tag:blogger.com,1999:blog-253648822024-03-07T18:06:18.405+00:00It's the Planet, Stupid!We humans need to wake up and realise that we're plundering our home planet to destruction. What a legacy to leave our children!Bry Lynashttp://www.blogger.com/profile/18194561151559660701noreply@blogger.comBlogger42125tag:blogger.com,1999:blog-25364882.post-72259879110358019382016-05-09T06:37:00.000+01:002016-05-09T06:49:52.368+01:00Britsin, not Brexit: why Britain should stick with Europe<br />
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A brief inglorious history and scary future</h3>
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For much of recorded history since the Roman conquest, European countries have been fighting each other, culminating in the appalling carnage of World Wars 1 and 2 in which tens of millions died. Part of the reason for the foundation of what has now become the European Union was to try to ensure that this never happened again. Seventy years without a European war seems like a success story to me. Yes, the European Union needs reform and yes it has many faults, but I believe it is more likely survive with Britain as one of its major members. And it needs to survive because the prospect of disintegration is scary indeed — and that is looking like a possibility. If that happened, it is pie in the sky to imagine that this country , having chosen to leave the EU, could somehow sail unscathed into the future whilst Europe – just a few miles away across the Straits of Dover – was tearing itself apart again. </div>
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BritsIn</h3>
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What the staying-in campaign needs is a snappy slogan to counter the rather cool-sounding "Brexit". (To me, Brexit sounds like something rather unpleasant you would do in the toilet after breakfast! To someone undecided, it might just tip the balance towards an exit vote.) So how about "BritsIn" ... or maybe “BritStick”? The world needs a major stabilising power which leads on the environment and ethics and acts as a counterweight to Vladimir Putin's Russia, a powerful China (which gets it on climate change) and a United States ruled, in less than a year maybe, by a government which doesn't get that climate change is global. A reformed Europe with Britain as one of the big players seems to me the best option. So I'm for BritsIn!</div>
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<div class="blogger-post-footer">RSS Atom feed</div>Bry Lynashttp://www.blogger.com/profile/18194561151559660701noreply@blogger.com0tag:blogger.com,1999:blog-25364882.post-25592515869376761042014-04-20T22:22:00.000+01:002014-04-20T22:42:44.893+01:00Win win: Energy from (nuclear) waste<table cellpadding="0" cellspacing="0" class="tr-caption-container" style="float: right; margin-left: 1em; text-align: right;"><tbody>
<tr><td style="text-align: center;"><a href="https://upload.wikimedia.org/wikipedia/commons/thumb/9/91/MSRE_Diagram.png/220px-MSRE_Diagram.png" imageanchor="1" style="clear: right; margin-bottom: 1em; margin-left: auto; margin-right: auto;"><img border="0" src="https://upload.wikimedia.org/wikipedia/commons/thumb/9/91/MSRE_Diagram.png/220px-MSRE_Diagram.png" /></a></td></tr>
<tr><td class="tr-caption" style="text-align: center;">Molten-Salt Reactor Experiment, ORNL</td></tr>
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Did you know about the Waste Annihilating Molten Salt (WAMS) reactor idea?
I didn't, though it sounds similar in principle - passively safe - to the molten
salt thorium reactor which ran for 4 years at Oak Ridge National Laboratory. Why aren't <a href="http://www.newscientist.com/article/mg22229644.900-startups-fuel-boom-in-smallscale-nuclear-power.html#.U1Q0wVf4IyU" target="_blank">these means</a> of both generating massive amounts of power plus ridding the world of
highly active nuclear waste at the top of the energy agenda? </div>
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<div class="blogger-post-footer">RSS Atom feed</div>Bry Lynashttp://www.blogger.com/profile/18194561151559660701noreply@blogger.com0tag:blogger.com,1999:blog-25364882.post-84239499928607139332014-02-23T12:12:00.000+00:002014-02-23T12:12:21.942+00:00Shit, euphemisms and a bear of very little brainTo me, the word 'poo', now ubiquitous, is deeply insulting to its ursine homonym Pooh, aka Winnie the Pooh, that famous and actually rather smart bear created by A A Milne. I mention this because 'poo' has crept into serious science writing and science programmes put out by the likes of the BBC.<br />
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A letter in <i>New Scientist</i> (15 February 2014, p.34) prompted me to write this post, firstly because the use of the word 'poo' gets up my nose (when my children were young, we as a family, used the word shit) and secondly because of Stuart Tallack's aforementioned letter. Since it is not preserved in the magazine's online archive, I reproduce part of it here. Indeed, it could have been written by me:<br />
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<i>I am not 5 years old and so don't need the prissy and childish word "poo" to assault my eyes. Excreta, faeces or droppings are perfectly acceptable; dung is perhaps not, as it implies manure. Shit was originally used without any connotation of vulgarity and should re-enter respectable society. But please, not "poo". What next? Articles on genitalia using such euphemisms as "front bottom", "naughty bits" and "meat and two veg"?</i><br />
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Thank you, Stuart! It needed saying. Now I'm off for a shit... and maybe I'll read one of my favourite Pooh stories while I sit on the bog (throne, john etc.). Got that?<br />
<br /><div class="blogger-post-footer">RSS Atom feed</div>Bry Lynashttp://www.blogger.com/profile/18194561151559660701noreply@blogger.com0tag:blogger.com,1999:blog-25364882.post-91926931981507867562013-02-26T01:12:00.000+00:002013-02-26T01:18:07.776+00:00Waste not, want not: nuclear fuel recycling<table cellpadding="0" cellspacing="0" class="tr-caption-container" style="float: right; margin-left: 1em; text-align: right;"><tbody>
<tr><td style="text-align: center;"><a href="http://upload.wikimedia.org/wikipedia/commons/thumb/b/b3/ANLWFuelConditioningFacility.jpg/300px-ANLWFuelConditioningFacility.jpg" imageanchor="1" style="clear: right; margin-bottom: 1em; margin-left: auto; margin-right: auto;"><img border="0" height="153" src="http://upload.wikimedia.org/wikipedia/commons/thumb/b/b3/ANLWFuelConditioningFacility.jpg/300px-ANLWFuelConditioningFacility.jpg" width="200" /></a></td></tr>
<tr><td class="tr-caption" style="text-align: center;">Prototype for the Integral Fast Reactor</td></tr>
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"<a href="http://www.newscientist.com/article/mg21729040.100-nuclear-waste-too-hot-to-handle.html" target="_blank">Down in the dumps</a>" (New Scientist, 16/2/13, p 28) rather depressingly reveals that as far as radioactive nuclear waste is concerned, nothing has changed in decades and the repository route for dealing with nuclear waste may never be acceptable. One might say the thinking on waste disposal had <a href="http://en.wikipedia.org/wiki/Sellafield#The_vitrification_plant" target="_blank">vitrified</a>!<br />
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Yet there is a solution available: <a href="http://www.marklynas.org/2012/07/worlds-first-nuclear-waste-burning-prism-reactor-moves-a-step-closer-in-the-uk/" target="_blank">PRISM reactors</a>, based on the proven passively-safe <a href="http://blip.tv/integral-fast-reactor" target="_blank">Integral Fast Reactor</a>. These can 'burn' plutonium (the UK has 100 tonnes), actinides, and depleted uranium (UK has 35,000 tonnes). IFRs are highly efficient and versatile, burning almost all their fuel. By contrast, a <a href="http://en.wikipedia.org/wiki/Light_water_reactor" target="_blank">Light Water Reactor</a> (e.g. <a href="http://www.edfenergy.com/about-us/energy-generation/nuclear-generation/nuclear-power-stations/sizewell-b.shtml" target="_blank">Sizewell B</a>) uses 0.65 per cent of the energy in the original uranium ore resulting in the <a href="http://www.nrc.gov/waste.html" target="_blank">radioactive waste</a>, currently such a headache. The waste produced by IFRs is about 1/20th of that from an LWR. Its radioactivity within 200 years is about the same as mined uranium ore so no long-term repository is necessary. <br />
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David MacKay, chief scientist at the Department of Energy and Climate Change, says that there is enough energy in the UK's waste stockpile to power the country for more than <a href="http://www.guardian.co.uk/environment/2012/feb/02/nuclear-reactors-consume-radioactive-waste" target="_blank">500 years</a>. So why are we still obsessed with repositories? Why not use the 'waste' to make vast amounts of carbon-free electricity, simultaneously destroying almost all the 'nasties'? <div class="blogger-post-footer">RSS Atom feed</div>Bry Lynashttp://www.blogger.com/profile/18194561151559660701noreply@blogger.com0tag:blogger.com,1999:blog-25364882.post-52642317514260694772013-01-25T15:37:00.002+00:002013-01-28T18:56:15.099+00:00Organics versus GM: throwing the baby out with the bathwaterOrganics versus GM: sounds like some sort of war, doesn't it? And unfortunately, that's the way it's been portrayed in the media, particularly in Europe. As for me, I have undergone a slow conversion in my thinking over the last 15 years from strongly anti-GM to cautiously pro. Here, I want to explain why.<br />
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<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEizTZuOTES0jgATv7nGvogHcVzwQJPeql4klFAdmZdiUIo4Hk4_UuzIV6lvSjU_3MTV2MIvChqhuLqQwhpSNkA9nALTf07pFdHL2LFS4LTJLIbwCdQTE83HsA4D_Id1b_SnWiYPow/s1600/IMG_2785.JPG" imageanchor="1" style="clear: left; float: left; margin-bottom: 1em; margin-right: 1em;"><img border="0" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEizTZuOTES0jgATv7nGvogHcVzwQJPeql4klFAdmZdiUIo4Hk4_UuzIV6lvSjU_3MTV2MIvChqhuLqQwhpSNkA9nALTf07pFdHL2LFS4LTJLIbwCdQTE83HsA4D_Id1b_SnWiYPow/s1600/IMG_2785.JPG" height="150" title="Inside our polytunnel which made it possible to grow right through the year" width="200" /></a></div>
<span style="font-size: x-small;">I have been growing organic fruit and vegetables on and off in several different countries in the world all my life, albeit in a small way. For the last 12 years, my wife and I have been growing commercially for a small box scheme, certified by the <a href="http://www.soilassociation.org/gm" target="_blank">Soil Association</a> (one of the several UK organic licensing bodies). In the 1990s, I was heavily involved in the anti-GM movement, helping organise protests, demonstrations, writing to the press and the supermarkets. I even went on the radio once and had a rant about Monsanto and the big corporations. I also started a website for kids which began with an illustrated <a href="http://tiki.oneworld.net/genetics/home.html" target="_blank" title="Whose genes? Who owns life?">guide to genetic engineering</a>. (It's still there now – joined by another seven guides to issues which will be of great importance to the kids who are going to inherit our rather damaged world).</span><br />
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<span style="font-size: x-small;">But as the years have passed and as it has become abundantly clear that people are not dying in droves because of GM, I've changed my mind. The famous economist John Maynard Keynes is alleged to have said to a critic who accused him of a U-turn, "When the facts change, I change my mind. What do you do, sir?" I am a scientist by training and so I constantly question and revise my views according to the evidence available. Sadly, the organic movement and other mainstream 'green' organisations remain as intransigent as ever in their views on genetic engineering: they seem to be stuck in a time warp 30 years out of date. Perhaps they, like politicians, don't wish to be seen performing a U-turn despite good reasons for doing so.</span><br />
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<span style="font-size: x-small;">Basically, I don't understand why certain types of GM crops can't be approved for use with organic systems. It's hard enough growing organically as it is without constantly shooting yourself in the foot by refusing to move with the times. Let's just take one example. Last year, potato blight struck early in the soggy, damp non-summer. The result was that my potato crop was about a quarter of what it normally is. Yet there is a blight resistant GM potato which has been developed in the public domain. If only I could have used that! But I can't because it's against the organic regulations and even if I wasn't organic, I still wouldn't be able to use it because of all the 'green' protests which have made sure that it never sees the light of day; not for organic growers nor for any conventional growers.</span><br />
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<span style="font-size: x-small;">What's so terrible about this potato? Is it Frankenfood? No, it's just an ordinary potato with one gene inserted from a wild potato which happens to show resistance to the dreaded <i>Phytophthera infestans</i>, the fungal late blight which caused the Irish potato famine in the 1840s when over a million people died of starvation. Alarmingly the fungus has begun to reproduce sexually over recent years which makes it much more virulent. It had previously reproduced itself asexually and was relatively easily controlled by spraying fungicides or growing somewhat resistant potato varieties.</span><br />
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<span style="font-size: x-small;">So why not embrace this GM potato? The introduced gene comes from the same genus - <i>Solanum - </i>and so is not even transgenic. Why is this potato 'bad' whereas the blight resistant Sárpo potato, bred over many years by conventional means, is good? (I was growing a Sárpo variety and it succumbed to the blight like the others.) Of course, blight resistant GM potatoes, like the Sárpo varieties, will sooner or later be overcome by <i>P. infestans</i>. It's an arms race and this is where GM potatoes can leap ahead because it only takes a year or two to splice blight resistance into the genome and grow the resulting plant. It took the Sarvari family, who developed the Sárpo potatoes, some 40 years of careful selection of resistance traits to produce truly blight resistant varieties. As <a href="http://indica.ucdavis.edu/news/in-press-tomorrows-table" target="_blank">Pamela Ronald</a>, Professor of Plant Pathology and Chair of the Plant Genomics Program at the University of California, Davis says: "To meet the appetites of the world's population without drastically hurting the environment requires a visionary new approach: combining genetic engineering and organic farming". She and her husband co-authored 'Tomorrow's Table' which, argues <a href="http://en.wikipedia.org/wiki/Stewart_Brand" target="_blank">Stewart Brand</a>, makes "a persuasive case that, far from contradictory, the merging of genetic engineering and organic farming offers our best shot at truly sustainable agriculture".</span>
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<span style="font-size: x-small;">I agree. It seems to me that organic farming regulations are throwing the baby out with the bathwater. Of course there's 'bad' GM where the profit motive comes before anything else. That was the origin of RoundupReady soybeans, a first generation GM seed which locked farmers into buying Monsanto's brand of glyphosate herbicide. But there's plenty of publicly-funded GM research which is not-for-profit and genuinely attempting to help all farmers grow food crops which don't require multiple applications of 'chemicals' (conventionally-grown potatoes may need 15 applications of fungicide per year). It is an indication of the success of the 'green' anti-GM movement that nothing GM can be grown in Europe. </span><br />
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<span style="font-size: x-small;">I think organic regulations should include carefully-chosen GM varieties, each selected on its merits, properly trialled (and not trashed) and tested. That way, organic growers could lead the way forward to a more sustainable agricultural system which can dispense with many 'chemicals' and give good yields under difficult conditions such as those we experience in 'summer' 2012. </span><br />
