The Myth of Renewable Energy

Harperdog writes to this "Excellent piece by Dawn Stover about what renewables can and can't do. The sun and wind may be practically inexhaustible, but 'renewable' energy isn't. Solar, wind, and geothermal power are not fundamentally different from other energy technologies that consume finite natural resources. Good reading for anyone who thinks they know how to combat climate change."

Renewable or infinite?

[jtoj]

Renewable doesnt mean infinite.

Re:Renewable or infinite?

[FTWinston]

The argument being made is that expensive and potentially hazardous materials are required to make wind turbines and solar panels.

Re:Renewable or infinite?

[betterunixthanunix]

Solar panels would not surprise me -- semiconductor manufacturing is not exactly eco-friendly. As for wind turbines, I cannot help but think of the kid in Africa who built them out of recycled auto parts.

Really the question is, are these things better on the whole than fossil and nuclear fuels? I suspect that the answer is yes, although I am not an expert. Only people who live in shacks in Montana are seriously arguing that humanity can or should live without disturbing the environment at all; but we can at least try to not completely wreck the planet.

Re:Renewable or infinite?

[jackspenn]

I would argue nuclear is the best solution. It has the smallest impact and the greatest potential for recycling and reusing materials. The problem with nuclear power is the fear people have about it.

Re:Renewable or infinite?

[betterunixthanunix]

Nuclear power is not really renewable -- eventually all the uranium and thorium on Earth will be mined, and then we will need to start finding new sources of energy (or mining celestial bodies). I think nuclear power is part of the answer, but on its own it is not enough.

I used to be a big fan of wind, but I am starting to lean in the direction of (properly managed) biomass these days, for the following reasons:

1. Terrain that could not otherwise be farmed for food can be put to use
2. Existing coal plants can be converted at relatively low cost to use biomass power
3. The ashes can simply be spread on the biomass farming areas to replenish minerals in the soil (compare to coal ash, which cannot be used in this way)
4. If properly managed, it is carbon-neutral or nearly so (on a reasonable timescale)

Re:Renewable or infinite?

[JMJimmy]

Unfortunately the article glosses over the fact that far more of those expensive and [s]potential[/s] actually hazardous materials are required to make carbon and nuclear based power generating stations. It also glosses over the lifespan of those products vs their counterparts (largely because no one bothers to collate the data on all the replacement parts that need to go into existing stations). The argument has never been that these solutions are perfect, nor infinite. The argument for green tech is that it's better overall and more sustainable than what we're currently doing.

Re:Renewable or infinite?

[JMJimmy]

... they're still better over the lifetime of the vehicle. MIT: http://www.pacinst.org/topics/integrity_of_science/case_studies/hummer_vs_prius.pdf

Re:Renewable or infinite?

[Canazza]

I like Nuclear Power, but it has a massive problem if it's poorly managed. Even just one cock-up can cause a major problem.
The fear is justified, since If I know anything about the Human Race, it's that we can grossly mismanage things.

Re:Renewable or infinite?

[ccool]

And it is much easier to have one good centralized filter/catalizer than many small one on a great many cars.

Re:Renewable or infinite?

[newbie_fantod]

Unfortunately the article glosses over the fact that far more of those expensive and [s]potential[/s] actually hazardous materials are required to make carbon and nuclear based power generating stations.

Unfortunate but not surprising in an article published by the Bulletin Of the Atomic Scientists.

Re:Renewable or infinite?

[DM9290]

thermal plants have better efficiency than explosion engines in car.

Although the thermal plant might have more efficiency, depending on the level of NIMBY, the transmission losses and the overhead of maintaining base-load for the electric grid may make the actual net efficiency closer than anyone may like... Sadly, reality is a must-satisfy condition in this analysis...

And driving massive tanker trucks full of gasoline all over the the country, tearing up roads, to deliver fuel to gas stations is efficient?

Re:Renewable or infinite?

[skids]

Actually, it already has been a problem
and continues to be

Re:Renewable or infinite?

