Renewables contribution not increasing?

We reported yesterday that the amount of energy generated by wind and natural flow hydro (this category also includes solar PV) had recently fallen. Given the amount we hear about renewables in the UK I and several others were under the impression that renewable generation must be rapidly increasing. It seems however that for primary electricity production at least this just isn't the case.

(Source: DTI Energy Trends 1.1)

0.5 million tonnes of oil equivalent isn't a lot of energy in the grand scheme of things, it's 5,815GWh.

According to the British Wind Energy Association the UK has a total installed wind generation capacity of 1338MW and according to the International Small-Hydro Atlas the hydro (excluding pumped storage) capacity is 1349MW, a remarkably similar figure.

Generating 5,815GWh in a year from this 2687MW capacity would require an average availability factor of 25% which seems plausible.

Why was quarter 4 of 2005 10.4% lower than quarter 4 of 2004? Looking at the data on a quarterly basis shows that this drop wasn't unusual.

(Source: DTI Energy Trends 1.1)

Curiously the quarterly data states that quarter 4 of 2005 produced 0.11Mtoe (33.8% less than 2004) yet the Oct/Nov/Dec 2005 monthly data states 0.15 Mtoe (the 10.4% drop). Maybe the inconsistencies are due to this latest data being provisional but these points can be made:

  • There are large annual and quarterly variations
  • Q1 and Q4 generate two thirds more energy than Q2 and Q3
  • Total contribution hasn't increased over the last seven years

One serious question remains unanswered though - why hasn't the primary electricity contribution from wind, hydro and solar PV increased at all over the last seven years?

I belive the answer lies in how hydro and wind are lumped together in the total energy statistics. Considering wind alone, the electrical output has shown 19% year on year growth between 1996 and 2004. This quadroupling was from a very low installed base and is lost in the noise when added to hydro. If and it's a pretty big if, this growth rate can continue wind could overtake hydro by 2009 and by 2020 be generating 30TWh per year, 8% of today's electricity production.

Congradulations on spreading the TOD word to the UK.

Is demand for electricity still on an upward slope in the UK?  With such small numbers are we even filling incremental demand with renewables?

If you look at renewable growth (or lack therof) and the comming shortage from closing nuclear and falling gas production.  You almost have to recommend building more nuclear along with wind and anything else you can come up with in the short time available.

Yes, the demand is as ever on the increase.
No, the Renewables are (not yet) bridging the gap
We had a reasonably mild winter this year.
Next year, we may not be so lucky.
Our proble (one of our many problems) is that our
existing Nuke load is due for decommissioning in
the next decade, our Coal Fired load will be hit
hard by Emissions Regulations. In the 80's and
90's we made the 'dash for gas' to replace Coal
Fired Generation. Seemed like a good idea at the t
time...

The first, easy and immediate thing we could do is
a massive education program for conservation.
Probably more than 20% of base load is simply
wasted. It would need to start in Schools.
It would need to start now. In its self, it will
make a modest contribution, but it is an intrisically good thing to do and a start in the right direction.

The first problem will be getting 65.5 million
people to understand the second law of thermodynamics

Over 60's know all about conservation. Even some over
over 40's!

George Monbiot came to much the same conclusion  He is certainly no fan of nuclear power but in doing some very  rough sums he came to the conclusion that even with a 40% reduction in demand by increased efficiency and all the wind wave tide and biomass renewables we could install in the UK they will still be able to supply less than half the electrical generating power we need by 2050. This leaves the only non-environmentally destructive stopgaps of fossil fuels with carbon sequestration and nuclear fission .

As a broad brush estimate I think I agree with him but there are some points I would question. His assumption that we will solve the mass storage problem economically with 50% round trip efficiency by 2030 seems very optimistic to me.

His suggestion of generating hydrogen to burn in turbines does not seem that hopeful. Hydrogen generation by electrolysis or thermally such as by the sulphur-iodine process struggles to make 80% efficiency when all the ancillary  processes such as AC/DC conversion, pumping, compressing and cooling are taken into account. Even combined cycle gas/steam turbines struggle to make 45% efficiency overall of chemical energy to electricity on the grid. This gives 35% round trip efficiency.

 Batteries, that he also suggests, are even less promising. Lead acid batteries are not the best we can do but they are used for smoothing out small solar systems and can give some idea of the huge advances that would need to be made to use batteries on national grid level. A 12V 38Ahr lead acid battery costs about £100. It can store 0.4kWhr. At a wholesale price for electricity of about £0.05/kWhr that is  £0.02 worth of electricity. At a discharge depth of 50% you will be lucky to get 800 charge discharge cycles before the battery is almost dead. That means that during its service life it will store 160kWhr. That is £8 of electricity stored before having to replace it with another £100 battery. To smooth out the daily weekly and annual peaks and troughs of 25GW system dominated by wind, wave and solar generation will need storage at a wild guess of 2000GWhr. (11% below mean for a month) That is equivalent to 5 billion of our £100 car batteries that would need replacing every few years.

I know that a real system would use better batteries such as lithium ion and there would be economies of scale but to rely on technology delivering orders of magnitude improvements is to fall into the same Pollyanna optimism that we accuse opponents of peak oil theory of having.

Other schemes are also doubtful. We do not have the space in this country to  provide pumped storage schemes of sufficient size.  A 1000 square kilometre lake  20 metres deep 300 metres above the lower water source at 90% efficiency will store 15GWhr of energy.  Would anyone like to suggest 130 locations in the UK where we could build such schemes to store our 2000GWhr?

Compressed air does not have a very good round trip efficiency and we do not have all that many air tight underground structures such as salt domes to store the compressed air.

On the other hand I think George Monbiot dismisses Solar energy to easily. Its intermittency is worse than wind but not that much. If you can solve the storage problem you solve it for solar as well as wind. Concentrator systems using multi-junction cells have achieved 39% conversion efficiency at over 200 concentration factors with tiny 2 to 3 mm cells spread out so that you only have to cover a fraction of a percent of the sunlit area with each cell behind a cheap plastic lens. They do have to have a tracking system but that is not impossible. On such system installed in Spain recovered the energy of construction in 6 to 8 months. I think Solar has a greater potential for several fold cost reductions than does wind.

The bottom line of all this is that we should economise our energy use as far as we can, should massively increase our installation of renewable energy system but should expect to hit a law of diminishing returns when we get to several tens of percent of the total load and we will have to rely on non-renewable energy for a substantial part of our electricity.

If we can hold out for 60 years or so nuclear fusion may come to the rescue.

Your figures are also optimistic.

Electrolysis alone is about ~70-75% efficient. If you take the least capital-intensive process of burning it back in gas fired stations and include other conversion costs, the total efficiency will be in the low 20%-s.

The batterries are out of question of course. Even if you go to lithium batteries a quick out of pocket estimation will show that the whole world production will not be enough to build them.

In general I hope there are cool heads there that will give a green light to those nukes you need. Otherwise all I can wish you is not that painful freezing.