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<span style="font-size: x-small;">Then there's modifying C3 plants like <a href="http://www.youtube.com/watch?v=IDUqoZdiw4Y&feature=rec-r2" target="_blank">rice</a> to adopt the more efficient C4 photosynthesis. Why is that not acceptable? It will produce far more rice on the same amount of land. And sooner of later, GM is going to make it possible for non-leguminous major crop plants to form nitrogen-fixing symbioses with <i>Rhizobia </i> bacteria. This would make a huge impact on staple crops such as the grass family (wheat, maize, rice) which provide more than half of all calories eaten by humans. It would counteract the synthetic nitrogen overload which is seriously affecting one of the nine <a href="http://www.stockholmresilience.org/planetary-boundaries" target="_blank">planetary boundaries</a>. Would the anti-GM protesters still trash any trials? Shouldn't organic regulations embrace such development? Properly regulated and monitored, genetic engineering is an incredibly useful tool which could and should be available for all growers. Why not use it?</span><div class="blogger-post-footer">RSS Atom feed</div>Bry Lynashttp://www.blogger.com/profile/18194561151559660701noreply@blogger.com5tag:blogger.com,1999:blog-25364882.post-2396932535363697122011-03-15T17:23:00.005+00:002011-03-15T18:47:54.407+00:00After Fukushima: a way forward for nuclear power?<div style="color: blue;"><i>The post-tsunami disaster at the Fukushima Daiichi nuclear complex in Japan raises critical questions: Can nuclear power ever be completely safe? Should the world - which had been in the process of gearing up to build many more nuclear plants - now abandon them totally? What's the alternative as we strive to reduce consumption of fossil fuels?</i></div><br />
<b>Double damage: </b>This is a double disaster, firstly to Japan and its people (the horrifying drama is still unfolding as I write), and secondly to plans to increase nuclear electricity generation worldwide. Nuclear power is essentially carbon-free and without it, there would be a huge increase in coal-powered generation. Coal is the most polluting of fossil fuels: 1 ton of coal burned produces around 2.8 tons of CO2.<br />
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<b>Lessons learned the hard way:</b> What lessons can we learn from Fukushima and earlier nuclear disasters like Chernobyl?<br />
<ol><li>never build reactors near earthquake-prone plate boundaries</li>
<li> never build them in coastal districts known to be vulnerable to tsunamis or rising sealevels</li>
<li>build them with robust containment which can withstand hydrogen explosions, wartime enemy action, aircraft crashes</li>
<li>don't use nuclear fuels which create dangerous and long-lived radioactive waste </li>
</ol><b>And the solution? </b>Nuclear power is going to be needed in a big way to help us kick some of the fossil fuel habit whilst supporting our energy needs. Which is the lesser evil? Global 'meltdown' due to even more rapid climate change, exacerbated if more coal is burned because nuclear power is abandoned? Or nuclear power? <br />
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But supposing there was a way to have our nuclear cake and to eat it. A way which is truly safe and within our grasp right now. There are two fundamental changes which the nuclear industry can adopt to make future nuclear power safe and acceptable. One is a change of fuel and the other a change of containment: <br />
<ol><li>stop using uranium/<a class="aptureEnhance" href="http://en.wikipedia.org/wiki/MOX_fuel">MOX</a> fuels and replace with <a class="aptureEnhance" href="http://www.ensec.org/index.php?option=com_content&view=article&id=187:thorium-as-a-secure-nuclear-fuel-alternative&catid=94:0409content&Itemid=342">thorium</a>: no meltdowns, no bomb-making potential, no enrichment needed, radioactive waste short lived. Thorium reactors were abandoned early on by the nuclear industry during the Cold War because they could not be used for making nuclear weapons (which need enriched U-235 and plutonium)</li>
<li>the containment problem, illustrated horrifically by the Fukushima reactors, can be solved by building <a href="http://climateextremist.blogspot.com/2007/04/nuclear-power-build-plants-underground.html">all future reactors deep underground</a>. Each reactor should have a large water store above it for passive emergency cooling, employing gravity and not pumps (which failed at Fukushima). The undergound installation, at the end of its design life, can be decommissioned by sealing it complete with its complement of spent thorium fuel whose radioactivity declines in tens of years rather than thousands.</li>
</ol> We all need energy, and much of what we use is electricity. Small but populous nations like Japan and the northern European countries cannot afford to take the risk, no matter how small, of future Fukushimas or Chernobyls. Adopting the two proposals may be more expensive but consider the enormous cost Japan will have to bear to clean up the mess and build replacement energy-generating capacity. And then there are decommissioning costs...<br />
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Suddenly, <a href="http://web.me.com/stewartbrand/DISCIPLINE_footnotes/4_-_New_Nukes_files/WoodReactor.jpg" target="_blank" title="Design for TerraPower’s underground thorium reactor, from Stewart Brand's reference pages">thorium-fuelled reactors underground</a> look like a <a href="http://web.me.com/stewartbrand/DISCIPLINE_footnotes/4_-_New_Nukes.html">technology</a> which, unlike fusion power, is ready and waiting in the wings. Its time has come. How can we make it happen?<br />
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For more on thorium reactors, see <a href="http://energyfromthorium.com/2008/12/04/greener-than-a-thousand-suns/">Greener Than A Thousand Suns</a> and <a href="http://www.americanscientist.org/issues/feature/2010/4/liquid-fluoride-thorium-reactors">Liquid Fluoride Thorium Reactors.</a><br />
<ol></ol><div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com3tag:blogger.com,1999:blog-25364882.post-67220723911963164812009-12-21T17:43:00.001+00:002009-12-21T17:44:57.964+00:00Copenhagen: a brief requiemCopenhagen...<br />
Hopenhagen?<br />
Nopenhagen!<br />
Nohope-enhagen :-(<br />
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Business as usual.<br />
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(<a href="http://climateextremist.blogspot.com/2006/04/trapped-its-planet-stupid.html">But it's still the planet, stupid</a>).<br />
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To cheer yourself up, listen to The Now Show's interpretation of what went wrong. Happy Solstice!<br />
<object height="344" width="425"><param name="movie" value="http://www.youtube.com/v/3_RlKxz_ymQ&hl=en_GB&fs=1&rel=0"></param><param name="allowFullScreen" value="true"></param><param name="allowscriptaccess" value="always"></param><embed src="http://www.youtube.com/v/3_RlKxz_ymQ&hl=en_GB&fs=1&rel=0" type="application/x-shockwave-flash" allowscriptaccess="always" allowfullscreen="true" width="425" height="344"></embed></object><div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com7tag:blogger.com,1999:blog-25364882.post-35250014119712009102009-10-20T19:01:00.006+01:002009-10-20T19:37:02.361+01:00Planning for the future<a onblur="try {parent.deselectBloggerImageGracefully();} catch(e) {}" href="http://3.bp.blogspot.com/_PLZz45r2tzs/St39jkPNkVI/AAAAAAAABfg/tU5vjsVXvuY/s1600-h/SUV-turbine.jpg"><img style="margin: 0px auto 10px; display: block; text-align: center; cursor: pointer; width: 400px; height: 193px;" src="http://3.bp.blogspot.com/_PLZz45r2tzs/St39jkPNkVI/AAAAAAAABfg/tU5vjsVXvuY/s400/SUV-turbine.jpg" alt="The wind turbine pictured is a 6kW machine, courtesy of Proven. The SUV is by IFCAR via Wikipedia" id="BLOGGER_PHOTO_ID_5394746716124451154" border="0" /></a><span style="font-weight: bold;">Question: which one of the above machines needs planning permission before you can buy and use it?<br /></span><span>The answer, of course, is the wind turbine. This particular turbine should generate enough electricity in an a year to save more than 7 tonnes of CO2.<br /><br />The SUV doesn't need planning permission to buy; just a lot of money. Much more than the turbine. It will <a href="http://www.edf.org/article.cfm?contentid=2218">generate more CO2</a> each year than the turbine will save. It will also cost much more to buy and to run.<br /><br /><span style="font-weight: bold;">Revised question: which of the above machines <span style="font-style: italic;">should </span>have planning permission </span></span><span style="font-weight: bold;">before </span><span style="font-weight: bold;">you can buy and use it</span><span style="font-weight: bold;">?<br /></span><span>It's a no-brainer and a good example of the cockeyed system we have to change in order to </span><span>tackle the planet's climate woes and overconsumption. As you might guess, I am in the throes of trying to get <a href="http://llangybi.blogspot.com/2009/10/planning-for-wind.html">planning permission for installing a 6kW turbine</a> on my farm.<br /></span><div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com2tag:blogger.com,1999:blog-25364882.post-86187382368910580982009-09-01T12:30:00.001+01:002009-09-01T12:43:44.548+01:00The science of climate change<div class="post-excerpt"> <span style="color: rgb(255, 102, 0);font-family:trebuchet ms;font-size:130%;" ><span style="font-weight: bold;">A four-minute guide for doubters</span></span> </div> <!-- post-excerpt --> <div class="post-content"> <p> </p><p> </p><p> </p> <div class="embed-image"><em><img id="6361" src="http://www.oneclimate.net/imagelib/posts/20090311/2954612896_cc6b1033e9.jpg" alt="" /> </em> <h3 style="color: rgb(204, 51, 204);"><span style="font-size:85%;"><em>'Climate is an angry beast...' Quote by climate scientist Wallace Broecker </em></span><span style="font-size:85%;"><em><br />Image by Lisa Brewster</em></span></h3> </div> <p><em>Everyone’s heard that the planet’s climate is changing but is it true that the planet is warming? What’s the evidence? If there’s an unusually cold winter, isn’t that evidence of global cooling? Many people are sceptical and a little confused. Is global warming just another scare story put about by green eco-nutters? It’s more comforting to believe that everything’s fine and we can carry on as usual. But an unpalatable truth is that the global economic system depends almost totally on cheap fossil fuels – coal, oil, natural gas – to power industry, transport, modern consumerist lifestyles and provide employment. Taking action to reduce the greenhouse gases (GHGs) - which science says cause climate change - will mean drastically cutting back on using these fuels. There’s trouble ahead. So it is reasonable to question how we know climate change really is happening. Mitigation and adaptation will dramatically change our lifestyles, though not necessarily for the worse. So what really is the evidence for climate change? This 4-minute guide summarises it.<br /><br /></em><strong><span style="color: rgb(51, 204, 0);">Climate and the weather:</span></strong> There is now a mass of evidence that climate is changing fast. Confusion arises because most people don’t appreciate the difference between weather and climate. A cold winter in north Europe doesn’t mean that the climate is cooling: there’s a lot of natural variation year by year and always has been. Climate is about averaging the weather’s variations around the planet over a number of years and looking for a global trend. And there is a trend: temperatures are increasing. The planet is getting hotter and the rate looks set to accelerate.<br /><br /><strong><span style="color: rgb(51, 204, 0);">The evidence</span></strong> comes from careful observations by scientists from many different disciplines over many years. Many lines of evidence can actually be seen happening:</p> <ul><li>Ice sheets and glaciers are melting everywhere and there are many dramatic before and after photos which illustrate this </li><li>The area covered by floating sea ice in the Arctic is reducing rapidly </li><li>Permafrost in the Arctic is melting, releasing methane, a potent greenhouse gas (an example of a dangerous ‘positive’ feedback) </li><li>The lower atmosphere (troposphere) is becoming warmer </li><li>Sea levels and ocean temperatures are rising (see below) </li><li>Species of animals and plants are ‘migrating’ to higher latitudes because their home ranges are becoming too warm for them. Diseases are also expanding their range and affecting crops and trees as well as people </li><li>Coral reefs are being killed by the hotter waters. Corals are not only beautiful to look at, they are nursery grounds to myriads of marine species (and sometimes called ‘the rainforests of the sea’.) The planet needs its corals because they sequester carbon from carbon dioxide (CO2) to build their skeletons out of a hard, white mineral called calcium carbonate so, like trees, they are ‘carbon sinks’ </li><li>The oceans are absorbing much of the CO2 but as they do so, they are becoming more acidic. This is affecting all kinds of marine life which build their shells out of calcium carbonate. The mineral dissolves in weak acid so acidification means that corals and shells won’t be able to grow, triggering all kinds of knock-on effects in the marine food chain.</li></ul> <p><strong><span style="color: rgb(51, 204, 0);">Predicting the future: Global Climate Models</span></strong> Climate scientists have developed computer models to predict future climate. They know these are generally accurate because they can successfully be used to predict known past climate by checking their predictions against actual observations (see below). The models allow scientists to predict how the climate will change over the next few decades and are a cornerstone of periodic updates from the <a href="http://www.ipcc.ch/index.htm" target="_blank"><strong><span style="color: rgb(191, 39, 126);">Intergovernmental Panel on Climate Change</span></strong></a> (IPCC) on global climate change.<br /><br />How can scientists investigate past climates accurately? One way is to examine drill cores taken from ice sheets like those covering Antarctica and Greenland. Past climates can be reconstructed effectively using the records of former atmosphere composition and precipitation preserved in the ice. What’s more, they can be cross-checked using actual historical records and other ‘proxy’ observations such as <a href="http://www.cru.uea.ac.uk/cru/annrep94/trees/" target="_blank"><strong><span style="color: rgb(191, 39, 126);">tree-rings</span></strong></a>, <a href="http://en.wikipedia.org/wiki/Oxygen_isotope_ratio_cycle" target="_blank"><strong><span style="color: rgb(191, 39, 126);">isotope analysis</span></strong></a> and <a href="http://www.open2.net/sciencetechnologynature/worldaroundus/rockclocks2.html" target="_blank"><strong><span style="color: rgb(191, 39, 126);">radiometric dating</span></strong></a>. Importantly, the ice cores contain a record of <a href="http://www.realclimate.org/index.php/archives/2007/05/start-here/index.php?p=462" target="_blank"><strong><span style="color: rgb(191, 39, 126);">CO2</span></strong></a> levels which are higher now than at any time in the last 700,000 years. One well-known result of using all these different methods to assess past climates is the <a href="http://en.wikipedia.org/wiki/Temperature_record_of_the_past_1000_years" target="_blank"><strong><span style="color: rgb(191, 39, 126);">hockey stick graph</span></strong></a> in which numerous different lines of evidence broadly agree that temperatures have over recent decades started on a steep upward trend. It is not a uniform upward movement because of complex atmosphere-ocean oscillations, the best-known of which is El Niño.