If anything, an obstruction or impediment to fluid flows resulting from wind energy extraction will tend to reduce heat redistribution, and that will help restore the temperature differential between tropics and poles which has been harmed by the polar amplification of global warming
Logically, it will help to restore the polar ice, or at least prevent it from retreating further as fast. It could even help maintain ocean circulation, and help prevent an anoxic event. A On 12 Jul 2011 13:22, "Mike MacCracken" <mmacc...@comcast.net> wrote: > Dear David--I was going to ask a similar question to Bala¹s‹as this has > actually been an ongoing argument in some circles of the energy community, > with a scientific study by a Royal Society lead physicist in their energy > analysis talking about a limit based on extracting a share of the existing > atmospheric KE and Mark Jacobson at Stanford saying there is plenty of KE as > it will be restored. > > It seems to me that the KE pulled out will be replaced‹if not, the > atmosphere would eventually not be moving and so a huge equator-pole > temperature gradient would build up. With solar energy concentrated at the > low latitudes and IR loss in excess at high latitudes, the atmosphere will > be seeking balance; take some energy out and the atmosphere will try to > restore it, rather like what happens when one puts a rock in a stream, maybe > with a bit different flow, but I would not think significantly less KE. > Right? > > Mike > > > > On 7/12/11 7:25 AM, "Govindasamy Bala" <bala....@gmail.com> wrote: > >> Hi David, >> >> Couple of questions. >> Generation of wind energy would increase the KE dissipation rate but this is >> not an external forcing to the climate system. I agree there would be local >> and regional climate changes but there should be no global mean warming. >> Right? >> >> The current KE dissipation rate is about 2 watts/m^2. Over land, this >> translates to about 300 TW. Suppose wind farms extract 150 TW (which may be >> impractical), the dissipation rate over land will increase to 3 Wm^2. Don't >> you think the KE (or available PE) generation rate in the atmosphere would >> correspondingly increase? Of course these would be large regional climate >> changes. >> >> Bala >> >> On Tue, Jul 12, 2011 at 8:37 AM, David Keith <ke...@ucalgary.ca> wrote: >>> Responding to a VERY old thread on wind power: >>> >>> The only link to geoengineering here is that there is a possibility of >>> manipulating wind turbine drag for weather control, see: >>> >>> At 10¹s TW scale extraction of wind does begin to be constrained by the >>> generation of kinetic energy. I led the a joint NCAR-GFDL group that >>> published the first paper on this topic see: >>> David W. Keith et al, The influence of large-scale wind-power on global >>> climate. Proceedings of the National Academy of Sciences, 101, p. >>> 16115-16120. >>> http://people.ucalgary.ca/~keith/papers/66.Keith.2004.WindAndClimate.e.pdf >>> < http://people.ucalgary.ca/%7Ekeith/papers/66.Keith.2004.WindAndClimate.e.pdf >>> > >>> >>> See >>> http://people.ucalgary.ca/~keith/papers/94.Kirk-Davidoff.SurfaceRoughnessJAS . >>> p.pdf >>> < http://people.ucalgary.ca/%7Ekeith/papers/94.Kirk-Davidoff.SurfaceRoughnessJ >>> AS.p.pdf> for a paper that says a bit about why it happens. >>> >>> The following web page gives and overview but it¹s now out of date: >>> http://people.ucalgary.ca/~keith/wind.html >>> <http://people.ucalgary.ca/%7Ekeith/wind.html> >>> >>> Alvia¹s comment that about ³kinetic energy, i.e. the motion of molecules², >>> confuses the physics. Kinetic energy is macroscopic velocity, random motion >>> of molecules is just heat. It is true that large scale production and >>> dissipation of kinetic energy must balance, have a look at Peixoto and Oort¹s >>> the Physics of Climate or a short encyclopedia article I one wrote on >>> atmospheric energetics: >>> http://people.ucalgary.ca/~keith/papers/15.Keith.1996.Energetics.s.pdf >>> < http://people.ucalgary.ca/%7Ekeith/papers/15.Keith.1996.Energetics.s.pdf> >>> >>> Bottom lines: >>> >>> 1. Commonly cited estimates for global wind power potential are too large. On >>> cannot get to 100 TW in any practical scheme I know about. >>> >>> 2. At even a few TW large scale climate effects will begin to be important. >>> But, this does not say we should not make a few TW of wind, just that--like >>> any energy technology‹there are tradeoffs. >>> >>> David >>> >>> From: geoengineering@googlegroups.com >>> [mailto:geoengineering@googlegroups.com] On Behalf Of Nando >>> Sent: Saturday, April 02, 2011 8:25 AM >>> To: agask...