[Vision2020] Realclimate.org: Albedo of Solar Panels: Popular Book

donald edwards donaledwards at hotmail.com
Sun Nov 8 18:10:08 PST 2009


Interesting to say the least.  I saw a piece about Freakonomics on 20/20 (the tv show) a few years ago then recently saw another promoting Superfreakonomics.  It's easy to dismiss their findings as entertainment value only; such as, how deaths decrease when there are no available hospitals, but you point out that there is completely false information in them.  The hospital issue is skewed because their data is only taken from an example from Canada during a healthcare worker strike.  It would be obvious that for a short period during a strike there would be no recorded deaths in the affected hopsitals.

 

I see my post from some time ago where you answered my question about whether a large solar field would reflect enough light to counter the loss of polar ice; thus helping to cool the Earth until the ice returned.  I hadn't seen your reply concerning that till just now and I guess it would be obvious that solar panels absorb light and heat so they wouldn't really have reflective properties.  I had been pondering then that they are kind of shiny and usually covered in glass so they might help to bounce back some heat.  

 

Hopefully the work on increasing efficiency of solar panels to 80% or better by absorbing something like 7 layers of the light spectrum in a sandwiched nano-tech inspired panel that has the same surface area as existing single spectrum panels will be coming soon.  This would seem like a technology worth investng in before wasting all the energy required to convert to so called "Clean Coal" being touted lately.

 

Thank you for your studies and keeping us informed.

 

Don

 

p.s. I hope you didn't take my nuttin' bout nuttin' comment as passive aggressive sarcasm.  It's meant as a humble expression.  I am just a layperson without so much as a college degree in anything so I have said this phrase for some time here and elsewhere when arguing issues.  I learn way more than I contribute on the Viz and wanted to repeat this fact since discovering the following paragraph on the AmericanHumanist.org site when I was recently asked what they promote.

 

From:  http://americanhumanist.org/who_we_are/about_humanism/What_is_Humanism

 

"Another aspect of the Secular Humanist tradition is skepticism. Skepticism's historical exemplar is Socrates. Why Socrates? Because after all this time he still stands alone among all the famous saints and sages from antiquity to the present. Every religion has its sage. Judaism has Moses, Zoroastrianism has Zarathustra, Buddhism has the Buddha, Christianity has Jesus, Islam has Mohammad, Mormonism has Joseph Smith, and Bahai has Baha-u-lah. Every one of these individuals claimed to know the absolute truth. It is Socrates, alone among famous sages, who claimed to know nothing. Each devised a set of rules or laws, save Socrates. Instead, Socrates gave us a method—a method of questioning the rules of others, of cross-examination. And Socrates didn't die for truth, he died for rights and the rule of law. For these reasons Socrates is the quintessential skeptical humanist. He stands as a symbol, both of Greek rationalism and the humanist tradition that grew out of it. And no equally recognized saint or sage has joined his company since his death."