[Dexter+Herbivore]

So GP didn't RTFA, you didn't RTFA. I guess everybody wins! :)

Re:Renewable or infinite?

[Adriax]

Till you get a plant manager who feels inadequate as a man, who chops off the catalyzer to put in glasspacks instead.

Re:Renewable or infinite?

[drb226]

If I know anything about the Human Race, it's that we can grossly mismanage things.

Well, in our defense, we're better at managing nuclear power than any other species in the known animal kingdom.

Re:Renewable or infinite?

[BasilBrush]

What about the battery pack that needs to be replaced every 1-2 year? What about the limited mileage per charge?

Bullshit.

Consumer reports tested a Prius after 10 years, and compared it with a test of a similar model when it was new. In 10 years and 200,000 miles, the battery performance had hardly degraded at all.

http://news.consumerreports.org/cars/2011/02/200000-mile-toyota-prius-still-performs.html

Re:Renewable or infinite?

[anwaya]

The tl;dr on the Pacific Institute paper "Hummer vs Prius" is:

1. Someone else wrote a paper called "Dust to dust" that claimed the lifetime energy cost of a Hummer was less than that of a Prius.
2. The "Hummer vs Prius" author disputes the "Dust to dust" paper's conclusions because they used arbitrary figures for lifetime mileage, energy used in manufacture, and so on.
3. The "Hummer vs Prius" author claims a quick recalculation shows the lifetime energy cost of a Prius is, indeed, lower than the Hummer.

Re:Renewable or infinite?

[robthebloke]

The massive problem is the long term cost of decommissioning. I was at primary school when they started decommissioning my local nuclear plant. I'll be dead by the time they've finished.....
That's one hell of a burden we are placing on our grand children.....

Re:Renewable or infinite?

[chriso11]

Well, I looked into the amount of water an equivalent coal-powered generator would use. It turns out 1GW of coal power uses 13500 acre-ft of water (4.4billion gal) per year, vs the 600 acre-feet for the solar project.

Re:Renewable or infinite?

[pla]

When the batteries fail on them, they will end up [snip]

I believe the word you wanted looks more like "recycled". People don't just toss 99% recyclable $3000 batteries like they do with a pair of dead double-As.


A 67 Camaro is better than a Prius, even 44 years later it is still desirable, people will still fix them

A 67 Camaro gets 15MPG. A Prius gets 50MPG. After 10 years of typical (1k miles/month) use at today's gas prices ($3.50/gallon), keeping that "desirable" Camaro on the road will have cost you literally the price of a new Prius ($19600) more.

The word "better" can mean an awfully lot of different things to different people. I can't, however, find a way to use it to describe something more expensive, less safe, and with fewer features - Other than the dumb nostalgia of "I wanted one as a kid and can finally afford it 40 years later".


And for the record, I don't own a Prius. I most certainly will, however, as soon as my current car dies.

Don't worry

[RStonR]

After all, why worry when you know that global warming is good for world peace?

Hot tip:

Did you know that things like coal and oil came from the capture and processing of Photons, just like wind/PV/hydro does?

Coal/Oil only seems cheap on a photon processed basis because Man didn't spend the effort and time converting biomass into the coal/oil.

RTFA and reached a conclusion

[DontBlameCanada]

The author, by failing to mention the current oil-based energy strategy at all, while vilifying the alternative energy sources leaves the reader with a sense of, "the alternatives are bad, lets keep using the current infra until we come up with something better." Interestingly, nuclear energy is *not* mentioned either, positive or negative - it's completely omitted.

I'd not be surprised if the author was either a shill for the oil and gas companies or the nuclear energy affiliates.

Steam

[slim]

Several times, she talks of water consumed by steam turbines.

Wouldn't any sane design condense the steam into water, and re-use it? Otherwise you're throwing away water *and* heat.

Disinformation - Shame on you /. !

[bridgey655]

Do not let anyone tell you this drivel. "Solar, wind, and geothermal power are not fundamentally different from other energy technologies that consume finite natural resources" BS! BS I say! Check out www.thevenusproject.com

600 acre-feet, WHAT?