@nc.rr.com >>> Cc: andrew.lock...@gmail.com; geoengineering >>> Subject: Re: [geo] Wind and wave energies are not renewable after all >>> >>> My reading of the article suggested that the authors of the study were >>> principally claiming that wind has an impact on climate, so it is already >>> being "used". What wasn't clear from the article was what type of impact >>> reducing the energy level of winds all over the globe through the prolific >>> use of wind turbines might have. In a warming world, I understand we should >>> expect stronger winds. On a simplistic generalized level that might not be >>> relevant to local climate, slowing those stronger winds down might have >>> an ameliorating effect on climate change. Hence the claim that "The magnitude >>> of the changes was comparable to the changes to the climate caused by >>> doubling atmospheric concentrations of carbon dioxide" might not be as bad as >>> it is made to seem. >>> >>> >>> >>> As usually, I'm grasping at straws, but as a layman, that's what stood out >>> for me. >>> >>> >>> >>> Nando >>> >>> On Sat, Apr 2, 2011 at 3:15 PM, Alvia Gaskill <agask...@nc.rr.com> wrote: >>> >>> Wind and wave energy are the result of the conversion of solar energy into >>> kinetic energy, i.e. the motion of molecules. Once converted into kinetic >>> energy it's a use it or lose it proposition. Extracting kinetic energy from >>> the atmosphere or the ocean doesn't mean it won't be replaced by more energy >>> from sunlight. Planting more trees will also intercept winds, albeit without >>> the electricity generation. Who funded this research? The same people who >>> want to prevent contact with alien civilizations? I note that the Royal >>> Society was also a party to that one too. Note to Royal Society. When you >>> actually find something under the bed I should be afraid of, wake me up. >>> >>>> ----- Original Message ----- >>>> >>>> From: Andrew Lockley <mailto:and...@andrewlockley.com> >>>> >>>> To: geoengineering <mailto:geoengineering@googlegroups.com> >>>> >>>> Sent: Friday, April 01, 2011 8:10 >>>> >>>> Subject: [geo] Wind and wave energies are not renewable after all >>>> >>>> >>>> Wind and wave energies are not renewable after all >>>> · 30 March 2011 by Mark Buchanan >>>> <http://www.newscientist.com/search?rbauthors=Mark+Buchanan> >>>> · Magazine issue 2806 <http://www.newscientist.com/issue/2806> >>>> . Subscribe and save >>>> <http://www.newscientist.com/subscribe?promcode=nsarttop> >>>> · For similar stories, visit the Energy and Fuels >>>> <http://www.newscientist.com/topic/energy-fuels> and Climate Change >>>> <http://www.newscientist.com/topic/climate-change> Topic Guides >>>> >>>> Editorial: "The sun is our only truly renewable energy source >>>> < http://www.newscientist.com/article/mg21028062.500-the-sun-is-our-only-trul >>>> y-renewable-energy-source.html> " >>>> Build enough wind farms to replace fossil fuels and we could do as much >>>> damage to the climate as greenhouse global warming >>>> WITNESS a howling gale or an ocean storm, and it's hard to believe that >>>> humans could make a dent in the awesome natural forces that created them. >>>> Yet that is the provocative suggestion of one physicist who has done the >>>> sums. >>>> He concludes that it is a mistake to assume that energy sources like wind >>>> and waves are truly renewable. Build enough wind farms to replace fossil >>>> fuels, he says, and we could seriously deplete the energy available in the >>>> atmosphere, with consequences as dire as severe climate