 
> From: vision2020-request at moscow.com
> Subject: Vision2020 Digest, Vol 41, Issue 97
> To: vision2020 at moscow.com
> Date: Sun, 8 Nov 2009 15:38:36 -0800
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> Today's Topics:
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> 1. Realclimate.org: Albedo of Solar Panels: Popular Book
> "Superfreakonomics" Fails Basic Math on this Issue (Ted Moffett)
> 
> 
> ----------------------------------------------------------------------
> 
> Message: 1
> Date: Sun, 8 Nov 2009 15:38:38 -0800
> From: Ted Moffett <starbliss at gmail.com>
> Subject: [Vision2020] Realclimate.org: Albedo of Solar Panels: Popular
> Book "Superfreakonomics" Fails Basic Math on this Issue
> To: donald edwards <donaledwards at hotmail.com>
> Cc: vision2020 at moscow.com
> Message-ID:
> <d03f69e0911081538w1d853687m4528e29930f296f at mail.gmail.com>
> Content-Type: text/plain; charset="windows-1252"
> 
> I am returning to a previous question posed on Vision2020, regarding the
> albedo effect of solar panels... I wrote on 4/08/09 that I would have to
> research the question to attempt an answer.
> 
> Recently on Realclimate.org this issue received a detailed analysis, in
> response to data (astonishingly misleading) presented in the popular
> science/statistical analysis book, authored in part by Steven Levitt,
> "Superfreakonomics." Apparently this book presents egregious distortions
> of basic math regarding the albedo impact of massive solar panel deployment:
> 
> http://www.realclimate.org/index.php/archives/2009/10/an-open-letter-to-steve-levitt/#more-1488
> 
> An open letter to Steve Levitt
> Filed under:
> 
> - Communicating
> Climate<http://www.realclimate.org/index.php/archives/category/communicating-climate/>
> - Reporting on
> climate<http://www.realclimate.org/index.php/archives/category/communicating-climate/reporting-on-climate/>
> 
> ? raypierre @ 29 October 2009
> 
> Dear Mr. Levitt,
> 
> The problem of global warming is so big that solving it will require
> creative thinking from many disciplines. Economists have much to contribute
> to this effort, particularly with regard to the question of how various
> means of putting a price on carbon emissions may alter human behavior. Some
> of the lines of thinking in your first book, *Freakonomics*, could well have
> had a bearing on this issue, if brought to bear on the carbon emissions
> problem. I have very much enjoyed and benefited from the growing
> collaborations between Geosciences and the Economics department here at the
> University of Chicago, and had hoped someday to have the pleasure of making
> your acquaintance. It is more in disappointment than anger that I am writing
> to you now.
> 
> I am addressing this to you rather than your journalist-coauthor because one
> has become all too accustomed to tendentious screeds from media
> personalities (think Glenn Beck) with a reckless disregard for the truth.
> However, if it has come to pass that we can?t expect the William B. Ogden
> Distinguished Service Professor (and Clark Medalist to boot) at a top-rated
> department of a respected university to think clearly and honestly with
> numbers, we are indeed in a sad way.
> 
> By now there have been many detailed dissections of everything that is wrong
> with the treatment of climate in *Superfreakonomics* , but what has been
> lost amidst all that extensive discussion is how *really simple* it would
> have been to get this stuff right. The problem wasn?t necessarily that you
> talked to the wrong experts or talked to too few of them. The problem was
> that you failed to do the most elementary thinking needed to see if what
> they were saying (or what you thought they were saying) in fact made any
> sense. If you were stupid, it wouldn?t be so bad to have messed up such
> elementary reasoning, but I don?t by any means think you are stupid. That
> makes the failure to do the thinking all the more disappointing. I will take
> Nathan Myhrvold?s claim about solar cells, which you quoted prominently in
> your book, as an example.
> 
> 
> As quoted by you, Mr. Myhrvold claimed, in effect, that it was pointless to
> try to solve global warming by building solar cells, because they are black
> and absorb all the solar energy that hits them, but convert only some 12% to
> electricity while radiating the rest as heat, warming the planet. Now, maybe
> you were dazzled by Mr Myhrvold?s brilliance, but don?t we try to teach our
> students to think for themselves? Let?s go through the arithmetic step by
> step and see how it comes out. It?s not hard.
> 
> Let?s do the thought experiment of building a solar array to generate the
> entire world?s present electricity consumption, and see what the extra
> absorption of sunlight by the array does to climate. First we need to find
> the electricity consumption. Just do a Google search on ?World electricity
> consumption? and here you are:
> 
> [image: GoogleElec]<http://www.realclimate.org/wp-content/uploads/GoogleElec1.png>
> 