[buglista]

It's really time to go metric guys, unless anyone can explain to me what that means?

Re:Real Question

[buglista]

If all the axes of all the wind turbines line up at once, it will act as a giant gyroscope and throw the earth out of orbit.

Or were you actually serious?

The piece is arguing for

[Stirling+Newberry]

A great deal more austerity. However, it makes a rather weak argument about a very real trade off problem, that problem is the water-energy trade off problem. In almost all forms of energy generation, it is not usable energy that is created directly, instead, heat is generated, the heat is used to do work, and the work is used to store the energy. So, the classic steam turbine has water heated to gas, and the resulting steam spins the turbine, and that carries wires through a magnetic field, which generates a corresponding electrical current, and that current is sent down wires. Another water energy trade off is to have wind turbines pump water up a shaft, which then is allowed to fall, spinning turbines, when power is needed. Bio-fuels, the same way: water is used to grow plants, the plants fix sunlight into hydrocarbons.

The solution to the water energy problem is more energy, because energy can be used to get water. This, however, lowers the Life Cycle Output of the energy system. LCO or LCA is the expected usable energy out, divided by the expected usable energy used to create and run a system. So if a system produces 10 watts for every watt it takes to build, run, and dispose of it, then its LCA is 10. The 20th century got by on a miracle: namely petroleum has a high LCA, and its its own storage mechanism. Gasoline has great power to weight storage capacities with internal combustion. And internal combustion engines can be built of very cheap metals. There are many quandaries in replacing hydro-carbon energy, and the water energy trade off that the piece mentions is one of them, but it is one of scale. Once there is a large enough renewable base, then the low LCA that getting the water to run it has, is not a problem. It is at the beginning, when the return is eaten through by the water problem, because there are competing uses for water that have much higher economic returns in the short run, such as airconditioning and agriculture. None of these uses want to pay much higher rates for water so that people not yet born can have the advantages.

Where the article falls down is pressing an agenda, and making sloppy equivalences. The first is equating capital requirements with expendable requirements: we don't burn the rare earths we use in kinetic energy extraction – that is water, wind, and geothermal – and in fact, rare earths, are not, as a percentage of the earth's crust, all that rare. For example, wikipedia has this chart. It shows that all of the Lanthanide rare earths, plus scandium and yttrium, are more common than either gold or silver, many are more common than tin, and some more common than lead. The problem with them is that they tend to be found near the Actinide rare earths, particularly Thorium. If you have seen a press for "Thorium reactors" it is because exploitation of rare earths leads to Thorium by product, and reactors which burn it would be fantastically profitable, for the people who sell the rare earths. In reality, they have the same problems, only more so, of actively cooled salt reactors. Namely, they work until they blow up. The Chinese dump their Thorium in a holding lack, which, should it break, would contaminate large areas of land and volumes of water.

Side note: how is it that a browser's spell check doesn't know Actinide?

But for all of that, rare earths are not burned, the way for example Lithuium is not burned in a battery and can be recycled. These are recyclable, which is different from consumable. Hence moving from consumption of hydrocarbons, which really are burned, to using rare earths in capital energy, is a positive step, and while the author of the paper implies that there would be rare earth shortages, the reality is that this is not the case, and substitutes in the form of ceramics and active magnets (See Rare Earth Prices Plunge as Manufacturers turn to substitutes

I've never understood this line of argument

[Nicolas+MONNET]

Coals plants also need to be built, they also need generators that require rare earth elements, they also need plenty of steel and concrete. And not only do they obviously spew shitloads of CO2, you also need to build the roads, railways or ships and ports to carry the coal around, as well as mine the damn thing.

So what is the argument? That since it's just merely much better, and not simply perfect, we should just give up on them?

Like magnets can't be re-used

[SmallFurryCreature]

Lets see. Coal. Expensive to mine from underground and a blight on the load in open mines. Nuclear material? Same issues with mining it and that love waste to get rid off. Oil? That is running out and drilling for it has proved hazardous. Mining it from tar sand is even worse then coal mining and even just transporting it ain't save.