<br /><br />One prediction made by the computer models is that the Arctic and Antarctic will warm faster than the rest of the world. Evidence is coming in that not only is this happening but, alarmingly, it’s happening even faster than predicted because of <a href="http://en.wikipedia.org/wiki/Global_warming#Feedback" target="_blank"><strong><span style="color: rgb(191, 39, 126);">positive feedbacks</span></strong></a>. Other predictions show droughts and desert areas increasing (particularly in Australia) and more violent weather patterns with poor countries particularly vulnerable (especially much of Africa). Tropical forests - normally massive carbon 'sinks' (the trees absorb CO2 from the air and transform it into wood, so locking up the carbon) – are today being logged and burned to make way for farming and biofuel plantations, releasing vast quantities of CO2 into the air. As if that wasn’t enough, the models predict drying and major die-off of the Amazon rainforests and increase in wildfires in these former sanctuaries of biodiversity.<br /><br />The main concern is that rising global temperatures will trigger ‘tipping points’ where GHG inputs reach a critical level, causing a major climate ‘flip’ which could be extremely hostile to much of life – including humans. We know from the distant past that major climate change events can and do occur. One of these, almost certainly caused by GHGs from stupendous volcanic eruptions, wiped out 90 per cent of life on the planet. This mass extinction event occurred around 250 million years ago and was probably worsened by ‘tipping points’ such as major methane releases from <a href="http://en.wikipedia.org/wiki/Methane_hydrate#Methane_clathrates_and_climate_change" target="_blank"><strong><span style="color: rgb(191, 39, 126);">methane clathrates</span></strong></a>. (Today’s oceans host vast deposits of clathrates.) We know of 5 mass extinctions from the geological record and we are now causing the sixth.<br /><br /><strong><span style="color: rgb(51, 204, 0);">How warming happens: the greenhouse effect</span></strong> If you enter a greenhouse on a sunny day, it’s hot because the sun’s heat is trapped by the glass. Carbon dioxide (and other gases like methane, nitrous oxide and ozone-killer CFCs) are called greenhouse gases because they, like the glass in a greenhouse, trap some of the sun’s heat. Without the greenhouse ‘blanket’, the planet would radiate most of this heat back into space. As more GHGs gush into the atmosphere from power station chimneys, farming and car tailpipes, it’s rather like adding double glazing to the greenhouse: more heat is trapped. Most of this heat is absorbed by the world’s oceans so they, like the air, are getting hotter.<br /><br /><strong><span style="color: rgb(51, 204, 0);">The bathtub effect:</span></strong> Without the greenhouse effect, life on Earth wouldn’t exist. Some GHG are essential to keep the planet habitable, but humans are grossly overdoing it. Imagine a bath (which represents the atmosphere) with the taps full on and gushing water (representing GHGs pouring into the atmosphere). There’s no plug so water is also draining from the plughole (representing carbon ‘sinks’ like the oceans and forests which both naturally absorb CO2). In a stable system, the amount of water coming in is roughly balanced by the amount flowing out: the carbon cycle. But we’ve upset the system by pouring increasing amounts of ‘water’ into the ‘bathtub’ so the tub is filling up and will soon overflow. The ‘carbon sinks’ drain is overwhelmed so the planet heats up. This is well explained by the <a href="http://www.sustainer.org/tools_resources/climatebathtubsim.html" target="_blank"><strong><span style="color: rgb(191, 39, 126);">Bathtub</span></strong></a> simulator. Before people began to burn fossil-fuel in the 19th century, <a href="http://en.wikipedia.org/wiki/File:Carbon_Dioxide_400kyr.png" target="_blank"><strong><span style="color: rgb(191, 39, 126);">CO2 levels</span></strong></a> – even during warm periods - were below 300 parts per million (ppm). During ice ages, they fell to less than 200ppm. Since the industrial revolution, they have risen ever faster, particularly in the last decade and now stand at 387. Actual warming closely mirrors this rise.<br /><br /><strong><span style="color: rgb(51, 204, 0);">Sea level rise:</span></strong> Warmer water expands so sea levels go up. But sea levels also rise because of all the melting glaciers and ice sheets around the world. In fact, the rapid melting of almost all the world’s glaciers is one of the most scary indicators that the climate is warming. Sea levels have been rising by about 2mm each year for the last century but this is predicted to greatly increase, causing large scale flooding of many low lying populated areas. The IPCC in their latest (2007) report predict about half a metre of further sea level rise though more recent research suggests double that amount.<br /><br /><em><span style="color: rgb(255, 153, 0);">This guide to the scientific evidence for climate change and the predictions science can make is deliberately very brief. It first appeared on </span></em><a href="http://www.oneclimate.net"><em></em></a><a href="http://www.oneclimate.net"><em><span style="color: rgb(255, 153, 0);"></span></em></a><em><span style="color: rgb(255, 153, 0);"><a target="_blank">OneClimate.net.</a></span></em><em><span style="color: rgb(255, 153, 0);"> Below is a list of sources of further information if you want to follow anything up.<br /><br />The Royal Society has produced </span></em><a href="http://royalsociety.org/page.asp?id=6229"><em><span style="color: rgb(255, 153, 0);"><strong>this overview</strong></span></em></a><em><span style="color: rgb(255, 153, 0);"> of the current state of scientific understanding of climate change to help non-experts better understand some of the debates in this complex area of science.<br /><br />New Scientist's </span></em><a href="http://www.newscientist.com/topic/climate-change"><em><span style="color: rgb(255, 153, 0);"><strong>guide to climate change</strong></span></em></a><em><span style="color: rgb(255, 153, 0);">, global warming and greenhouse gases with many other interesting links and news stories.<br /><br /></span></em><a href="http://dels.nas.edu/dels/rpt_briefs/climate_change_2008_final.pdf"><em><span style="color: rgb(255, 153, 0);"><strong>‘Understanding and Responding to Climate Change’</strong></span></em></a><em><span style="color: rgb(255, 153, 0);"> Downloadable PDF document from the US National Academies. Excellent guide with clear explanations and many images. A free printed version is also available.<br /><br /></span></em><a href="http://www.realclimate.org/index.php/archives/2007/05/start-here/index.php?p=462"><em><span style="color: rgb(255, 153, 0);"><strong>RealClimate</strong></span></em></a><em><span style="color: rgb(255, 153, 0);"> Climate science blog written by climate scientists with many useful short guides e.g. ‘Highlight’ (right column, scroll down)<br /><br /></span></em><a href="http://tiki.oneworld.net/global_warming/climate_home.html"><em><span style="color: rgb(255, 153, 0);"><strong>Climate change for kids</strong></span></em></a><em><span style="color: rgb(255, 153, 0);">, explained by OneWorld’s </span></em><a href="http://tiki.oneworld.net/global_warming/climate_home.html"><em><span style="color: rgb(255, 153, 0);"><strong>Tiki the Penguin</strong></span></em></a><br /><em><span style="color: rgb(255, 153, 0);"><br />OneWorld’s </span></em><a href="http://uk.oneworld.net/guides/climatechange"><em><span style="color: rgb(255, 153, 0);"><strong>guide to climate change</strong></span></em></a><em><span style="color: rgb(255, 153, 0);"> exposes the reality that global warming will impact poorer countries harder and sooner than the richer countries which are responsible</span></em>.</p></div> <!-- post-content --> <!-- AddThis Bookmark Button BEGIN --><div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com3tag:blogger.com,1999:blog-25364882.post-47652726023144553662009-03-14T12:20:00.008+00:002009-03-26T09:52:18.605+00:00Safe acceptable nuclear power? Here's a way...<a href="http://upload.wikimedia.org/wikipedia/en/thumb/b/b9/Mephistopheles2.jpg/250px-Mephistopheles2.jpg"><img style="FLOAT: right; MARGIN: 0px 0px 10px 10px; WIDTH: 250px; CURSOR: hand; HEIGHT: 295px" alt="Mephistopheles flying over Wittenberg, in a lithograph by Eugène Delacroix. Image credit: Wikipedia" src="http://upload.wikimedia.org/wikipedia/en/thumb/b/b9/Mephistopheles2.jpg/250px-Mephistopheles2.jpg" border="0" /></a><strong>Use now; pay later ... a Faustian pact with fossil fuels:</strong> Burning fossil fuel the way we do now could almost have been designed to seriously endanger humankind and myriads of other forms of life on this planet. You want climate chaos? Okay, just burn up all that coal, oil and gas as fast as you can and you'll get a climate guaranteed to cause a mass extinction which will likely include humans. Mephistopheles, to mix metaphors, gets his pound of flesh. Suffering and mega-death are part of the fossil fuel package, clearly visible to those who can see beyond the PR smoke of the fossil fuel industry. So can we have our energy cake and eat it too? Yes, if we eschew fossil fuels and look for alternatives.<br /><br /><strong></strong><br /><strong>Renewable energy gap: </strong>I'm enthusiastic about renewable energy. I've built an eco-cottage (massive insulation) and a passive-solar conservatory for heating my stone-built farmhouse. I'm about to install an air-source heat pump and, in a few months, I hope to set about the installation of a grid-connected 6kW Proven wind turbine. I live a simple, low energy life. I travel very little, never fly and burn wood grown on this farm in my woodburning stove . I also plant trees. And my aim? To be carbon neutral.<br /><br /><br />Most people can't do many of these sorts of things if they live in towns or cities. They need - and expect to have - electric energy available at the flick of a switch. So do I! So... can renewables like wind and solar power deliver the energy we need? Unfortunately, the answer - for the time being - is no and all the green bluster about solar, wind and waves being able to do it is just naive. In time - by which I mean decades - renewables could and should power the planet when we have built infrastructure like supergrids, vast solar arrays in the Sahara desert and so on. But for now, renewables provide just a few percent of total electric energy used. When the wind doesn't blow and the sun doesn't shine, they're useless. This winter, there have been weeks of cold grey weather without wind. The lights still work because of fossil fuel... and nuclear generation.<br /><br /><br /><strong>Choices</strong>: We all want the lights to work when we need them. Almost every modern gadget and convenience depends utterly on dependable electricity supply. So we have choices to make:<br /><ol><li>carry on burning fossil fuels like there was no tomorrow... which there won't be</li><li>eliminate fossil fuels as soon as possible whilst building up renewable supply systems</li><li>build nuclear power stations to replace coal-fired plants as quickly as possible, whilst pursuing renewable generation also as fast as possible (part of the much vaunted Green New Deal which may or may not come to pass)</li></ol><p><em>Option 1 means disaster</em> and ought to be unacceptable to anyone who cares about the future for their children and the rest of life on our despoiled planet. </p><p><em>Option 2 means many years of unreliable electricity supply</em> with frequent power cuts. It would work if everyone was prepared to undergo hardship: cold houses, no lights, no TV, no computers for much of the time. But almost everyone would find this unacceptable too</p><p><em>So we're left with Option 3</em>. Nuclear power stations have been working away, generating reliable baseload power for many years. There have been serious problems and even a disaster or two, but modern designs have good safety records. Unlike coal, they almost never kill people. </p><br /><strong></strong><br /><strong>Protests:</strong> It goes without saying that <em>any</em> attempt to build new nuclear plants in countries like Britain will result in massive protests. The reasons people protest against nuclear plants are well known and often justified. At the very least, the massive reactor containment structures are eyesores and at the end of the reactor's life will have to remain there for many decades while radiation levels decay sufficiently for dismantling. Then there's proliferation and the unsolved radioactive waste problem. These are genuine causes for concern. <p></p><p>Protests can and do delay construction, sometimes for years. We haven't got years to cut carbon emissions. So is there a way to make nuclear power more acceptable to people who would otherwise protest? And is there a way to make it even safer than it is now? I think there is... </p><br /><br /><strong>Out of sight, out of mind: </strong>If you visit Llanberis in North Wales, you'll probably not be aware that there's a major power station there. Where is it? You can't see all the usual structures. The reason is because it is completely underground. So why not take that notion further? Why not build nuclear power plants underground too? The size of excavation needed for a nuclear plant is comparable to the Dinorwig pumped storage power station in Llanberis, as my drawing shows.<br /><a href="http://4.bp.blogspot.com/_PLZz45r2tzs/Rita4DrWh8I/AAAAAAAAADA/AkVkgPr9TfI/s400/nuclear.BMP"><img style="MARGIN: 0px 0px 10px 10px; WIDTH: 400px; CURSOR: hand; HEIGHT: 283px" alt="Size comparison between the Sizewell PWR and Dinorwig pumped storage excavations" src="http://4.bp.blogspot.com/_PLZz45r2tzs/Rita4DrWh8I/AAAAAAAAADA/AkVkgPr9TfI/s400/nuclear.BMP" border="0" /></a><br />Let's consider the advantages that underground construction would offer: <p></p><p><strong></strong></p><p><strong>Advantages</strong> </p><ol><li>because the containment is unbreachable (given proper choice of ground conditions, hydrogeology and rock types), reactor assemblies would be immune to military attack from the air and also from suicide bombers. Containment above ground could not withstand bunker-busting bombs or small nuclear devices, the latter possibly 'delivered' by suicide vehicle. In our dangerous world, these are possibilities</li><li>such unbreachable containment is also immune to accidents, whether external (e.g. crashing airliners) or internal such as major loss of coolant (Three Mile Island) or even Chernobyl-style meltdown disasters. Building robust containment structures above ground is hardly cheap and uses a heck of a lot of greenhouse gas-emitting (in manufacture) steel and cement!</li><li>virtually no decomissioning costs: you could more or less just walk away and slam the door. Monitoring would be needed, as for underground nuclear waste repositories, but because nothing irradiated is above ground, access would only need to be minimal. In addition, there would be no need ever to remove irradiated fuel assemblies unless the fuel is to be reprocessed. When the reactor reaches the end of its operating lifetime, the whole facility could be sealed, complete with its spent fuel.</li><li>there will be protests at each and every new surface nuclear build with endless public enquiries because of protests. Underground plants would demolish most of the objections. Public acceptance and planning consent should be straightforward since there wouldn't be much surface infrastructure to object to. Most of the usual public fears and objections would cease to be serious issues. It also means that off-the-shelf reactor designs (like the PWRs used throughout France and the most of the USA) could be built even though they might not be as potentially safe as so-called 'fourth generation' reactors, because of the additional safety conferred by underground plants. Waiting for unproven safer designs could lose us another decade.</li></ol><br /><strong>Disadvantages</strong><br /><br /><strong><em>Cost</em></strong>: I have no idea how much underground siting would add to a budget. But if you take into account minimised decommissioning costs (not historically factored in to the cost of nuclear power as we are now finding out) and spent fuel disposal possibilities, I would guess that it would be completely viable.The economics are only artificially marginal because there's no carbon tax. Anyway, what price security and safety? And if a power utility wanted to re-use as much of the infrastructure as possible at the close of the first reactor's design life, it could just dig another chamber and build its new (improved) reactor next door. Power lines, turbines, transformers etc. all remain to be used again<br /><br />So far as I know, no-one has ever tried costing it. As my drawing (above) shows, the actual reactor vessel and primary heat exchangers are really quite small structures because of the high power density which nuclear generation allows. So the chamber would be no larger than many others routinely built for different purposes. The reactor assembly could even be built in a modified abandoned mine (e.g. salt mine). Of course, any such underground site depends on there being a cooling source nearby (river, lake, sea) for condensing steam from the turbines. All the non-radioactive sections of the plant could be above ground to reduce costs.