> Now, that?s the total electric energy consumed during the year, and you can
> turn that into the rate of energy consumption (measured in Watts, just like
> the world was one big light bulb) by dividing kilowatt hours by the number
> of hours in a year, and multiplying by 1000 to convert kilowatts into watts.
> The answer is two trillion Watts, in round numbers. How much area of solar
> cells do you need to generate this? On average, about 200 Watts falls on
> each square meter of Earth?s surface, but you might preferentially put your
> cells in sunnier, clearer places, so let?s call it 250 Watts per square
> meter. With a 15% efficiency, which is middling for present technology the
> area you need is
> 2 trillion Watts/(.15 X 250. Watts per square meter)
> 
> or 53,333 square kilometers. That?s a square 231 kilometers on a side, or
> about the size of a single cell of a typical general circulation model grid
> box. If we put it on the globe, it looks like this:
> 
> [image: Globe] <http://www.realclimate.org/wp-content/uploads/Globe.png>
> 
> So already you should be beginning to suspect that this is a pretty trivial
> part of the Earth?s surface, and maybe unlikely to have much of an effect on
> the overall absorbed sunlight. In fact, it?s only 0.01% of the Earth?s
> surface. The numbers I used to do this calculation can all be found in
> Wikipedia, or even in a good paperbound World Almanac.
> 
> But we should go further, and look at the actual amount of extra solar
> energy absorbed. As many reviewers of *Superfreakonomics* have noted, solar
> cells aren?t actually black, but that?s not the main issue. For the sake of
> argument, let?s just assume they absorb all the sunlight that falls on them.
> In my business, we call that ?zero albedo? (i.e. zero reflectivity). As many
> commentators also noted, the albedo of real solar cells is no lower than
> materials like roofs that they are often placed on, so that solar cells
> don?t necessarily increase absorbed solar energy at all. Let?s ignore that,
> though. After all, you might want to put your solar cells in the desert, and
> you might try to cool the planet by painting your roof white. The albedo of
> desert sand can also be found easily by doing a Google search on ?Albedo
> Sahara Desert,? for example. Here?s what you get:
> 
> [image: GoogleSand]<http://www.realclimate.org/wp-content/uploads/GoogleSand1.png>
> 
> So, let?s say that sand has a 50% albedo. That means that each square meter
> of black solar cell absorbs an extra 125 Watts that otherwise would have
> been reflected by the sand (i.e. 50% of the 250 Watts per square meter of
> sunlight). Multiplying by the area of solar cell, we get 6.66 trillion
> Watts.
> 
> That 6.66 trillion Watts is the ?waste heat? that is a byproduct of
> generating electricity by using solar cells. All means of generating
> electricity involve waste heat, and fossil fuels are not an exception. A
> typical coal-fired power plant only is around 33% efficient, so you would
> need to release 6 trillion Watts of heat to burn the coal to make our 2
> trillion Watts of electricity. That makes the waste heat of solar cells vs.
> coal basically a wash, and we could stop right there, but let?s continue our
> exercise in thinking with numbers anyway.
> 
> Wherever it comes from, waste heat is not usually taken into account in
> global climate calculations for the simple reason that it is utterly trivial
> in comparison to the heat trapped by the carbon dioxide that is released
> when you burn fossil fuels to supply energy. For example, that 6 trillion
> Watts of waste heat from coal burning would amount to only 0.012 Watts per
> square meter of the Earth?s surface. Without even thinking very hard, you
> can realize that this is a tiny number compared to the heat-trapping effect
> of CO2. As a general point of reference, the extra heat trapped by CO2 at
> the point where you?ve burned enough coal to double the atmospheric CO2
> concentration is about 4 Watts per square meter of the Earth?s surface ?
> over 300 times the effect of the waste heat.
> 
> The ?4 Watts per square meter? statistic gives us an easy point of reference
> because it is available from any number of easily accessible sources, such
> as the IPCC Technical Summary or David Archer?s basic textbook that came out
> of our ?Global Warming for Poets? core course. Another simple way to grasp
> the insignificance of the waste heat effect is to turn it into a temperature
> change using the standard climate sensitivity of 1 degree C of warming for
> each 2 Watts per square meter of heat added to the energy budget of the
> planet (this sensitivity factor also being readily available from sources
> like the ones I just pointed out). That gives us a warming of 0.006 degrees
> C for the waste heat from coal burning, and much less for the incremental
> heat from switching to solar cells. It doesn?t take a lot of thinking to
> realize that this is a trivial number compared to the magnitude of warming
> expected from a doubling of CO2.