Funny the article doesn't mention any of that. Or for that matter that efficient generators ANYWHERE need rare earth magnets. In the end, almost all power generation needs the same kind of generator, the only difference is what makes them spin and how efficient you want them to be.

And yes, desert water is not infinite... Greenland is a desert now? Funny. I expected them to be warmer. And less wet.

Troll article cherry picks arguments to support its troll and ignores everything else.

How unexpected.

Re:What is the amount burnt to build coal plants?

[TWX]

I think that the point is that they all require maintenance, but that once started up, the solar and wind don't require mining, transportation of fuel, or environmental cleanup just by operating, while solar and wind just require machinery maintenance.

Are you dreaming?

[Framboise]

"It has the smallest impact" ???

Fukushima and Tchernobyl come to mind of course. Do you realize that making an area like (40 miles)^2 unusable amounts to not a small cost on the economic point of view, or ruining the lives of 10'000's of displaced people is not a small nuisance?

Presently nuclear energy is the energy method having the largest impact in the far future (~100'000 years), as the nuclear wastes will require to be watched for a long time. Do you realize that such a timespan is comparable to the total time homo sapiens existed on Earth? (The salary of a single engineer over 100'000 yr corresponds already to the total building cost of a nuclear plant).

Can you imagine what will happen when the next global war occurs? And it will occur well before a century for sure. Each nuclear power plant will be an easy target, at the least a serious menace for those countries foolish enough to have forgot how stupid and nasty human beings may be.

Re:Source: Bulletin of the Atomic Scientists

[the+eric+conspiracy]

FAIL.

The Bulletin of Atomic Scientists is NOT a nuclear power advocacy group. It was founded by former Manhattan Project scientists as an anti-nuclear weapon advocacy group in 1945 in order to bring public attention to the dangers of nuclear arms.

They are probably most famous for the Doomsday Clock.

More recently the BAS has increasingly focused on explaining the dangers associated with nuclear power.

Here is a link to one of their publications:

http://books.google.com/books?id=ngYAAAAAMBAJ&printsec=frontcover&source=gbs_ge_summary_r&cad=0#v=onepage&q&f=true

NOT an excellent article

[dr2chase]

It's a misleading hack piece. First, 600 acre-feet of water per year to run a 1000-MW plant is diddly-shit. For comparison, a unit-home consumes about 1kw (averaged over a month, give or take a factor of two) and one acre-foot/year of water. So a plant supplying enough power for a million homes, which themselves consume a million acre-feet/year of water, will add 600 acre-feet/yr of water to their consumption. Whoopie-shit.

Notice how no numbers were given for the geothermal plants and their consumption. The Geysers were initially run from in-place groundwater, which they did consume (there was no condensation, no recharge). Now they are being recharged, NOT with groundwater, but with treated sewage water. So the article was misleading there, too, since groundwater is no longer the limiting factor.

She gives numbers for windpower resource consumption, but is again misleading. A "4-foot-wide, 7630 mile sidewalk". How do you suppose that compares to a single lane of interstate highway (12 feet wide) capable of carrying truck traffic? 636 miles of 4-lane interstate, NOT accounting for the increased road thickness. She repeats the "rare earth metals are rare" canard.

Neodymium: "Although neodymium is classed as a "rare earth", it is no rarer than cobalt, nickel, and copper ore, and is widely distributed in the Earth's crust". She may be right about Dysprosium, at least with current magnet technology. It's not clear if it's necessary, or merely nice at current prices. Note that the current main consumption appears to be hybrid automobiles, not wind turbines. (Hybrid autos, not a good idea at present size.)

Her treatment of hydropower is similarly deceptive -- first dismiss newer technologies as "experimental", then hammer on the problems of (some) hydropower installations. Wave power looks interesting. There's not too much that can go wrong with a buoy anchored to the bottom; we've got ample experience with them in their non-power-producing form.

All of the article lacks a good "compared to what" -- how much water and concrete are consumed by existing energy production? What resources do they consume?

So, NOT an excellent article.