Hi there,

I'm finishing off my final year dissertation titled "Energy Storage for 100% renewable electricy in Scotland". I have compared all technologies and Pumped Hydro seems to be the most suitable. If all Hydro stations in Scotland where converted to pumped hydro there would be a capacity of 530GW. Scotland consumes 140TW per year there for we would have around 1 1/2 days worth of storage if there was no energy generation. What I'm trying to work out is how much extra storage would we need to become self sufficient for renewable electricity. I'm guessing I would need to find out what would be the worst case scenario would be i.e how much energy would need to stored to cover days of low renewable generation. I can't find any research on this Issue. If anyone could help me work this out or point me in the right direction that would be great.

Thanks
Connor

<blockquote><cite>Posted By: Ed Davies</cite>I think you mean 530 GWh storage and 140 TWh consumption per year but that's only a guess.</blockquote>

Yeah your right! oops!

http://www.greenbuildingforum.co.uk/newforum/comments.php?DiscussionID=13999&page=1#Item_1

Read the paper that djh has linked to in the above thread and it will at least back up your conclusion that stored hydro is the best storage option.

I saw something the other day about another attempt to get the idea of a single electricty grid in the USA accepted, as a precursor to building a wide-area renewables grid with sufficient scale to be practicable. Specifically, you need a long north-south connection between wind systems if you want to be able to rely on them for continuous power, because the weather systems travel west-east. A planet-sized grid could actually get useful quantities of solar power in the winter. It all makes the idea of orbiting solar power stations with microwave downlinks sound feasible.

Yes, the US proposal is for a HVDC grid. As you say, there are limits to the sizes of synchronised AC grids.

Posted By: billtIt's just hopelessly unrealistic. There just aren't enough suitable sites in the UK to store the enormous amounts of energy needed.

The OP has already worked out the amount of hydro storage available in Scotland. He now wants to work out how much extra storage (non-hydro, presumably) would be needed. How do you know what sites would be suitable for that? What are the site-specific requirements of lithium ion batteries, do you think? Roughly horizontal, solid and dry would seem to be most of the requirement to me.

Posted By: ringiYet the UK still don't have enough links from Scotland to the source so that all the wind power can be used!

A good reason to study storage in Scotland.

This looks relevant but I haven't read it all..

http://www.gov.scot/resource/doc/328702/0106252.pdf

They seem to be saying that the driving force for storage is not just the intermittent nature of generation but to reduce the frequency and costs of constraining excess generation...

Selected Quotes..

"Scenario 2: Reflects more recent views on growth rates for renewable energy, with greater growth in the offshore section."

"Under Scenario 2, which has higher volumes of intermittent generation, demand would be exceeded by supply for 28% of the year in 2030. Even with all thermal generation constrained generation would exceed demand for 15% of the year."

"Under Scenario 2 it was found that there is a significant storage requirement needed in 2030. Considering the case of Scenario 2 Figure 6.5 showed that in order to reduce the amount of time constraints are required upon generation to 10% then approximately 7,000 MW of storage is required. To put this figure into context the current size of pumped storage schemes in Scotland and those planned is around 400MW. Installing 7,000MW of storage would be a massive engineering undertaking and would equate to over seventeen 400MW plants."

"In summary bulk storage technologies cannot provide the full level of storage required under Scenario 2 for 2030."

"The modelling work found that with high growth of intermittent renewables as described under Scenario 2 energy storage will be required from 2020 onwards. By 2030 under this Scenario there is a maximum power flow of 13 GW with an excess of approximately 5 GW even following upgrades to the interconnectors between Scotland and England."

End quotes

I think all this is saying that they definitely will have to constrain output much more than 10%.

I read that there are plans to put 23 airbags into each car to meet new rules. Perhaps they could all be plugged in to the grid and used to store energy? Even ICE-powered cars could contribute to our sustainable future.

pumped storage, need storage at the bottom as well as the top. Most hydro don't have the option of creating storage at the bottom.

a) Is the water in Lock Ness OK to put in the top lake?
b) The distance the discharge is above Lock Ness will be lost power on each storage cycle.

There was a "design" a long time ago to use wind driven pumps to refill the top storage, these wind pumps being wind turbines connected to pump without any grid connections. Hence reducing costs and allowing the hydro to run for more hours each day before it runs out of water.

Posted By: billtIt's just hopelessly unrealistic. There just aren't enough suitable sites in the UK to store the enormous amounts of energy needed.

Where are you going to store all the water for these hydro conversions? Build a wall around Scotland maybe.

Problem was solved over a century ago with high pressure hydraulic accumulators just a shame the systems where abandoned in the seventies and eighties. Maybe they will return like trams which where also written off as backwards technology with lines ripped up.

Posted By: renewablejohnProblem was solved over a century ago with high pressure hydraulic accumulators

Are they cost effective at the scale required? 140 TWh times however many weeks you think the wind might fail.

Posted By: djh

Posted By: renewablejohnProblem was solved over a century ago with high pressure hydraulic accumulators

Are they cost effective at the scale required? 140 TWh times however many weeks you think the wind might fail.

Exceedingly cost effective as the accumulator can be recharged from any surplus renewable energy source wind, solar, hydro, tidal etc. Your not actually transferring volume of water your actually transferring energy in the form of pressure and recovering that energy by pressure reduction technology. Already being used extensively in the gas industry but more efficient if used with liquids.

<blockquote><cite>Posted By: Ed Davies</cite><blockquote><cite>Posted By: renewablejohn</cite>System used water just the same as pumped hydro schemes but at far higher pressures than normal hydro at between 50 and 70 bar.</blockquote>Right, but pumped hydro doesn't lose energy by compressing, and therefore heating, the atmosphere.

(It does, of course, lose a tiny amount of energy displacing air between the volumes above the two reservoirs but that's just a tiny bit of its general inefficiency.)

140 TWh/year comes to about 20 PJ/fortnight (peta (10¹⁵) joules).

Decompressing 1 m³ of water from 70 bar (7 MPa (megapascals)) yields 7 MJ. So to store a fortnight of Scotland's energy use you'd need 20e15/7e6 = 2.8 Gm³ or a cube about 1.4 km on a side. That's ignoring the fact that you'd lose pressure as the water flows out. Still, huge but not completely impossible particularly if you decide you don't really need a fortnight's worth.</blockquote>

1.4 km is nothing compared to the miles of hydraulic systems that used to be in existence.

https://en.wikipedia.org/wiki/Hydraulic_power_network

I think Antwerp and Geneva are examples of what could be achieved with Geneva being particularly forward thinking using hydro power to store energy for further use with the safety valve becoming the tourist attraction which Geneva is famous for.

What I find fascinating about the Geneva plant is the head height is only 2-4 mtrs well below the range many consider economic.

Posted By: Ed DaviesA cube 1.4 km on a side is considerably bigger than quite a few hundreds of miles of hydraulic pipe.

From what I understand, though, those hydraulic systems had very little actual storage of energy - minutes of operation or so. Fascinating about the Geneva fountain but an indication of the lack of storage as the evening shutdown caused such a spurt.

Assuming a pipeline cross section area of 1mtr length would be 68 times round the world. Does not seem very far to me. As for storage capacity its generally around 60% of energy input can be extracted and time is not a factor as you can dictate the speed of energy decline by speed of energy extraction.