> 
> With just a little more calculation, it?s possible to do a more precise and
> informative comparison. For coal-fired generation,each kilowatt-hour
> produced results in emissions of about a quarter kilogram of carbon into the
> atmosphere in the form of carbon dioxide. For our 16.83 trillion
> kilowatt-hours of electricity produced each year, we then would emit 4.2
> trillion kilograms of carbon, i.e. 4.2 gigatonnes *each year*. Unlike
> energy, carbon dioxide accumulates in the atmosphere, and builds up year
> after year. It is only slowly removed by absorption into the ocean, over
> hundreds to thousands of years. After a hundred years, 420 gigatonnes will
> have been emitted, and if half that remains in the atmosphere (remember,
> rough estimates suffice to make the point here) the atmospheric stock of CO2
> carbon will increase by 210 gigatonnes, or 30% of the pre-industrial
> atmospheric stock of about 700 gigatonnes of carbon. To get the heat trapped
> by CO2 from that amount of increase, we need to reach all the way back into
> middle-school math and use the awesome tool of logarithms; the number is
> (4 Watts per square meter) X log2(1.3)
> 
> or 1.5 Watts per square meter. In other words, by the time a hundred years
> have passed, the heat trapped each year from the CO2 emitted by using coal
> instead of solar energy to produce electricity is *125 times* the effect of
> the fossil fuel waste heat. And remember that the *incremental* waste heat
> from switching to solar cells is even smaller than the fossil fuel waste
> heat. What?s more, because each passing year sees more CO2 accumulate in the
> atmosphere, the heat trapping by CO2 *continues to go up*, while the effect
> of the waste heat from the fossil fuels or solar cells needed to produce a
> given amount of electricity stays fixed. Another way of putting it is that
> the climate effect from the waste heat produced by any kind of power plant
> is a one-off thing that you incur when you build the plant, whereas the
> warming effect of the CO2 produced by fossil fuel plants continues to
> accumulate year after year. The warming effect of the CO2 is a legacy that
> will continue for many centuries after the coal has run out and the ruins of
> the power plant are moldering away.
> 
> Note that you don?t actually have to wait a hundred years to see the benefit
> of switching to solar cells. The same arithmetic shows that even at the end
> of the very first year of operation, the CO2 emissions prevented by the
> solar array would have trapped 0.017 Watts per square meter if released into
> the atmosphere. So, at the end of the first year you already come out ahead
> *even if you neglect the waste heat that would have been emitted by burning
> fossil fuels instead*.
> 
> So, the bottom line here is that the heat-trapping effect of CO2 is the
> 800-pound gorilla in climate change. In comparison, waste heat is a trivial
> contribution to global warming whether the waste heat comes from solar cells
> or from fossil fuels. Moreover, the *incremental* waste heat from switching
> from coal to solar is an even more trivial number, even if you allow for
> some improvement in the efficiency of coal-fired power plants and ignore any
> possible improvements in the efficiency of solar cells. So: trivial,trivial
> trivial. Simple, isn?t it?
> 
> By the way, the issue of whether waste heat is an important factor in global
> warming is one of the questions most commonly asked by students who are
> first learning about energy budgets and climate change. So, there are no
> shortage of places where you can learn about this sort of thing. For
> example, a simple Google search on the words ?Global Warming Waste Heat?
> turns up several pages of accurate references explaining the issue in
> elementary terms for beginners. Including this article from Wikipedia:
> 
> [image: WasteHeatWiki]<http://www.realclimate.org/wp-content/uploads/WasteHeatWiki.png>
> 
> A more substantive (though in the end almost equally trivial) issue is the
> carbon emitted in the course of manufacturing solar cells, but that is not
> the matter at hand here. The point here is that *really simple arithmetic*,
> which you could not be bothered to do, would have been enough to tell you
> that the claim that the blackness of solar cells makes solar energy
> pointless is complete and utter nonsense. I don?t think you would have
> accepted such laziness and sloppiness in a term paper from one of your
> students, so why do you accept it from yourself? What does the failure to do
> such basic thinking with numbers say about the extent to which anything you
> write can be trusted? How do you think it reflects on the profession of
> economics when a member of that profession ? somebody who that profession
> seems to esteem highly ? publicly and noisily shows that he cannot be
> bothered to do simple arithmetic and elementary background reading? Not even
> for a subject of such paramount importance as global warming.
> 