change. >>>> Axel Kleidon of the Max Planck Institute for Biogeochemistry in Jena, >>>> Germany, says that efforts to satisfy a large proportion of our energy needs >>>> from the wind and waves will sap a significant proportion of the usable >>>> energy available from the sun. In effect, he says, we will be depleting >>>> green energy sources. His logic rests on the laws of thermodynamics, which >>>> point inescapably to the fact that only a fraction of the solar energy >>>> reaching Earth can be exploited to generate energy we can use. >>>> When energy from the sun reaches our atmosphere, some of it drives the winds >>>> and ocean currents, and evaporates water from the ground, raising it high >>>> into the air. Much of the rest is dissipated as heat, which we cannot >>>> harness. >>>> At present, humans use only about 1 part in 10,000 of the total energy that >>>> comes to Earth from the sun. But this ratio is misleading, Kleidon says. >>>> Instead, we should be looking at how much useful energy - called "free" >>>> energy in the parlance of thermodynamics - is available from the global >>>> system, and our impact on that. >>>> Humans currently use energy at the rate of 47 terawatts (TW) or trillions of >>>> watts, mostly by burning fossil fuels and harvesting farmed plants, Kleidon >>>> calculates in a paper to be published in Philosophical Transactions of the >>>> Royal Society <http://arxiv.org/abs/1103.2014> . This corresponds to roughly >>>> 5 to 10 per cent of the free energy generated by the global system. >>>> "It's hard to put a precise number on the fraction," he says, "but we >>>> certainly use more of the free energy than [is used by] all geological >>>> processes." In other words, we have a greater effect on Earth's energy >>>> balance than all the earthquakes, volcanoes and tectonic plate movements put >>>> together. >>>> Radical as his thesis sounds, it is being taken seriously. "Kleidon is at >>>> the forefront of a new wave of research, and the potential prize is huge," >>>> says Peter Cox, who studies climate system dynamics at the University of >>>> Exeter, UK. "A theory of the thermodynamics of the Earth system could help >>>> us understand the constraints on humankind's sustainable use of resources." >>>> Indeed, Kleidon's calculations have profound implications for attempts to >>>> transform our energy supply. >>>> Of the 47 TW of energy that we use, about 17 TW comes from burning fossil >>>> fuels. So to replace this, we would need to build enough sustainable energy >>>> installations to generate at least 17 TW. And because no technology can ever >>>> be perfectly efficient, some of the free energy harnessed by wind and wave >>>> generators will be lost as heat. So by setting up wind and wave farms, we >>>> convert part of the sun's useful energy into unusable heat. >>>> "Large-scale exploitation of wind energy will inevitably leave an imprint in >>>> the atmosphere," says Kleidon. "Because we use so much free energy, and more >>>> every year, we'll deplete the reservoir of energy." He says this would >>>> probably show up first in wind farms themselves, where the gains expected >>>> from massive facilities just won't pan out as the energy of the Earth system >>>> is depleted. >>>> Using a model of global circulation, Kleidon found that the amount of energy >>>> which we can expect to harness from the wind is reduced by a factor of 100 >>>> if you take into account the depletion of free energy by wind farms. It >>>> remains theoretically possible to extract up to 70 TW globally, but doing so >>>> would have serious consequences. >>>> Although the winds will not die, sucking that much energy out of the >>>> atmosphere in Kleidon's model changed precipitation, turbulence and the >>>> amount of solar radiation reaching the Earth's surface. The magnitude of the >>>> changes was comparable to the changes to the climate caused by doubling >>>> atmospheric concentrations of carbon dioxide (Earth System Dynamics, DOI: >>>> 10.5194/esd-2-1-2011 <http://dx.doi.org/10.5194/esd-2-1-2011> ). >>>> "This is an