<br /><br /><em><strong>Location</strong>:</em> Finding suitable underground conditions, especially in flatter rainy areas with fast-moving groundwater circulation, could be a problem. A Llanberis-like site could, in theory, be ideal because the excavations could be made within the steep valley side so that any groundwater would drain out by gravity. And just outside are two deep lakes (see Cooling, below).<br /><br /><strong><em>Cooling</em></strong>: Like any steam-driven turbines, cool water is needed both for raising steam and for condensing it. There's no reason for the turbines and cooling systems to be located underground since these aren't in contact with radioactive parts of the circuit. So much of the plant could, like conventional plants, be located by a river or the sea.<br /><br /><em><span style="color:#ff0000;"></span></em><p></p><p><em><span style="color:#ff0000;">So... if we are to have nuclear fission generation on a larger scale to tide us over until fusion power and renewables come to our rescue, why not build all nuclear plants underground? I think this reasonable question deserves a reasonable answer.</span></em><br /><br />Further reading: You may like to look at <a href="http://climateextremist.blogspot.com/2007/04/nuclear-power-build-plants-underground.html">Nuclear power... safe underground</a> and <a href="http://climateextremist.blogspot.com/2007/10/future-of-nuclear-power.html">The Future of Nuclear Power</a>, both in this blog series.</p><div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com6tag:blogger.com,1999:blog-25364882.post-81196415999992404452009-03-10T12:57:00.006+00:002010-11-18T11:53:27.516+00:00Four-minute guide to the science of climate change<i>Everyone’s heard that the planet’s climate is changing but is it true that the planet is warming? What’s the evidence? If there’s an unusually cold winter, isn’t that evidence of global cooling? Many people are sceptical and a little confused. Is global warming just another scare story put about by green eco-nutters? It’s more comforting to believe that everything’s fine and we can carry on as usual. But an unpalatable truth is that the global economic system depends almost totally on cheap fossil fuels – coal, oil, natural gas – to power industry, transport, modern consumerist lifestyles and provide employment. Taking action to reduce the greenhouse gases (GHGs) - which science says cause climate change - will mean drastically cutting back on using these fuels. There’s trouble ahead. So it is reasonable to question how we know climate change really is happening. Mitigation and adaptation will dramatically change our lifestyles, though not necessarily for the worse. So what really is the evidence for climate change? This 4-minute guide summarises it.<br />
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<b><span style="color: #33cc00;">Climate and the weather:</span></b> There is now a mass of evidence that climate is changing fast. Confusion arises because most people don’t appreciate the difference between weather and climate. A cold winter in north Europe doesn’t mean that the climate is cooling: there’s a lot of natural variation year by year and always has been. Climate is about averaging the weather’s variations around the planet over a number of years and looking for a global trend. And there is a trend: temperatures are increasing. The planet is getting hotter and the rate looks set to accelerate.<br />
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<b><span style="color: #33cc00;">The evidence</span></b> comes from careful observations by scientists from many different disciplines over many years. Many lines of evidence can actually be seen happening:<br />
<ul><li>Ice sheets and glaciers are melting everywhere and there are many dramatic before and after photos which illustrate this</li>
<li>The area covered by floating sea ice in the Arctic is reducing rapidly</li>
<li>Permafrost in the Arctic is melting, releasing methane, a potent greenhouse gas (an example of a dangerous ‘positive’ feedback)</li>
<li>The lower atmosphere (troposphere) is becoming warmer </li>
<li>Sea levels and ocean temperatures are rising (see below)</li>
<li>Species of animals and plants are ‘migrating’ to higher latitudes because their home ranges are becoming too warm for them. Diseases are also expanding their range and affecting crops and trees as well as people</li>
<li>Coral reefs are being killed by the hotter waters. Corals are not only beautiful to look at, they are nursery grounds to myriads of marine species (and sometimes called ‘the rainforests of the sea’.) The planet needs its corals because they sequester carbon from carbon dioxide (CO2) to build their skeletons out of a hard, white mineral called calcium carbonate so, like trees, they are ‘carbon sinks’</li>
<li>The oceans are absorbing much of the CO2 but as they do so, they are becoming more acidic. This is affecting all kinds of marine life which build their shells out of calcium carbonate. The mineral dissolves in weak acid so acidification means that corals and shells won’t be able to grow, triggering all kinds of knock-on effects in the marine food chain.</li>
</ul><b><span style="color: #33cc00;">Predicting the future: Global Climate Models</span></b> Climate scientists have developed computer models to predict future climate. They know these are generally accurate because they can successfully be used to predict known past climate by checking their predictions against actual observations (see below). The models allow scientists to predict how the climate will change over the next few decades and are a cornerstone of periodic updates from the <a href="http://www.ipcc.ch/index.htm">Intergovernmental Panel on Climate Change</a> (IPCC) on global climate change.<br />
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How can scientists investigate past climates accurately? One way is to examine drill cores taken from ice sheets like those covering Antarctica and Greenland. Past climates can be reconstructed effectively using the records of former atmosphere composition and precipitation preserved in the ice. What’s more, they can be cross-checked using actual historical records and other ‘proxy’ observations such as <a href="http://www.cru.uea.ac.uk/cru/annrep94/trees/">tree-rings</a>, <a href="http://en.wikipedia.org/wiki/Oxygen_isotope_ratio_cycle">isotope analysis</a> and <a href="http://www.open2.net/sciencetechnologynature/worldaroundus/rockclocks2.html">radiometric dating</a>. Importantly, the ice cores contain a record of <a href="http://www.realclimate.org/index.php/archives/2007/05/start-here/index.php?p=462">CO2</a> levels which are higher now than at any time in the last 700,000 years. One well-known result of using all these different methods to assess past climates is the <a href="http://en.wikipedia.org/wiki/Temperature_record_of_the_past_1000_years">hockey stick graph</a> in which numerous different lines of evidence broadly agree that temperatures have over recent decades started on a steep upward trend. It is not a uniform upward movement because of complex atmosphere-ocean oscillations, the best-known of which is El Niño.<br />
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One prediction made by the computer models is that the Arctic and Antarctic will warm faster than the rest of the world. Evidence is coming in that not only is this happening but, alarmingly, it’s happening even faster than predicted because of <a href="http://en.wikipedia.org/wiki/Global_warming#Feedback">positive feedbacks</a>. Other predictions show droughts and desert areas increasing (particularly in Australia) and more violent weather patterns with poor countries particularly vulnerable (especially much of Africa). Tropical forests - normally massive carbon 'sinks' (the trees absorb CO2 from the air and transform it into wood, so locking up the carbon) – are today being logged and burned to make way for farming and biofuel plantations, releasing vast quantities of CO2 into the air. As if that wasn’t enough, the models predict drying and major die-off of the Amazon rainforests and increase in wildfires in these former sanctuaries of biodiversity.<br />
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The main concern is that rising global temperatures will trigger ‘tipping points’ where GHG inputs reach a critical level, causing a major climate ‘flip’ which could be extremely hostile to much of life – including humans. We know from the distant past that major climate change events can and do occur. One of these, almost certainly caused by GHGs from stupendous volcanic eruptions, wiped out 90 per cent of life on the planet. This mass extinction event occurred around 250 million years ago and was probably worsened by ‘tipping points’ such as major methane releases from <a href="http://en.wikipedia.org/wiki/Methane_hydrate#Methane_clathrates_and_climate_change">methane clathrates</a>. (Today’s oceans host vast deposits of clathrates.) We know of 5 mass extinctions from the geological record and we are now causing the sixth.<br />
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<b><span style="color: #33cc00;">How warming happens: the greenhouse effect</span></b> If you enter a greenhouse on a sunny day, it’s hot because the sun’s heat is trapped by the glass. Carbon dioxide (and other gases like methane, nitrous oxide and ozone-killer CFCs) are called greenhouse gases because they, like the glass in a greenhouse, trap some of the sun’s heat. Without the greenhouse ‘blanket’, the planet would radiate most of this heat back into space. As more GHGs gush into the atmosphere from power station chimneys, farming and car tailpipes, it’s rather like adding double glazing to the greenhouse: more heat is trapped. Most of this heat is absorbed by the world’s oceans so they, like the air, are getting hotter.<br />
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<b><span style="color: #33cc00;">The bathtub effect:</span></b> Without the greenhouse effect, life on Earth wouldn’t exist. Some GHGs are essential to keep the planet habitable, but humans are grossly overdoing it. Imagine a bath (which represents the atmosphere) with the taps full on and gushing water (representing GHGs pouring into the atmosphere). There’s no plug so water is also draining from the plughole (representing carbon ‘sinks’ like the oceans and forests which both naturally absorb CO2). In a stable system, the amount of water coming in is roughly balanced by the amount flowing out: the carbon cycle. But we’ve upset the system by pouring increasing amounts of ‘water’ into the ‘bathtub’ so the tub is filling up and will soon overflow. The ‘carbon sinks’ drain is overwhelmed so the planet heats up. This is well explained by the <a href="http://www.sustainer.org/tools_resources/climatebathtubsim.html">Bathtub</a> simulator. Before people began to burn fossil-fuel in the 19th century, <a href="http://en.wikipedia.org/wiki/File:Carbon_Dioxide_400kyr.png">CO2 levels</a> – even during warm periods - were below 300 parts per million (ppm). During ice ages, they fell to less than 200ppm. Since the industrial revolution, they have risen ever faster, particularly in the last decade and now stand at 387. Actual warming closely mirrors this rise.<br />
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<b><span style="color: #33cc00;">Sea level rise:</span></b> Warmer water expands so sea levels go up. But sea levels also rise because of all the melting glaciers and ice sheets around the world. In fact, the rapid melting of almost all the world’s glaciers is one of the most scary indicators that the climate is warming. Sea levels have been rising by about 2mm each year for the last century but this is predicted to greatly increase, causing large scale flooding of many low lying populated areas. The IPCC in their latest (2007) report predict about half a metre of further sea level rise though more recent research suggests double that amount.<br />
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<i><span style="color: #ff9900;">This guide to the scientific evidence for climate change and the predictions science can make is deliberately very brief. Below is a list of sources of further information if you want to follow anything up.<br />
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The Royal Society has produced </span></i><a href="http://royalsociety.org/page.asp?id=6229"><i><span style="color: #ff9900;">this overview</span></i></a><i><span style="color: #ff9900;"> of the current state of scientific understanding of climate change to help non-experts better understand some of the debates in this complex area of science.<br />
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New Scientist's </span></i><a href="http://www.newscientist.com/topic/climate-change"><i><span style="color: #ff9900;">guide to climate change</span></i></a><i><span style="color: #ff9900;">, global warming and greenhouse gases with many other interesting links and news stories.<br />
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</span></i><a href="http://dels.nas.edu/dels/rpt_briefs/climate_change_2008_final.pdf"><i><span style="color: #ff9900;">‘Understanding and Responding to Climate Change’</span></i></a><i><span style="color: #ff9900;"> Downloadable PDF document from the US National Academies. Excellent guide with clear explanations and many images. A free printed version is also available.<br />
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</span></i><a href="http://www.realclimate.org/index.php/archives/2007/05/start-here/index.php?p=462"><i><span style="color: #ff9900;">RealClimate</span></i></a><i><span style="color: #ff9900;"> Climate science blog written by climate scientists with many useful short guides e.g. ‘Highlight’ (right column, scroll down)<br />
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</span></i><a href="http://tiki.oneworld.net/global_warming/climate_home.html"><i><span style="color: #ff9900;">Climate change for kids</span></i></a><i><span style="color: #ff9900;">, explained by OneWorld’s </span></i><a href="http://tiki.oneworld.net/global_warming/climate_home.html"><i><span style="color: #ff9900;">Tiki the Penguin</span></i></a><br />
<i><span style="color: #ff9900;"><br />
