him on Twitter: @PrimedMover
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