intriguing point of view and potentially very important," says >>>> meteorologist Maarten Ambaum of the University of Reading, UK. "Human >>>> consumption of energy is substantial when compared to free energy production >>>> in the Earth system. If we don't think in terms of free energy, we may be a >>>> bit misled by the potential for using natural energy resources." >>>> This by no means spells the end for renewable energy, however. >>>> Photosynthesis also generates free energy, but without producing waste heat. >>>> Increasing the fraction of the Earth covered by light-harvesting vegetation >>>> - for example, through projects aimed at "greening the deserts" - would mean >>>> more free energy would get stored. Photovoltaic solar cells can also >>>> increase the amount of free energy gathered from incoming radiation, though >>>> there are still major obstacles to doing this sustainably (see "Is solar >>>> electricity the answer?") >>>> < http://www.newscientist.com/article/mg21028063.300-wind-and-wave-energies-a >>>> re-not-renewable-after-all.html?full=true#bx280633B1> . >>>> In any event, says Kleidon, we are going to need to think about these >>>> fundamental principles much more clearly than we have in the past. "We have >>>> a hard time convincing engineers working on wind power that the ultimate >>>> limitation isn't how efficient an engine or wind farm is, but how much >>>> useful energy nature can generate." As Kleidon sees it, the idea that we can >>>> harvest unlimited amounts of renewable energy from our environment is as >>>> much of a fantasy as a perpetual motion machine. >>>> Is solar electricity the answer? >>>> A solar energy industry large enough to make a real impact will require >>>> cheap and efficient solar cells. Unfortunately, many of the most efficient >>>> of today's thin-film solar cells require rare elements such as indium and >>>> tellurium, whose global supplies could be depleted within decades >>>> < http://www.newscientist.com/article/dn16550-why-sustainable-power-is-unsust >>>> ainable.html> . >>>> For photovoltaic technology to be sustainable, it will have to be based on >>>> cheaper and more readily available materials such as zinc and copper, says >>>> Kasturi Chopra of the Indian Institute of Technology, New Delhi. >>>> Researchers at IBM showed last year that they could produce solar cells from >>>> these elements >>>> < http://onlinelibrary.wiley.com/doi/10.1002/adma.200904155/abstract;jsession >>>> id=A766B41341BD4059B74B2F28AE9B8A80.d03t03?systemMessage=Wiley+Online+Librar >>>> y+will+be+disrupted+2nd+Apr+from+10-12+BST+for+monthly+maintenance> along >>>> with tin, sulphur and the relatively rare element selenium. These >>>> "kesterite" cells already have an efficiency comparable with commercially >>>> competitive cells, and it may one day be possible to do without the >>>> selenium. >>>> Even if solar cells like this are eventually built and put to work, they >>>> will still contribute to global warming. That is because they convert only a >>>> small fraction of the light that hits them, and absorb most of the >>>> rest, converting it to heat that spills into the environment >>>> < http://www.newscientist.com/article/mg20026845.200-heat-we-emit-could-warm- >>>> the-earth.html> . Sustainable solar energy may therefore require cells that >>>> reflect the light they cannot use. > > -- > You received this message because you are subscribed to the Google Groups "geoengineering" group. > To post to this group, send email to geoengineering@googlegroups.com. > To unsubscribe from this group, send email to geoengineering+unsubscr...@googlegroups.com. > For more options, visit this group at http://groups.google.com/group/geoengineering?hl=en. > -- You received this message because you are subscribed to the Google Groups "geoengineering" group. To post to this group, send email to geoengineering@googlegroups.com. To unsubscribe from this group, send email to geoengineering+unsubscr...@googlegroups.com. For more options, visit this group at http://groups.google.com/group/geoengineering?hl=en.