OneWorld’s </span></i><a href="http://uk.oneworld.net/guides/climatechange"><i><span style="color: #ff9900;">guide to climate change</span></i></a><i><span style="color: #ff9900;"> exposes the reality that global warming will impact poorer countries harder and sooner than the richer countries which are responsible</span></i>.<div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com5tag:blogger.com,1999:blog-25364882.post-32228585254994206452008-11-06T11:55:00.007+00:002008-11-06T15:36:15.645+00:00Plus ça change...<strong><em>Plus ça change, plus c'est la même chose</em>.</strong> Yes indeed. The more things change, the more they stay the same... at least so far as 'the economy' is concerned. I don't often listen to the news, preferring to read about it later. But yesterday, American election day, I listened. I listened to President-Elect Obama's speech and - first time for ages - felt there was real hope. Then today, I made the mistake of listening to the news again. It was back to the usual tedium of how to 'grow' the economy using the same old clichés. No mention of climate change, the environment, sutainability or even the <a href="http://www.independent.co.uk/environment/green-living/a-green-new-deal-can-save-the-worlds-economy-says-un-958696.html">Green New Deal</a>. No, it was back to car production, getting the consumer back into the high street, interest rates and blah blah; back to trying to get back to business as usual.<br /><a href="http://farm3.static.flickr.com/2055/2287332094_c170aeddb1.jpg"></a><br /><strong>Green opportunity or TNT? </strong>Dammit, when will these people ever get it? They are totally stuck in the cramped vertical thinking of what they like to call the 'real world economy'. They're not fools, they're not stupid; just stuck. They can't see any alternative to <em>laissez faire</em> capitalism which has spectacularly failed. Right now, we really have the chance to dump 'business as usual', aka 'Trashing the planet with No Thought of tomorrow' or TNT, an ulimately explosive notion. Yet here, now, we have a global recession <em>and</em> a new American president who takes climate change and renewables seriously. Here, now, we have a chance to restructure, to dump the loony concept of eternal growth and start to build a steady-state sustainable economy which accepted that people and their business depend utterly on the biosphere. <em><span style="color:#ff0000;">It IS the planet, stupid!</span></em><a href="http://2.bp.blogspot.com/_PLZz45r2tzs/SRLrscC4e8I/AAAAAAAAA4I/VRdkKU37Z2A/s1600-h/keynes-et-al.jpg"><img id="BLOGGER_PHOTO_ID_5265530063024585666" style="DISPLAY: block; MARGIN: 0px auto 10px; WIDTH: 400px; CURSOR: hand; HEIGHT: 161px; TEXT-ALIGN: center" alt="John Maynard Keynes, economist (L), President-Elect Obama and Franklin D Roosevelt (R), New Deal architect. Images from Wikipedia" src="http://2.bp.blogspot.com/_PLZz45r2tzs/SRLrscC4e8I/AAAAAAAAA4I/VRdkKU37Z2A/s400/keynes-et-al.jpg" border="0" /></a> And the planet is very sick. It needs a big dose of Franklin D Roosevelt and John Maynard Keynes' medicine to make a change actually happen. So will people who are in a position to do something open their minds to the realities of impending biosphere collapse and the notion that there could be viable alternatives to rampant consumerist capitalism? President-Elect Barack Obama could be the catalyst but the pessimist in me says that inertia, denial, greed and fear of change will ensure the TNT approach will win out. I earnestly hope I'm wrong.<div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com6tag:blogger.com,1999:blog-25364882.post-10402454727011636882008-10-06T12:44:00.011+01:002008-10-25T12:37:33.583+01:00To hell with it!<a href="http://farm1.static.flickr.com/1/556828_467c99d87b.jpg"><img style="FLOAT: left; MARGIN: 0px 10px 10px 0px; WIDTH: 200px" alt="Image by Midas" src="http://farm1.static.flickr.com/1/556828_467c99d87b.jpg" border="0" /></a> <strong>We're doomed! </strong>This is the half-joking message which I'm getting from friends and colleagues. The climate change scenario is <em>so</em> big and <em>so </em>scary that we might as well eat, drink and be merry, for tomorrow, we die.<br /><br /><div></div><div><strong>No future so why bother?</strong> Why bother indeed! There really is a deal of depressing news out there of indications that the climate models are - if anything - unrealistically modest. Six degrees does seem a likely figure for global temperature rises by 2100 given the <em>increase</em> in greenhouse gas emissions (chiefly CO2 and methane) which exceed worst-case IPCC forecasts.</div><br /><div>So if we're all going to hell in a handcart, why bother about emissions? Cut the guilt and get flying to exotic tropical locations for cheap holidays while it's still possible. Or buy a patio heater. Or turn up the heating in winter. Let's enjoy ourselves while we still can and oxidise some more carbon.</div><br /><div><strong>And the answer? </strong><a href="http://4.bp.blogspot.com/_PLZz45r2tzs/SOoBW5ykb_I/AAAAAAAAAoU/QJr0XZSr9fA/s1600-h/IMG_2405.JPG"><img id="BLOGGER_PHOTO_ID_5254013408262778866" style="FLOAT: right; MARGIN: 0px 0px 10px 10px" alt="Three of my grandchildren" src="http://4.bp.blogspot.com/_PLZz45r2tzs/SOoBW5ykb_I/AAAAAAAAAoU/QJr0XZSr9fA/s320/IMG_2405.JPG" border="0" /></a>The answers for me are Amy, Thomas, Tom, Rosa, Alex and Isabella. Who are they? My grandchildren. They didn't ask to be launched into this troubled world. But they're here; they're alive... and I, for one, want to keep them that way. So I'm <em>not</em> turning up the heating, buying a patio heater or flying off for a holiday. If you're a parent or grandparent, I'm sure you'd want to do the best for your descendants. Adopting and maintaining a low-carbon lifestyle is the very best thing you or anyone can do (given current scientific assessment of the fix we're in) to at least give Amy & Co. a fighting chance of having a half-decent future. And I'd mean the '& Co.' to include not just my grandkids but yours and everyones. Oh, and the biosphere with its wonderful life-supporting ecosystems upon which we rapacious humans depend.</div><div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com2tag:blogger.com,1999:blog-25364882.post-38968389156856003372008-08-20T16:39:00.011+01:002008-10-11T16:07:04.844+01:00Out of sight but not out of mind: coal v. nuclear<strong>House on fire: </strong>If your house was alight, beginning to burn up all your treasured possessions and imperil the lives of your family inside, you wouldn't attempt to douse it in gasoline, would you? Of course not. You'd use water in an attempt to quell the flames. Yet the gasoline approach seems to be government orthodoxy at present so far as the climate is concerned.<br /><br /><br /><p><strong>World on fire: </strong>Imagine you were an energy minister and you had been warned repeatedly by thorough science that adding <strong><img style="MARGIN: 0px 15px 0px 0px" height="216" alt="James Hansen" src="http://www.oneclimate.net/imagelib/posts/20080807/j_hansen.jpg" width="144" align="left" /></strong>more carbon emissions to the atmosphere was like chucking fuel on the fire of global warming. You can see that authorising more emissions would be guaranteeing life-threatening problems for next generation; our children. So you wouldn't then go ahead and approve a whole new set of electricity-generating plants based on burning that most polluting of fuels, coal, would you? Well actually, yes you would. For that is what many governments are either doing or are about to do. NASA climate<a href="http://farm4.static.flickr.com/3125/2381436948_cf80856b04_m.jpg"><img style="FLOAT: right; MARGIN: 0px 0px 10px 10px; WIDTH: 200px; CURSOR: hand" alt="Kingsnorth power station protests. Image by fotdmike" src="http://farm4.static.flickr.com/3125/2381436948_cf80856b04_m.jpg" border="0" /></a> scientist James Hansen has done his utmost to carry his no-more-coal-plants message to many governments, only to be ignored. The <a href="http://www.oneclimate.net/2008/08/05/why-kingsnorth-climate-camp-matters/" target="_blank">climate campers</a> in Britain have done their best to publicise the stupidity of approving new coal-fired power stations, only to be throttled by heavyweight police action clearly authorised directly by a government set on the blinkered short-term view despite all their rhetoric about the need to get out of fossil fuels. It seems to be a case of "Lord make me chaste but not yet". Depressing, isn't it?<br /></p><br /><p><strong>Energy for the future - renewables: </strong>Everyone knows what these are by now and campaigning NGOs like Greenpeace and Friends of the Earth have rightly put a lot into getting them adopted into energy plans (whilst vehemently rejecting nuclear). The difficulty with renewables is that they are unreliable. Wind turbines notoriously generate electricity not when <em>we</em> need it but when the wind blows. This means that, overall, they are only generating anything like their rated output for around 25-30% of the time. What happens for the other 70-75%? The hope is that, eventually, all the different forms of renewables (wind, solar, wave, PV, tides) will be linked together via a continent-wide supergrid and employ <a href="http://climateextremist.blogspot.com/2007/10/way-wind-blows.html">new means of energy storage</a>. This may work but it is still decades down the line. So we're exhorted to reduce out carbon footprints... and a few of us make valiant attempts to do this. But it's not enough; nowhere near enough. The demand for electricity is bound to increase rapidly as more people travel by the electrically-powered vehicles -trains, buses, cars - which will be replacing hydrocarbon power: petrol/gasoline, diesel and LNG.</p><br /><p><strong>Energy for the future - nuclear:</strong> Environmentalists Mark Lynas and George Monbiot have both crossed the rubicon and, albeit reluctantly, adopted James Lovelock's position, rejected by most Greens and set out clearly in <em><a href="http://www.independent.co.uk/arts-entertainment/books/reviews/the-revenge-of-gaia-by-james-lovelock-524635.html">The Revenge of Gaia</a></em>: we have to embrace nuclear power if we are to survive.<br /></p><blockquote>"<span style="color:#ff0000;">I have now reached the point at which I no longer care whether or not the answer is nuclear. Let it happen - as long as its total emissions are taken into account..."</span> George Monbiot in <a href="http://www.guardian.co.uk/commentisfree/2008/aug/05/kingsnorthclimatecamp.climatechange" target="_blank">The Guardian</a><br /><br />"<span style="color:#009900;">Increased use of nuclear (an outright competitor to coal as a deliverer of baseload power) is essential to combat climate change...</span>" Mark Lynas in <a href="http://www.newstatesman.com/environment/2008/08/lynas-climate-nuclear-coal" target="_blank">New Statesman</a>.<br /><br /></blockquote><p><strong>Why nuclear?</strong> It's that continuity problem; baseload. All grids, to be stable, need to have a good percentage of reliable, continuous generation to which other generating capacity, like pumped storage, can be added at peak times. Coal and nuclear stations are rather well suited to long periods of steady generation, just what renewables can't deliver. </p><br /><p><strong>Nuclear, the lesser of two evils?</strong> I know about the dangers of nuclear power. I've had a tour around the UK's Sellafield reprocessing facilities and seen the troubled vitrification plant where the most virulent highly active radioactive waste is made into glass blocks for storage. It's not nice stuff. But it's better than coal as Lovelock has made very clear. Going nuclear, which seems to be about to happen anyway, is the lesser of the two energy-producing evils.<br /><br /></p><p><strong>No time to waste but let's put safety first: </strong>Governments need to get on with nuclear build now, not in 5 or 10 years time. 'Fourth generation' inherently safe reactors are not yet beyond prototypes. Even 'off-the-shelf' nuclear plants take some years to build so to make an impact on Big Coal, they have to be built right away <em>instead of coal plants </em>using existing designs. But no-one wants another Chernobyl. Oddly, there is one sure way of making nuclear safe that never seems to get a mention: <em><span style="color:#009900;">build the plants - or at least the reactor and primary coolant circuits - underground</span></em>. The advantages of doing this are pretty obvious when you think about it: </p><ol><li>immune to military attack from the air containment unbreachable (given proper choice of ground conditions, hydrogeology and rock types) and so immune to attack from, say, a suicide bomber. Even major accidents would be better contained than anything above ground<br /></li><li>no need ever to remove irradiated fuel assemblies.<br /></li><li>when the reactor reaches the end of its operating lifetime, the whole facility could be sealed, complete with its spent fuel. Monitoring would be needed but because nothing is above ground, access would only be minimal<br /></li><li>planning consent more likely to be straightforward since there wouldn't be much surface infrastructure to object to. Most of the usual public fears and objections wouldn't be serious issues<br /></li></ol><p>You can <a href="http://climateextremist.blogspot.com/2007/04/nuclear-power-build-plants-underground.html">judge for yourself here</a>. </p><p></p><div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com2tag:blogger.com,1999:blog-25364882.post-62105703236155686362008-02-21T17:36:00.000+00:002008-02-21T19:44:42.593+00:00Great Expectations: Perspectives on Memories<strong><a href="http://farm1.static.flickr.com/76/171959888_7cc361b77b_m.jpg"><img style="FLOAT: right; MARGIN: 0px 10px 10px 0px; WIDTH: 200px; CURSOR: hand" alt="Redcar sea front, nice enough on a warm summer day but freezing in the winter. By MattSearle " src="http://farm1.static.flickr.com/76/171959888_7cc361b77b_m.jpg" border="0" /></a>A Yorkshire childhood: </strong>When I was a boy of 10, I lived for a while with my granny in a house with no heating save one small intermittent coal fire and no inside toilet. Wearing the regulation school uniform shorts, I walked to school a mile or so away winter or summer. This was just 50 years ago. I survived what would now be regarded as an ordeal without any particular recollection of severe hardship. My granny would give me a porcelain hot water bottle on nights when the icy frost flowers formed inside the windows of my bedroom. I recall crunching through fresh snow in the outside back passageway en route for the toilet, known to me to this day as 'the bog'. (No prissy 'loos' in my house!) At school, it was quite normal for us boys to be out playing compulsory football or rugby, clad in thin cotton shirt and shorts, in rain, sleet and snow. Being bitterly cold was, I suppose, supposed to encourage you to run around if only to generate heat. I have an enduring hatred of organised sports to this day!<br /><br /><div><strong>Monday's washing day: </strong>My granny had no washing machine. All washing was by hand in the kitchen sink, aided by a wooden-handled copper plunger. She then put the washing through the <a href="http://farm1.static.flickr.com/21/28731304_905ca2aa4e_m.jpg"><img style="FLOAT: left; MARGIN: 0px 10px 10px 0px; WIDTH: 200px; CURSOR: hand" alt="The TV was much less fancy than this one! By gunnyrat" src="http://farm1.static.flickr.com/21/28731304_905ca2aa4e_m.jpg" border="0" /></a>hand mangle which I helped crank. Then it went on the clothes line outside and she hoped it wouldn't rain. The damp laundry she would later festoon on a clothes horse around the small fire, usually lit in the late afternoon. In the evening, she and my grandfather would barricade themselves in the room, drawing draught-proof curtains across doors and windows and watch the TV. And what a TV! A massive wooden box with a tiny rounded black and white screen. There was only one channel: the BBC. And there were numerous 'technical faults', both with the transmission and on the set itelf which frequently went into uncontrollable rolling picture spins. But to me, it was luxury... until I was told to go to bed.<br /><br /><strong>Life 100 years ago: </strong>But what about a century or more ago? My grandfather, who lived to be 101, as a boy travelled about in horse-drawn omnibuses and carts, on a bicycle but mostly on foot. There were, of course, no cars and the Wright brothers hadn't yet invented powered flight. Most houses had no running water or toilets. My granny's small 1930s semi-detached house, which I remember from the late 1950s, would have seemed luxurious to people at the turn of the 19th century. And their accommodation and means of transport would have seemed likewise to people living a century earlier... and so on back to the simple huts, yurts, tepees and caves of our more distant ancestors, not forgetting that there are still plenty of people around the world who still live in that simple fashion.<br /><br /><strong>Jump to 2008: </strong>Oh my, how things have changed! Today, people expect to live in permanently warm houses as a sort of obvious right. And most expect a home with 2 or more toilets,<a href="http://farm1.static.flickr.com/55/151823743_a83d3b979e_m.jpg"><img style="FLOAT: right; MARGIN: 0px 0px 10px 10px; WIDTH: 200px; CURSOR: hand" alt="Yurt and satellite TV dish. By Fighting Tiger" src="http://farm1.static.flickr.com/55/151823743_a83d3b979e_m.jpg" border="0" /></a> shower rooms, bathrooms and constant hot water. Then there's the phone, a basic necessity now - if only for broadband access - but my granny didn't have one. Making a phone call from the phone box round the corner was a rare and expensive event. So we wrote letters then; a dead art today. Most rich world homes today have several TVs, often with giant screens and, via satellite (yes, I remember Sputnik 1, the first Earth satellite, back in 1957), hundreds of channels to choose from. Everyone now has some means of recording TV so you could spend your whole life watching something.<br /><br /><strong>And my point is?