An absorbing story

Experimental carbon capture panel

For the last few years we've put climate change on a back burner because of the financial crisis. But it is not going to go away. The Green Party wants us all to abandon the use of oil and gas to move to low carbon sources of energy generation like wind and solar (they conveniently forget that nuclear is low carbon). However, like most of the Green Party's manifesto, this is a desire based more on hope than an understanding of human beings.

Frankly, a much better way of getting people to do the right thing than forcing the hair shirt option on them is to make it easy. So, for instance, I would leap at having an electric car as a runaround if you could buy a Leaf or a Zoe for the price of an Aygo. But charge three times as much and I'm not going to be in the queue.

When it comes to power generation from oil and gas (and even, dare we mention it, coal), the Cinderella technology is carbon capture and storage (CCS). The developers of CCS recognise that we are not going to ignore out fossil fuel reserves, but that it should be possible to use them while at the same time taking carbon dioxide out of the atmosphere, so the net contribution is zero or even negative. At one time the British government was quite enthusiastic about CCS... but then withdrew most of the funding.

There are a number of mechanisms for storing carbon dioxide away when it has been captured, but we don't have very efficient means of doing the capture in the first place. So I was interested to see this piece in Physics World on a synthetic material for capturing CO₂ from the atmosphere. Remarkably, this stuff is 1,000 times more efficient than trees at sucking in the carbon dioxide. And let's face it, trees are very slow absorbers (which is one of the problems with using trees in carbon offsetting programmes).

The substance used is a resin that collect between 10 and 50 per cent of the CO₂ passing over a collection panel made from it. Of course this doesn't just remove the CO₂ from a power station exhaust - but it doesn't matter. Carbon dioxide is carbon dioxide. As long as you can hoover it up fast enough, you can balance out the output.

Apparently you would need about 100 million large collectors to totally counter the world's carbon emissions - but that's a huge step forward, and even reducing emissions by a small percentage would help.

The biggest problem with this approach is dumping the CO₂ once it is captured. The collectors would become saturated in about an hour, needing replacing in some kind of conveyor system that takes them to deposit their load, when they can be reused. The CO₂ naturally emerges from the resin in a humid atmosphere (so the CCS devices would have to be sited in dry locations) - it could then be taken away in a number of ways.

The concept isn't perfect. Although releasing in a damp atmosphere is easy to do, it also limits their value in, say, the UK. And there would be no point using such an approach unless the energy used in swapping out the panels and dumping and storing the CO₂ was a lot less than the energy produced in emitting the carbon dioxide in the first place.

Even so, there can be little doubt that this is a step in the right direction.

This has been a green heretic production.

Why I hate opera

If I'm honest, the title of this post is an exaggeration to make a point. I don't really hate opera. There are a couple of operas - notably Monteverdi's Incoranazione di Poppea and Purcell's Dido & Aeneas - that I quite like. But what I do find truly sickening is the reverence with which opera is treated, as if it were some particularly great art form. Nowhere was this more obvious than in ITV's recent gut-wrenchingly awful series Pop Star to Opera Star , where the likes of Alan Tichmarsh treated the real opera singers as if they were fragile pieces on Antiques Roadshow, and the music as if it were a gift of the gods. In my opinion - and I know not everyone agrees - opera is: Mediocre music Melodramatic plots Amateurishly hammy acting A forced and unpleasant singing style Ridiculously over-supported by public funds I won't even bother to go into any detail on the plots and the acting - this is just self-evident. But the other aspects need some ex

Is 5x3 the same as 3x5?

The Internet has gone mildly bonkers over a child in America who was marked down in a test because when asked to work out 5x3 by repeated addition he/she used 5+5+5 instead of 3+3+3+3+3. Those who support the teacher say that 5x3 means 'five lots of 3' where the complainants say that 'times' is commutative (reversible) so the distinction is meaningless as 5x3 and 3x5 are indistinguishable. It's certainly true that not all mathematical operations are commutative. I think we are all comfortable that 5-3 is not the same as 3-5. However. This not true of multiplication (of numbers). And so if there is to be any distinction, it has to be in the use of English to interpret the 'x' sign. Unfortunately, even here there is no logical way of coming up with a definitive answer. I suspect most primary school teachers would expands 'times' as 'lots of' as mentioned above. So we get 5 x 3 as '5 lots of 3'. Unfortunately that only wor

Which idiot came up with percentage-based gradient signs

Rant warning: the contents of this post could sound like something produced by UKIP. I wish to make it clear that I do not in any way support or endorse that political party. In fact it gives me the creeps. Once upon a time, the signs for a steep hill on British roads displayed the gradient in a simple, easy-to-understand form. If the hill went up, say, one yard for every three yards forward it said '1 in 3'. Then some bureaucrat came along and decided that it would be a good idea to state the slope as a percentage. So now the sign for (say) a 1 in 10 slope says 10% (I think). That 'I think' is because the percentage-based slope is so unnatural. There are two ways we conventionally measure slopes. Either on X/Y coordiates (as in 1 in 4) or using degrees - say at a 15° angle. We don't measure them in percentages. It's easy to visualize a 1 in 3 slope, or a 30 degree angle. Much less obvious what a 33.333 recurring percent slope is. And what's a 100% slope

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