> And it?s not as if the ?black solar cell? gaffe was the only bit of academic
> malpractice in your book: among other things, the presentation of aerosol
> geoengineering as a harmless and cheap quick fix for global warming ignored
> a great deal of accessible and readily available material on the severe
> risks involved, as Gavin
> noted<http://www.realclimate.org/index.php/archives/2009/10/why-levitt-and-dubner-like-geo-engineering-and-why-they-are-wrong/>in
> his recent post. The fault here is not that you dared to advocate
> geoengineering as a solution. There is a broad spectrum of opinion among
> scientists about the amount of aerosol geoengineering research that is
> justified, but very few scientists think of it as anything but a desperate
> last-ditch attempt, or at best a strategy to be used in extreme moderation
> as part of a basket of strategies dominated by emissions reductions. You
> owed it to your readers to present a fair picture of the consequences of
> geoengineering, but chose not to do so.
> 
> May I suggest that if you should happen to need some friendly help next time
> you take on the topic of climate change, or would like to have a chat about
> why aerosol geoengineering might not be a cure-all, or just need a critical
> but informed opponent to bounce ideas off of, you don?t have to go very far.
> For example?
> 
> [image: GoogleMap]<http://www.realclimate.org/wp-content/uploads/GoogleMap1.png>
> 
> But given the way *Superfreakonomics* mangled Ken Caldeira?s rather nuanced
> views on geoengineering, let?s keep it off the record, eh?
> 
> Your colleague,
> 
> Raymond T. Pierrehumbert
> Louis Block Professor in the Geophysical Sciences
> The University of Chicago
> Comments (pop-up) (578) <http://www.realclimate.org/?comments_popup=1488>
> -------------------------------------
> On 4/8/09, Ted Moffett <starbliss at gmail.com> wrote:
> 
> 
> > I would have to research this issue to attempt an answer. I am not sure of
> > the albedo of the areas you describe that might be covered with solarpanels, nor what the
> > albedo of large areas of solar panels is in comparison.
> >
> > There are proposals to block solar energy via huge numbers of
> > micro-mirrors in space or sulfur compounds injected into the upper
> > atmosphere, to mimic the cooling effects of volcanoes. If the Earth had
> > numerous volcanoes, or a one or two very powerful ones, exploding, this
> > would cool the climate temporarily. If a large asteroid hits, which
> > currently is beyond human technology to stop, though in the future humans
> > may have space technology waiting to deflect them, we will have global
> > warming that is unimaginable at first (or so some experts say due to heated
> > debris that would spread over the globe from the explosive impact), then a
> > global winter due to sunlight being blocked. Don't worry, be happy! "Dust
> > in the wind..." as the Kansas song goes...
> >
> > As to the methane hydrate in permafrost, also in areas in the oceans and
> > some lakes, that warming could destabilize, if the process of methane
> > releases from these deposits accelerates in a feedback mechanism due to a
> > warming climate... Let's not go there. Consider that methane hydrates
> > contain double or more of the carbon contained in all traditional fossil
> > fuels: oil, coal, natural gas. There are efforts to exploit methane
> > hydrates as an energy source, which is potentially huge.
> >
> > One of the primary theories as to a main cause of the Paleocene-Eocene
> > Thermal Maximum, about 55-56 million years ago, when temperatures in the
> > oceans and the atmosphere were up to 8 degrees C. warmer than now, and there
> > were no polar ice caps, is a methane pulse from methane hydrate releases.
> > You can read about this at the website below, though I found errors in the
> > text compared to the graphs. Note the first graph shows an increase in
> > methane to about 16000 ppbv, while the text claims the graph shows an
> > increase to 1600 ppvb. An error in editing, I suppose? Or do I have this
> > wrong?
> >
> > http://www.falw.vu/~renh/methane-pulse.html
> >
> > Ted Moffett
> >
> > On 4/7/09, donald edwards <donaledwards at hotmail.com> wrote:
> >>
> >>
> >> Ted, would you be in a position to ponder a guess as to what effect at
> >> countering the lost reflective properties of the melted ice by covering half
> >> the states of Nevada, Utah, Arizona and California in reflective solar
> >> panels would have; besides the obvious power gains.
> >>
> >> I mean, would it make a difference in stopping the current melting by
> >> reflecting more heat back into space than is possible without any ice to
> >> mirror it off rather than the current system of accelerated melting by cause
> >> and effect? Wouldn't this also help avoid the already started cotastrophe
> >> of the melting permafrost releasing methane?
> >>
> >> Just wondered about this before. Thanks,
> >>
> >> Don
> >>
> >>
> >>
> >>
> >>
> >>
> >>
> >
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