</strong> This whole flimsy house of cards depends utterly on cheap fossil fuel (see my <a href="http://climateextremist.blogspot.com/2007/03/while-cats-away-having-noff-week.html">earlier post</a>). These Great Expectations can't go on. Obviously if you're born to all this 'stuff' -- be it cars, supermarket food, warm homes, automatic washers, DVDs, iPods, Facebook and numerous etceteras -- you're not really able to appreciate the comfort and luxury all this affords because you've never known life without. Most would say these things were basic necessities; a right; essentials. </div><br /><div><strong>Communicating: </strong>A mobile phone is indispensible if you're a teen or young adult. I have one <a href="http://farm1.static.flickr.com/131/353753314_41c1dab493_m.jpg"><img style="FLOAT: left; MARGIN: 0px 10px 10px 0px; WIDTH: 200px; CURSOR: hand" alt="Old bakelite rotary dial phone. By storm_gal" src="http://farm1.static.flickr.com/131/353753314_41c1dab493_m.jpg" border="0" /></a>myself. Yet a short fifty years ago, a fixed phone in a house was a luxury and not people many had them. Life went on. Today, people are in touch with friends all the time. Step back 30 years. I was working in the high Peruvian Andes for weeks at a time. I could only send a brief telegram to my wife in Lima if I happened to pass through some small town. Most of the time, she didn't know if I was alive or dead and the odd telegram she did receive a day or so after sending was often hopelessly garbled. Now jump back to the time of World War 2. I once met a former soldier who had been unable to contact his wife for over 3 years and, I gather, that wasn't unusual. Suddenly, sending a telegram every week or so seemed like regular chat!<br /><br /><strong>A scary dependency: </strong>So imagine the chaos if some of these 'essentials' that every younger person takes for granted today ceased to work or be available! There'd be riots in the streets; anarchy. Doomsayers like <a href="http://en.wikipedia.org/wiki/James_Lovelock">James Lovelock</a> predict that civil consumerist societies will disintegrate when planetary heating really kicks in. How many people know basic skills like cooking or how to grow their own food? Is life possible without the Internet and mobile phones? Without cars and the fuel they need to move? Without holidays abroad? Without supermarkets and shopping?</div><br /><div><strong>Can poverty teach us something</strong>? It could in the sense that the poorest people have to learn to be survivors or they die. They have to be able to make do for food, clothing, shelter and medicine or they die. The poorest peoples have no Western-style safety net to keep them alive. But in the event of the collapse of civilisation, it will be those who know how to make do with next to nothing who will be amongst the survivors. They will have the key skills. Keyboard skills will count for nought.</div><div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com9tag:blogger.com,1999:blog-25364882.post-13518075022883748952008-02-20T11:53:00.004+00:002008-02-20T19:07:32.104+00:00What's wrong with this picture?<a href="http://3.bp.blogspot.com/_PLZz45r2tzs/R7wVJnxigiI/AAAAAAAAAjE/RfAQlylKM6g/s1600-h/IMG_1671.JPG"><img id="BLOGGER_PHOTO_ID_5169029727354257954" style="FLOAT: left; MARGIN: 0px 10px 10px 0px; CURSOR: hand" alt="" src="http://3.bp.blogspot.com/_PLZz45r2tzs/R7wVJnxigiI/AAAAAAAAAjE/RfAQlylKM6g/s400/IMG_1671.JPG" border="0" /></a><br /><div>Here's a clue. I took it on 11th February (last week).</div><div></div><div>Here's another clue: It's the middle of winter.</div><div></div><div>And another: This mountain - Yr Wyddfa or Snowdon - is the highest in England and Wales.</div><div></div><div>But where's its winter snow covering? <a href="http://www.independent.co.uk/environment/climate-change/snowdon-will-be-snowfree-in-13-years-scientists-warn-432596.html">Predictions</a> made a year ago suggested no snow for Snowdon in 13 years. There has been a little snow from time to time this winter but not, as I write, for weeks. Need I say more?</div><div> </div><div>If you click the picture, you get a large version.</div><div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com5tag:blogger.com,1999:blog-25364882.post-839763253558513552008-01-09T20:00:00.000+00:002008-01-09T20:11:07.338+00:00Energising renewable energy<a href="http://1.bp.blogspot.com/_PLZz45r2tzs/R4No8CtDV7I/AAAAAAAAAh8/OoyvlPSboyc/s1600-h/proven-turbine.jpg"><img id="BLOGGER_PHOTO_ID_5153077779369252786" style="FLOAT: left; MARGIN: 0px 10px 10px 0px; CURSOR: hand" alt="Proven turbine chugging quietly away at the back of the community co-op shop, island of Eriskay, Scotland" src="http://1.bp.blogspot.com/_PLZz45r2tzs/R4No8CtDV7I/AAAAAAAAAh8/OoyvlPSboyc/s320/proven-turbine.jpg" border="0" /></a><strong>Going slow</strong>:<strong> </strong>Why is renewable energy becoming energised so slowly in 'backward' countries like the Great Britain which is where I live? Why has it taken off in Germany? Both countries have similar climates: lots of grey skies and wind. In fact, Britain has more wind and a vast resource, as yet untouched, of wave and tide power which Germany with its limited coastline does not possess. And yet Germany is streets ahead on producing energy from renewables, principally photovoltaics. Renewable energy made up more than 14 percent of Germany's power consumption in 2007, up from almost 12 percent in 2006, with wind as the main contributor (source: <a href="http://www.guardian.co.uk/feedarticle?id=7207967">The Guardian</a>). Why Germany?<br /><br /><br /><br /><strong>Becoming energised: </strong>It seems it's all down the German government's <a href="http://www.bmu.de/english/renewable_energy/doc/5077.php">intelligent foresight</a>. The government guarantees a market for solar power by operating a system of feed-in tariffs. There, as explained in a New Scientist article (<em>Solar power: The future's bright</em>, 8 December 2007), anyone who produces electricity from solar power can sell it to the national grid for between Euros 0.45 and Euros 0.57 per kilowatt-hour, which is almost three times what consumers pay for their electricity, roughly Euros 0.19 per kilowatt-hour.<br /><br /><br /><br /><strong>And the result? </strong>Today there are over 300,000 photovoltaic (PV) systems in Germany, mostly on the rooftops of homes and small businesses, and Germany is the world's fastest-growing PV market. It has 55 per cent of the world's installed base of PV panels and can generate around 3 gigawatts of electricity from solar energy, equivalent to between three and five conventional power stations <em>(ibid</em>, New Scientist)<em>.</em> All from a country which passes much of its time under grey cloud like Britain.<br /><br /><br /><br /><strong>The windiest European country lags badly: </strong>Great Britain could have done this for wind energy -- PV too since the amounts of solar energy received by Britain and Germany are fairly similar. It could have done it for waves and tide power but instead, it relied of cheap oil and gas from the North Sea, coal and the massively-subsidised nuclear industry.<br /><br /><br /><br /><strong>It needn't be like this: </strong>A smart British government would follow Germany's lead -- now actively being pursued by Italy and Spain for PV -- and California is, as usual, leading the way in the USA with major subsidies for new PV installations. Britain is well placed to energise its wind power generation together with developing emerging technologies for storing the energy produced by using <a href="http://environment.newscientist.com/channel/earth/mg19526231.700-rocks-could-be-novel-store-for-wind-energy.html">compressed air energy storage (CAES)</a>, perhaps utilising the vast underground caverns left by salt-mining in central-west parts of England. At present, the British government offers a <a href="http://www.lowcarbonbuildings.org.uk/home/">derisory grant</a> and rumour has it that even this is to be axed. So there is little incentive for someone like me to invest in a wind turbine on my windy north-west Wales farm.<br /><br /><br /><br /><strong>NIMBY and turbulence: </strong>Quite apart from the requirement for planning consent for stand-alone turbines, there is the problem of those people who object to 'spoilt views' (it seems the numerous power pylons are okay bringing energy from a far-off polluting coal power station which is not, of course, in their back yard!) and who complain of 'possible noise' (aircraft? helicopter? cars? lorries? All okay, it seems). That is quite sufficient for a local council to reject an application for a turbine.<br /><br /><br /><br />Turbulence is another issue and can be a serious problem around buildings and in urban areas -- which makes the new 'bolt on your wall'-type turbines a bad buy. But what about farms? Fields are open; turbines are free-standing: it's not difficult to find space on any farm of my size (5 hectares) or bigger. Farms are already host to eyesores like huge barns, stacks of silage, slurry tanks and grain silos, all acceptable to the planners. The view is already compromised.<br /><br /><br /><br /><strong>Decentralised power stations: </strong>So imagine if every farm had a turbine or two? There are several first class turbines (like the range offered by <a href="http://www.provenenergy.co.uk/">Proven</a>, as featured in my picture) which are tailor-made for farm use. In fact, Proven are attempting to start a new way of producing wind energy called <a href="http://www.provenenergy.co.uk/proven_windcrofting.shtml">wind crofting</a>. There are tens of thousands of farms in windy Britain. Every farm, linked into the grid, could be electric energy-independent as well as feeding surplus power into the national grid. The wind is almost always blowing somewhere. (As I write, it's blowing a severe gale here!)<br /><br /><br /><br /><strong>Could be?</strong> Should be and would be if there was a scheme for feed-in tariffs like Germany's. I'd be one of the first to join! Come on, British government: get your act together and stop approving coal-fired power stations on the <a href="http://www.greenpeace.org.uk/blog/climate/the-problem-with-carbon-capture-and-storage-ccs-20080103">flimsiest of pretexts</a> (Carbon Capture and Storage -- CCS -- might perhaps someday become a reality) and tap into this massive resource of power available now, pollution-free with no decommissioning costs...<br /><br /><span style="font-family:arial;color:#cc6600;">If the practical side of renewable energy interests you, keep an (RSS feed) eye on my </span><a href="http://llangybi.blogspot.com/"><span style="font-family:arial;color:#cc6600;">Mur Crusto eco-farm blog</span></a><span style="font-family:arial;color:#cc6600;"> because my wife and I are agreed that, notwithstanding all the difficulties and lack of assistance available, we shall try and install a 6kW Proven turbine this year. As the project proceeds, I'll be posting...</span><div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com5tag:blogger.com,1999:blog-25364882.post-5643828904743340072007-10-27T17:44:00.000+01:002007-10-27T20:08:23.726+01:00Double good: building without cement<img style="FLOAT: left; MARGIN: 0px 10px 10px 0px; WIDTH: 200px; CURSOR: hand" alt="Cement factory in Derbyshire, UK, by Roger B." src="http://farm2.static.flickr.com/1270/1242592680_96b304568f_m.jpg" border="0" /><strong>Cement is a problem </strong><br />Did you know that cement manufacture creates 5% of all industrial carbon dioxide emissions? That matches the pollution output of the world's aviation industry. What's more, both are <a href="http://www.guardian.co.uk/environment/2007/oct/12/climatechange">set to increase</a>, particularly in China. Construction inevitably means cement for mortar and concrete -- or does it? Certainly for the likes of high-rise city blocks, nuclear power stations and large dams, there's no alternative. But what about ordinary housing? How much concrete needs to be used in that?<br /><strong></strong><br /><strong>Wood: a partial solution with a big bonus<br /></strong><strong><strong><a href="http://farm2.static.flickr.com/1137/1149119269_80d615d32a.jpg?v=0"><img style="FLOAT: right; MARGIN: 0px 0px 10px 10px; WIDTH: 200px; CURSOR: hand" alt="A large building in Texas, all made out of timber. By Fatty Tuna (flickr)" src="http://farm2.static.flickr.com/1137/1149119269_80d615d32a.jpg?v=0" border="0" /></a></strong><br /></strong>Building houses out of wood is nothing new in timber-rich regions like Scandinavia and North America. Wood has many advantages over bricks, mortar, steel and concrete. For one thing, it's very easy to use so buildings can be completed in just weeks rather than months. When I 'built' my first house in western Canada back in 1971, it took 3 weeks to get the entire structure completed and watertight, ready for services to be installed. When I built my house in Spain in 1989, it took more like 6 months. Why? Because there was no wood used in my Spanish house at all, that being the local style of building. Prestressed concrete beams, which are used in large numbers, are incredibly heavy to manhandle into position or cast. So are blocks, bags of cement and making and carrying endless buckets of mortar. I worked on this house throughout the construction, so I know!<br /><br />The hidden bonus of wood is that it is almost pure carbon. The growing tree grabs CO2 out of the air and converts it into sugars and, ultimately, to cellulose and lignin which is what we call wood. Everyone knows that trees sequester carbon and that they are one of several natural ecosystem services -- in this case, carbon sinks -- which counter climate change caused by humans burning fossil fuels. This is the rationale behing the burgeoning offsetting business. Plant a few trees and you can pollute as much as you want. That's what people seem to assume when guilt over squandering energy overcomes them a little.<br /><br /><br /><strong>The big issue: seeing the wood for the trees</strong><br />Even if it were true that you can assuage your travel/consumer/heating/airconditioning energy use by offsets, there is one problem which seems not to enter general thinking. Natural forests are carbon neutral. As fast as young growing trees grab carbon, dead and decaying trees (and forest fires) release it again: the carbon cycle. To make sequestering carbon in trees really work to reduce atmospheric CO2, the mature trees need to be harvested and stored in such a way that they don't decompose and release all their carbon again. Carbon storage is what happened on a massive scale over hundreds of millions of years, as coal formed from dead but not decayed trees. The carbon has become safely locked away from oxidation into the atmosphere... until humans came along (and you know the rest). Yet when you think about it, we are storing carbon all the time -- in the form of timber-framed housing construction and, to a lesser extent, as books in the world's libraries.<br /><br />So that's my point: countries which traditionally use cement in the form of concrete and mortar to build houses should change their construction practice and build from timber instead. This change of direction has several advantages:<br /><br /><ul><li>timber construction locks away carbon </li><li>it's quicker and easier</li><li>self-build is much easier and in some countries, you can buy housing kits to do this</li><li>it is essentially non-polluting unlike cement-based constructions which cause massive CO2 releases into the air, principally from cement quarrying and manufacture </li><li>if real environmental costs are taken into account, wood is far cheaper</li><li>greater demand for timber would stimulate more forestry development with yet more sequestration of carbon as a bonus. At the same time, cement manufacture would decline as demand slackened off, so reducing carbon pollution</li><li>timber can be re-used</li><li>timber-framed buildings are intrinsically warmer than stone, brick, block and concrete. In addition, it is simple to incorporate insulation in the timber frame</li><li>wood is a pleasant material to work with and beautiful to look at. Concrete is messy and heavy to move around</li></ul><p>Yes I know concrete is essential for many purposes, including the foundations (footings) of timber-framed housing. My point is simply that we <em>could</em> use a lot less of it -- a lot less -- if we wanted to. </p><div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com3tag:blogger.com,1999:blog-25364882.post-80017927238691182572007-10-09T15:22:00.000+01:002007-10-09T16:01:34.762+01:00The Future of Nuclear Power<a href="http://farm1.static.flickr.com/155/370829612_902d866475.jpg?v=0"><img style="MARGIN: 0px 10px 10px 0px; WIDTH: 400px; CURSOR: hand" alt="Sizewell nuclear power station: a large footprint (and what about rising sea-levels?) by Rob.Stoke " src="http://farm1.static.flickr.com/155/370829612_902d866475.jpg?v=0" border="0" /></a><br /><em><span style="color:#990000;">Today is the final day for anyone to make their views known about future nuclear power in the UK. I've done this on the British Government's </span></em><a href="http://nuclearpower2007.direct.gov.uk/main.asp"><em><span style="color:#990000;">Future of Nuclear Power</span></em></a><em><span style="color:#990000;"> website. Just to put you in the picture, I have </span></em><a href="http://climateextremist.blogspot.com/2007/04/nuclear-power-build-plants-underground.html"><em><span style="color:#990000;">argued for some time</span></em></a><em><span style="color:#990000;"> that, if we are to have new nuclear power stations, they should be built underground.<br /><br /></span></em><em><span style="color:#990000;"></span></em><br /><br /><br /><em><span style="color:#990000;">Here are my responses to the Government's consultation questions:</span></em><br /><br /><br /><br /><br /><br /><strong>1. Safety and security of nuclear power</strong><br /><br /><br />Siting all future nuclear plants underground is something that should be taken very seriously. This does not even seem to have been considered. Yet it has three major advantages:<br /><br /><br /><ol><br /><li>immune to military attack from the air</li><br /><li>containment unbreachable (given proper choice of ground conditions, hydrogeology and rock types) and so immune to attack from, say, a suicide bomber. Even major LOCAs would be better contained than anything above ground</li><br /><li>no need ever to remove irradiated fuel assemblies. When the reactor reaches the end of its operating lifetime, the whole facility could be sealed, complete with its spent fuel. Monitoring would be needed but because nothing is above ground, access would only be minimal. Decommissioning surface plants is turning out to be formidably expensive and all radioactive materials end up having to be sealed underground anyway in all viable scenarios</li></ol><br /><br /><p><strong>2. Transport of nuclear materials: </strong>No reprocessing is the right route, but by siting each nuclear plant underground, there would be no need for the spent fuel ever to leave the facility. It would be stored there in a facility built at the same time as the reactor containment cavern. When the reactor's life is over, both it and the spent fuel stored close by would be made safe, sealed and remotely monitored. No radioactive materials, highly active or otherwise, need ever be transported on the surface.</p><br /><br /><p><strong>3. Waste and decommissioning:</strong> Locating new reactors underground would avoid many of the serious problems of waste and dceommissioning. At the end of the reactor's life, all its fuel remains in the store which would have been constructed during the initial cavern excavations and the whole underground site becomes a remotely-monitored facility with little further need for maintenance. Such an arrangement is inherently safer than a surface reactor which will need to be guarded and monitored through at least three human generations before it can be finally removed: not a good legacy for future generations.</p><br /><br /><p><strong>4. Environmental impacts of nuclear power:</strong> If the nuclear facility was largely located underground, the surface footprint of a site would be markedly less than at present, quite apart from the safety aspect which I've already dealt with. There would be no need for a secondary containment structure since this would be provided by suitably geo-engineered natural rock in the excavated cavern. Surface buildings could all be part of the non-radioactive secondary circuits. So the heat exchangers containing the pipework for the primary circulating coolant would be underground but the high pressure steam circuit for the turbo-generators could be ducted to the surface which is where generators, transformers, cooling and other facilities would be located.</p><br /><br /><p>Regarding the space occupied by a nuclear facility versus that occupied by a windfarm, I have two comments:</p><br /><br /><ol><br /><li>most future windfarms should anyway be located offshore, so space and NIMBYism is largely irrelevant</li><br /><li>any space occupied by a windfarm remains relatively pristine. If needed, turbines and supports can be completely removed within months, leaving the site uncontaminated and as it was before. The same cannot be said of surface nuclear build because of the massive largely concrete bioshielding infrastructure required and the problem of the 'hot' reactor core which cannot be removed for over 100 years, or requires prohibitively expensive and hazardous remote-controlled decommissioning and transport of large quantities of medium level radioactive waste to a repository as yet not in existence. These 'inconvenient truths' are a prime reason why nuclear build should in future be underground.</li></ol><br /><br /><p><strong>5. Reprocessing of spent fuel: </strong>I agree that reprocessing should not be carried out. Storage for spent fuel assemblies should be 'built in' in the underground location scenario I envisage. This eliminates the need for surface transport of highly active fuel rods.</p><p><em><span style="color:#33cc00;">Obviously these remarks apply to any new nuclear build anywhere on the planet, not just the UK! At the very least, I think the onus should be on governments and the energy industry to explain why siting nuclear plants underground is NOT a good idea (if it isn't!). But I expect it will be ignored... ho hum!</span></em></p><div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com3tag:blogger.com,1999:blog-25364882.post-71386718740021658432007-10-07T13:08:00.000+01:002007-10-07T13:27:38.985+01:00The Way the Wind Blows<a href="http://www.treehugger.com/compair-jj-001.jpg"><img style="FLOAT: left; MARGIN: 0px 10px 10px 0px; WIDTH: 400px; CURSOR: hand" alt="How it all works, from Treehugger" src="http://www.treehugger.com/compair-jj-001.jpg" border="0" /></a><br /><br /><em><span style="color:#ff6600;"></span></em><br /><em><span style="color:#ff6600;"></span></em><br /><em><span style="color:#ff6600;"></span></em><br /><em><span style="color:#ff6600;"></span></em><br /><em><span style="color:#ff6600;"></span></em><br /><em><span style="color:#ff6600;"></span></em><br /><em><span style="color:#ff6600;"></span></em><br /><em><span style="color:#ff6600;"></span></em><br /><em><span style="color:#ff6600;"></span></em><br /><em><span style="color:#ff6600;"></span></em><br /><em><span style="color:#ff6600;"></span></em><br /><em><span style="color:#ff6600;"></span></em><br /><em><span style="color:#ff6600;"></span></em><br /><em><span style="color:#ff6600;"></span></em><br /><em><span style="color:#ff6600;">How could we store surplus wind power? There is a solution right under our feet.</span></em><br /><em><span style="color:#ff6600;"></span></em><br /><strong>No wind:</strong> As I was travelling on the train along the North Wales coast last Friday, I had a fine view out to the <a href="http://www.npower-renewables.com/northhoyle/" target="_blank" mce_href="http://www.npower-renewables.com/northhoyle/">North Hoyle Offshore Wind Farm</a>. It's a great sight all these turbines, each rated at 2 megawatts, like rows of white statues far out in Liverpool Bay. But there was a problem: it was a fine sunny day and no wind at all. The sea was like a millpond and the turbines were indeed like statues for they were motionless. Electrical output zero.<br /><br /><strong>Achilles Heel:</strong> And that is wind power's big problem. It only works when the wind blows so if we relied upon wind power, on fine calm days, there'd be no power at all. This is unacceptable, of course, in our modern, energy-hungry world. But now, there's a solution and its name is CAES: compressed air energy storage. Put simply, when the wind blows during the night, wind turbines generate power which is not needed since most people are asleep. If you use that power to pump air at high pressure deep into the ground, that high pressure air can be stored and later released when power is needed, driving modified gas turbines and generators.<br /><br /><strong>It works too!</strong> If you think this is unlikely to work, it already does, and much more is underway. The first CAES plant came on stream in 1978 in Huntorf, Germany and a second much larger one was commissioned in 1991 in Alabama, USA. It stores its compressed air in a mined-out salt dome 80 metres across and 300 metres tall, lying 450 metres below ground, and can use the air to supply a turbine generating 110 megawatts of electrical power continuously for some 26 hours.<br /><br /><strong>Giant battery:</strong> So just like <a href="http://www.fhc.co.uk/dinorwig.htm" target="_blank" mce_href="http://www.fhc.co.uk/dinorwig.htm">hydroelectric pumped storage</a>, wind powered compressed air storage could act like a giant battery, evening out fluctuations in demand by topping up the grid when needed. There are plenty of geologically-suitable locations all over the world so maybe we should push politicians and utilities to get moving on CAES. To find out more, read <a href="http://environment.newscientist.com/channel/earth/mg19526231.700-rocks-could-be-novel-store-for-wind-energy.html" target="_blank" mce_href="http://environment.newscientist.com/channel/earth/mg19526231.700-rocks-could-be-novel-store-for-wind-energy.html">this New Scientist article</a> and <a href="http://www.treehugger.com/files/2007/10/saving_extra_wind_energy.php" target="_blank" mce_href="http://www.treehugger.com/files/2007/10/saving_extra_wind_energy.php">this Treehugger</a> piece.<div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com4tag:blogger.com,1999:blog-25364882.post-86593295771195896122007-09-22T10:42:00.000+01:002007-09-22T11:11:32.255+01:00The problem with infrastructure<a href="http://farm1.static.flickr.com/152/384185962_c5ac60752b.jpg?v=0"><img style="FLOAT: left; MARGIN: 0px 10px 10px 0px; WIDTH: 320px; CURSOR: hand" alt="SUV and threatening sky, By Shuck" src="http://farm1.static.flickr.com/152/384185962_c5ac60752b.jpg?v=0" border="0" /></a>Okay, you've decided that your SUV is a bad thing. You want to reduce your carbon footprint and buy a small car instead. Great... or is it?<br /><div></div><br /><div>Problem is, what do you do with the unwanted SUV? You sell it, of course, and thereby in some cases (like buying a new car to replace it) actually <em>make matters worse</em>. Now there are two cars being used instead of one. The SUV that you used to own is now owned by someone else. It's just as climate-unfriendly as it was when you owned it and it will continue to pump out pollution for years to come. See what I mean?</div><br /><div></div><br /><div>Solutions? The ideal would be for you to forego the money from the SUV's sale and have it broken up with all its component parts recycled into something more useful. Get real, you might say, that's never going to happen. But it could happen if some special fund were to exist whereby you could get back the full second-hand value whilst the vehicle was permanently taken off-road (!) and recycled. This, done properly, could yield quite a deal of valuable materials as well. </div><br /><div></div><br /><div>Who would provide this fund and new infrastructure? Any ideas? I suppose some sort of consortium between governments and industry backed up by smart tax structures would do the job. And the principle could extend to other carbon-hungry infrastructure: giant <a href="http://climateextremist.blogspot.com/2007/07/holidays-and-gas-guzzlers.html">motorhomes</a>, Hummers, aircraft... anything that could be sold on and otherwise continue to pollute for years to come. How can we make it (or something like it) happen?</div><div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com0tag:blogger.com,1999:blog-25364882.post-81831209346180167372007-08-14T15:05:00.000+01:002007-08-14T17:26:02.337+01:00Future foods<a href="http://www.homesweethomefront.co.uk/images/gif/hshf_img_dig.gif"><img style="FLOAT: left; MARGIN: 0px 10px 10px 0px; WIDTH: 200px; CURSOR: hand" alt="Thank you to homesweethomefront.co.uk for this image. There are several more on this site." src="http://www.homesweethomefront.co.uk/images/gif/hshf_img_dig.gif" border="0" /></a><em>It's been a difficult year for food growers throughout Europe. You've probably seen some of the headlines about grape harvest failures, potato blight and veg rotting in the fields. Food prices will almost certainly be going up. Parts of the UK have also been seriously flooded though this pales into insignificance when compared to the weather horrors suffered by tens of millions of Indians, Bangladeshis and Chinese in recent weeks. So what does the planet have in store for us? What can we do about it?</em><br /><br /><div><br /><br /><div><strong>Worst summer in years:</strong> This year has been the <a href="http://llangybi-organics-news.blogspot.com/2007/08/difficult-summer.html">worst</a> since we started growing vegetables 6 years ago for our <a href="http://www.llangybi-organics.co.uk/">Llangybi Organics</a> co-op. The summer has been lousy for most of the growing period up to today (with gale and heavy rain warnings yet again from the Met Office). We have lost whole crops due to wind and rain. Potato blight (to name but one issue) struck early and quickly destroyed even the blight resistant varieties we grow. The result? We've had to work doubly hard to save enough veg for our customers by preventing slugs eating the lot, combatting moles and voles, nursing surviving veg to prevent pests and disease outbreaks (much more difficult if you're organic as we are) and re-sowing some veg while there's still time. Oh, and then there were the weeds, the worst weeds ever meaning long days of hoeing and mostly handweeding.<br /></div><br /><br /><div><strong>And the future? </strong>Summers like this are in line with climate model predictions. For us in northern Europe (and, particularly, north and west Britain and Ireland), we can expect more of this sort of thing. More rain and more wind as global temperatures climb for the simple reason that warmer air holds more water vapour. So we're going to have to get used to it. The Mediterranean may roast and shrivel but we'll be cool, wet and windy.</div><br /><br /><div><strong>Food shortages:</strong> Britain is a rich country and the solution to food shortages would normally be to import more of it from somewhere else. But with a world population approaching 7 billion, there's going to be demand from everywhere which has been affected by floods, storms and droughts. Rich countries can, for a time, import what they need because they can afford to pay over the odds. Then what? The poor, as ever, will suffer and die... and we in the rich North might have to pay more for our food and have much less choice than before. Supermarkets won't be so super.</div><br /><br /><div><strong>Local food; secure food: </strong>Maybe with increasing prices and more shortages, people used to loading their trolleys each week at Tesco will begin to wonder if maybe buying local isn't so bad an idea after all. As well as fresh food you get security: food security. We at Llangybi Organics don't propose to give up in the face of climatic adversity. We feel we, like many others, are setting an example which will be needed more and more everywhere as shortages begin to bite. We can't compete with supermarkets whose cheap food is based, ulitmately, on exploitation, but we can offer our customers staple vegetables and more, especially if they come and help us out by volunteering. We do, by the way, already have a couple of volunteers whose help is invaluable and who help us to feel part of a rather special community. It's a good feeling.<br /><strong></strong></div><br /><br /><div><strong>Thinking the unthinkable:</strong> Suppose international crises became so severe that major food importing ceased to be an option? It could be small local growers who should be there to fill the gaps. Sadly, most small growers and family farms have been destroyed by the supermarket system of grabbing the cheapest food from anywhere in the world without paying the true price (in labour costs and especially in transport 'costs' in which pollution doesn't register). But a hungry population without cheap supermarkets and cheap transport is going to need small growers again. We would be very unwise not to think in these terms so that if the going gets rough, there are still options open.</div><br /><br /><div><strong>Climate changes, Digging for Victory and small farms: </strong><a href="http://www.homesweethomefront.co.uk/images/gif/hshf_img_grow_your_own_food.gif"><img style="FLOAT: right; MARGIN: 0px 0px 10px 10px; WIDTH: 200px; CURSOR: hand" alt="Spades, not ships. Nor HGVs nor aircraft, eh?" src="http://www.homesweethomefront.co.uk/images/gif/hshf_img_grow_your_own_food.gif" border="0" /></a><br />Our aim on our small farm was to provide quality veg and fruit for people within walking or cycling distance. It hasn't worked out like that as most people in the village prefer 'choice' offered by supermarkets and they have cars to fulfill their requirements. In the future, it may not be like that. People may suddenly begin to appreciate their local veg farm. Will we be around for long enough for that to happen? The speed at which the world's climate seems to be changing may mean that we could be. </div><br /><div></div><br /><div><strong>City folk and their food: </strong>But what of the people in the cities? How will they get their food? Will they be able or willing to repeat the wartime 'Dig For Victory' experience when everyone grew as much food as they could in their gardens or on their allotments? Most people these days are so disconnected from food producing that they wouldn't know where to begin. The expertise is still around in the few remaining small farms, horticultural businesses and that dedicated body of allotment-holders. That could help.<br /><br /></div><div><blockquote><br /><p><em><span style="color:#33cc00;">Dig! Dig! Dig! And your muscles will grow big<br />Keep on pushing the spade<br />Don’t mind the worms<br />Just ignore their squirms<br />And when your back aches laugh with glee<br />And keep on diggin’<br />Till we give our foes a Wiggin’<br />Dig! Dig! Dig! to Victory</span></em></p><p><span style="font-size:78%;">from </span><span style="font-size:78%;"><a href="http://www.homesweethomefront.co.uk/web_pages/hshf_dig_for_victory_pg.htm">HomeSweetHomeFront</a> </span></p><p><br /> </p></blockquote></div><div><strong>Disclaimer and final cliche: </strong>This post is not some long-winded way of promoting ourselves and advertising for customers. We have as many customers as we can manage. The only way to increase production, if we wanted to, would be to dig up some more of our land. Out of the question for a couple whose combined ages amount to 119 years. Even so, the potential to provide food for many more people is there on our farm and others around us if only vegetables were valued as <a href="http://en.wikipedia.org/wiki/MyPyramid">central to our health</a>. Instead, local farmers find it simpler to grow cattle and sheep. They're right: it is simpler. But the same land could grow veg for ten times the number of people than the animals will feed if needed. Now that's food for thought.</div></div><div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com1tag:blogger.com,1999:blog-25364882.post-4641933785586316422007-08-06T11:35:00.000+01:002007-08-06T11:13:37.753+01:00Making climate cool<a href="http://farm1.static.flickr.com/121/291390779_a8d8a7388e_m.jpg"><img style="DISPLAY: block; MARGIN: 0px auto 10px; WIDTH: 240px; CURSOR: hand; TEXT-ALIGN: center" alt="Start of the Climate Change March, 2006, by annecspear" src="http://farm1.static.flickr.com/121/291390779_a8d8a7388e_m.jpg" border="0" /></a><br /><div><em><span style="color:#009900;">You're on a trip away. Would you re-use your hotel-provided towels if you were asked to do so for environmental reasons (less use of resources and subsequent pollution)? Or would you re-use them because you knew most of the other hotel guests did so?</span></em><br /><br /><br /><br /><strong>All we like sheep... </strong>That's a no-brainer, you'd think. The answer would be the former, wouldn't it? Well actually no, it isn't. A recent survey in the US showed that people were strongly influenced by what they thought other people were doing. This sheep-like desire to follow the crowd overrode any other concerns. Stupid people, you might think, but we all do it, usually unconsciously. That's the whole basis of the giant fashion industry and advertising. We follow the fashions in clothes, hairstyles, cars, holidays or whatever it may be largely because others do too. You remember the old song? ...<br /><br /><br /><blockquote><span style="color:#ff6600;"><em>Ev'rybody's doin' it<br />Doin' it, doin' it<br />Ev'rybody's doin' it<br />Doin' it, doin' it</em></span><br /></blockquote><br /><strong>Is there a useful lesson to be learned</strong>? I think so. We have to somehow make caring about the planet <em>cool</em>. That was the ultimate purpose of Live Earth on 7/7/07 and the reason the celebrities were engaged to perform. Celebs are seen by many to be the ultimate cool; the ultimate trend-setters. So Al Gore's laudable attempt to get them onto a new climate care bandwagon made perfect sense. We need these perceived trendsetters to make climate care cool and to do that, the celebs need to set good examples, something many of them conspicuously don't do. So, celebrities and everyone else, let's do it. Let's make climate cooooool! </div><div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com2tag:blogger.com,1999:blog-25364882.post-58901087596751572202007-07-01T18:52:00.000+01:002007-07-16T11:19:50.665+01:00Holidays and gas-guzzlers<a href="http://1.bp.blogspot.com/_PLZz45r2tzs/Rpdpy_uwFoI/AAAAAAAAAUc/giX3LKqocBY/s1600-h/IMG_5841.JPG"><img id="BLOGGER_PHOTO_ID_5086650628960163458" style="DISPLAY: block; MARGIN: 0px auto 10px; CURSOR: hand; TEXT-ALIGN: center" alt="Large motorhome with small car on trailer, France 2005" src="http://1.bp.blogspot.com/_PLZz45r2tzs/Rpdpy_uwFoI/AAAAAAAAAUc/giX3LKqocBY/s320/IMG_5841.JPG" border="0" /></a><br /><div><a href="http://4.bp.blogspot.com/_PLZz45r2tzs/RofqeCfyOsI/AAAAAAAAADo/kF3CN_b5YME/s1600-h/IMG_5841.JPG"></a><strong>Camping and motorhomes: </strong>Whilst on a car plus small tent camping holiday in the Western Isles of Scotland in June, I was struck by the sheer numbers of SUVs and luxury motor homes on the narrow roads. I know that SUV fuel economy is poor but I wondered about the massive bus-sized motorhomes. It's difficult to find information about fuel consumption of these energy-guzzling behemoths. Presumably fuel economy is not one of the considerations people who buy or rent them take into account. I did discover that smaller models appear to manage around 20mpg (similar to SUVs) whilst the larger monsters seem in some cases to clock up an abysmal 10mpg or even less. For comparison, <a href="http://climateextremist.blogspot.com/2006/05/slow-is-smart.html">my car</a> achieves an average fuel consumption of 63 mpg or 4.4 l/100km. If that sounds a little 'holier than thou', it's not meant to be. I'm still using fossil fuel for my holiday and, as in the words of the Frank Sinatra song, you can't have one without the other.<br /><br /><br /><blockquote><br /><p><span style="color:#ff6600;"><em>Love and marriage, love and marriage<br />Go together like a horse and carriage<br />This I tell you brother<br />You can't have one without the other</em></span></p></blockquote><br /><p></p><br /><p>Or can you? Maybe the 'horse and carriage' bit hints at an alternative way to have a <a href="http://climateextremist.blogspot.com/2006/12/have-noff-day.html">NoFF</a> holiday!? There are certainly a few brave cyclists who carry all their kit in paniers and manage to survive their holidays. I'm full of admiration for them.<br /><br /><strong>The 'real' world: </strong>Back to the 'real' world of motorhome holidays. I have in recent years noted a new trend. Apart from all the 'necessities' like satellite TV and central heating, some motorhomes have a small car attached to the back end, either towed directly or on a trailer (as in the above photo). That can't do anything good for fuel economy either.<br /><br /><br /><strong>Rough wild camping: </strong>Words fail me. I feel guilty car camping at all but now that I've reached the age of 60, I find backpacking in places that are generally wet and windy less than pleasurable. But I still do it: I had a week in May in the Scottish Highlands (what I have styled a <a href="http://climateextremist.blogspot.com/2006/12/have-noff-day.html">NoFF</a> week in an earlier post) which was hard work, given rather rough weather and mostly no tracks in my chosen wilderness (west of Bridge of Orchy which offers several high mountains like Stob Gabhar and Stob Coir'an Albannaich, not to mention the cloudmaker, Ben Starav). And yes, I got there by bus and train. I find a week of really 'roughing it' does wonders for making me appreciate all the relative comfort and luxury I have on my small farm in Wales. A hot shower seems like heaven after a week of washing in a billy-full of cold water between rain or sleet squalls. (Yes, it really was like that some days.)</p><br /><br /><br /><p><strong>More, more! </strong>More comfort and more "boys' toys" playthings (like jet skis) are the trend, it seems, even as the looming tragedy of climate change begins to engulf us: we still deny it's happening and seem to be increasing our energy consumption rather than reducing it. I don't blame anyone for this. Who doesn't like to be warm and comfortable and having fun? But I despair of anyone changing their ways until unpleasant circumstances force a change. We do seem to be <a href="http://climateextremist.blogspot.com/2006/04/trapped-its-planet-stupid.html">trapped</a>. What we enviro people hope for is a voluntary change in attitudes. Meanwhile, the <a href="http://climateextremist.blogspot.com/2007/03/swindled-undermining-fragile-consensus.html">climate-change-is-natural 'deniers</a>' have a lot to answer for in the battle for hearts and minds.</p><br /><br /><p><strong>"It's a long way to Tipperary"</strong> (in the words of the cheery First World War song) and we really do have "a long way to go".</p></div><div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com3tag:blogger.com,1999:blog-25364882.post-1827241143594150962007-05-07T12:45:00.000+01:002007-05-07T13:03:30.409+01:00Condoms combat climate change<a href="http://4.bp.blogspot.com/_PLZz45r2tzs/Rgpk0eVe_GI/AAAAAAAAAC0/i-toDtxp3fQ/s320/babies.gif"><img style="DISPLAY: block; MARGIN: 0px auto 10px; WIDTH: 267px; CURSOR: hand; HEIGHT: 96px; TEXT-ALIGN: center" height="106" alt="" src="http://4.bp.blogspot.com/_PLZz45r2tzs/Rgpk0eVe_GI/AAAAAAAAAC0/i-toDtxp3fQ/s320/babies.gif" align="left" border="0" /></a><br /><div>I make no apology for copying this important news release from the <a class="mainheader" href="http://www.optimumpopulation.org/index.html">Optimum Population Trust</a> in its entirety. It says - crisply and concisely - that population growth is the chief cause of climate change, more or less exactly what I had said in my <a href="http://climateextremist.blogspot.com/2007/03/taboo-topic-population-time-bomb.html">Taboo topic: the population time bomb </a>piece in March. Although the figures quoted refer to the UK, the principle is universal.</div><p></p><p><div><span style="color:#cc0000;"></span></div><div><span style="color:#cc0000;">COMBAT CLIMATE CHANGE WITH FEWER BABIES – OPT REPORT</span></div><p></p><p><div><span style="color:#cc0000;">A radical form of “offsetting” carbon dioxide emissions to prevent climate change is proposed today – having fewer children. </span></div><span style="color:#cc0000;"><div><br />Each new UK citizen less means a lifetime carbon dioxide saving of nearly 750 tonnes, a climate impact equivalent to 620 return flights between London and New York*, the Optimum Population Trust says in a new report. </div><div><br />Based on a “social cost” of carbon dioxide of $85 a tonne**, the report estimates the climate cost of each new Briton over their lifetime at roughly £30,000. The lifetime emission costs of the extra 10 million people projected for the UK by 2074 would therefore be over £300 billion. ***<br />A 35-pence condom, which could avert that £30,000 cost from a single use, thus represents a “spectacular” potential return on investment – around nine million per cent. </div><div><br />The report adds: “The most effective personal climate change strategy is limiting the number of children one has. The most effective national and global climate change strategy is limiting the size of the population. </div><div><br />“Population limitation should therefore be seen as the most cost-effective carbon offsetting strategy available to individuals and nations – a strategy that applies with even more force to developed nations such as the UK because of their higher consumption levels.” </div><div><br />A Population-Based Climate Strategy, the OPT’s latest research briefing, is published today (Monday, May 7 2007). It says human population growth is widely acknowledged as one of the main causes of climate change yet politicians and environmentalists rarely discuss it for fear of causing offence. The result is that a “de facto taboo” exists, throughout civil society and government. </div><div><br />One consequence is that “couples making decisions about family size do so in the belief that it is a matter for them and their personal preferences alone: the public debate and awareness that might have encouraged them to think about the implications of their choices for their fellow citizens, the climate and the wider environment have been missing.” </div><div><br />Other points in the briefing include:</div><ul><li>Providing low-carbon electricity for the 11 million extra UK households forecast for 2050 would mean building seven more Sizewell B nuclear power stations or 10-11,000 wind turbines. </li><li>Global population growth between now and 2050 is equivalent in carbon dioxide emissions terms to the arrival on the planet of nearly two more United States, over two Chinas, 10 Indias or 20 UKs. </li><li>Even if by 2050 the world had managed to achieve a 60 per cent cut in its 1990 emission levels, in line with the Intergovernmental Panel on Climate Change’s recommendations and the UK Government’s target, almost all of it would be cancelled out by population growth. </li></ul><p>It concludes: “A population-based [climate] strategy…involves fewer of the taxes, regulations and other limits on personal freedom and mobility now being canvassed in response to climate change…To sum up, it would be easier, quicker, cheaper, freer and greener.” </p><p>Valerie Stevens, co-chair of the OPT, said: “We appreciate that asking people to have fewer children is not going to make us popular in some quarters. Equally, expressing concern about the environmental impacts of mass migration, which currently accounts for the bulk of population growth in the UK and will have a major effect on Britain’s carbon emissions, is a quick route to being labelled racist. But these are hugely important issues and the unfortunate fact is that both politicians and the environmental movement are in denial about them. It’s high time we started discussing them like adults and confronting the real challenges of climate change.”<br />She added: “Government fiscal measures that support child-bearing however many children a couple has, send a signal that increasing numbers are good for the welfare of everyone. In a world needing to diminish its consumption of key resources, especially energy, this is sadly no longer true.” </p><p>NOTES<br />*Based on 1.2 tonnes of carbon dioxide per return flight (Department for Transport).<br />**Stern Review, October 2006.<br />***Fertility levels in the UK have been below replacement level (2.1 children per woman) for around 30 years. Inward migration is currently the main driver of UK population growth, accounting for over 80 per cent of projected increase to 2074. However, even without the effects of immigration, demographic momentum – the result of the large numbers of children produced in earlier age bands reaching child-bearing age – would have prevented any population decline up to the present. The total fertility rate (TFR) peaked in 1964 at 2.95 children per woman, but this was followed by a rapid fall in the number of births per woman in the 1970s. In 2005 the TFR in the UK was 1.78 children; it is expected to level off at 1.74 (Office of National Statistics).<br />The full briefing is available on the OPT’s Briefings and Submissions page. </span></p><div class="blogger-post-footer">RSS Atom feed</div>Unknownnoreply@blogger.com4