First Town In US To Become 100% Wind Powered

gundar99 writes "Rock Port Missouri, population 1,300, is the first 100% wind-powered city in the US. Loess Hill Wind Farm, with four 1.25-MW wind turbines, is estimated to generate 16 gigawatt hours (16 million kilowatt hours) of electricity annually. 13 gigawatt hours of electricity have historically been consumed annually by the residents and businesses of this town."

Moving Air

[corsec67 (627446)]

Would the wind turbines be more efficient if they brought a bunch of politicians into the town?

Re:Moving Air

[by Anonymous Coward]

Would the wind turbines be more efficient if they brought a bunch of politicians into the town?

Unfortunately, no. All they're blowing is hot air, so it would rise too quickly to be of any use.

Re:Moving Air

[C_L_Lk (1049846)]

12 million watt-hours per year is not THAT much electricity per person per year when you consider that includes all the electricity the town uses - for service industry, workplaces, and homes. That 12 million watt hours is 12,000 kilowatt hours per year - approximately 1000 kilowatt hours per month - around 33 kilowatt hours per day - approximately 1.5kilowatt hours per hour - or a "ongoing continuous consumption" of around 1500 watts per person. If you have an electric water heater, electric refrigerator, one computer, some CFL and LED lighting, a TV that's on a few hours a day, an electric stove, and an electric clothes dryer in your house, as well as a computer and lighting at your work place, add in some street lights, parking lot lighting, etc. that seems to be a very reasonable number.

In this case it's preferable to move your house to an "all electric" footprint as well - as any electricity you use has 0 carbon footprint. There's no benefit to using propane or natural gas for any of your household needs - heating should be 100% electric as well - any sort of furnace will have a CO2 footprint - where electric will not. Now, the 1500 watts of continuous consumption per person seems very reasonable. Get all these people to drive plug-in hybrid cars for their daily commute and their demand may go up a bit more again - but the carbon footprint of the town would virtually disappear. Very good progress in my opinion.

Re:Moving Air

[icejai (214906)]

Unfortunately no.

All the politicians out there that blow hot air all suck as well.

Re:Moving Air

[deek (22697)]

If they blow and suck at the same time, then you're probably right.

But, if they blow then suck, you get electricity.

Man, this post could sure be taken out of context.

You want a heat converter

[spun (1352)]

Would the wind turbines be more efficient if they brought a bunch of politicians into the town?

It's hot air, but it's not moving very fast and there's a hell of a lot turbulence. I'm thinking politician fueled Stirling engine.

Now, is there any place where a large number of our founding father's are buried? Because we could double our efficiency by putting the politicians over their graves and harnessing the founding father's spinning motion.

Not Really...

[by Anonymous Coward]

Wind can't supply base load so even if the wind turbines are generating more power than the city consumes over a year, that power is being consumed partially by other cities.

Re:Not Really...

[Tatarize (682683)]

Not only that but couldn't you argue that because it pours that power onto the grid it might as well be any town? It seems like somebody nearby has a wind farm and therefore that city is thusly powered by wind. Couldn't my town be completely powered by wind out of the Loess Hill Wind Farm if it takes less than 16 gigawatt hours? Local windfarm produces more than local towns power consumption? It isn't like the town owns the wind farm... it's exactly like there's a windfarm near a town!

This is completely stupid. Well played Slashdot, well played.

Re:Not Really...

[MightyYar (622222)]

You guys are all nattering nabobs of negativity :)

The town that you claim is powered by the wind can't be TOO far away, or line losses would eat up too much power... in any event, the claim isn't much of a stretch as the city does now produce more wind power than it consumes total power.

Re:Not Really...

[donscarletti (569232)]

Exactly, a town (or a grid) doesn't need energy it needs power. It doesn't matter how many Gigawatt hours something produces it is how many watts it produces when they are needed. A grid needs a certain current and if it doesn't get it things go wrong. It doesn't matter how much energy you harvest over the fiscal year, what matters is if your generation is keeping up with your consumption in a moment to moment basis. It takes hours to shut down a coal furnace and months to shut down a nuclear reactor so until meteorology comes far enough, these things will have to keep running whenever there is supposed to be load lest the grid brown out whenever the wind calms down. Currently, when these things spin, all that happens is the load on a turbine in some power plant reduces and its energy is dissipated in a cooling tower instead. If you want something that can pick up the slack for these things, you'll have to go oil, gas or hydro. This requires burning something rare, expensive and environmentally nasty or flooding a valley somewhere which is far worse than what we're doing now with coal and nuclear.

Re:Not Really...

[hey! (33014)]

Alternatively, you can think of it as being stored in the most highly efficient storage medium yet devised by man.

Unburned fossil fuels.

As long as we have significant fossil fuel generation capacity, nobody's lights are going dark when the wind slackens. And we aren't likely to hit the point where wind power generates more power than coal, natural gas and oil any time soon. In the long run we'll need to have other ways of storing and reusing energy that don't rely on fossil fuels, but if we did this sort of thing everywhere we could, the world could conserve its limited supplies of petroleum and coal and reduce its emissions of CO2 and other pollutants.

Also, you might consider why famine is rare in developed countries. That is because our food supply is, in effect. A network with many suppliers. If beef suppliers are having mad cow problems and can't supply the market with enough beef, money flows to poultry and pork producers instead. Any individual food supplier is subject to short term shortage, the network as a whole has diverse sources of food it can draw upon.

A geographically large superconducting grid would smooth over local variations in wind, solar, tidal and other intermittent power sources.

The "use it or lose it" nature of some renewable power sources means that it's may be financially efficient to store any excess production, even if that storage medium is not very efficient itself. If your windmills are going full (err...) tilt in the dead of the night when power is cheap, why not use them to pump water upstream across a dam? Then you can sell that energy in the middle of the day when market prices are higher. Or you could sell an energy contract to an energy intensive factory that can run in the off-hours.

Suppose if your photovoltaic farm is generating power in the middle of the winter, why not put it into a reversible chemical reactor that converts it back into electricity during the summer to run people's air conditioning?

A superconducting grid itself could be a short term storage mechanism; you could pump liquid hydrogen in when demand is low, and extract it when demand is higher.

I see no real short term or long term barriers to the utility of renewable energy as a way of reducing pollution and reliance on politically unstable regimes overseas. The midterm -- well that could get economically tricky. But then, declining oil production will be even more tricky.

Unless they're off the grid it isn't 100%

[EmbeddedJanitor (597831)]

I did not RTFA, but there is no need to. Wind is great, but it does not blow 100% of the time in an area the size of a town/city. Therefore they are relying on other power sources some of the time.

They might be a net generator of power, but they are ultimately using other power sources some of the time.

Re:Unless they're off the grid it isn't 100%

[Marcika (1003625)]

They could be relying solely on wind power -- it's perfectly possible using pumped storage [wikipedia.org].
(They aren't though, so your point of needing other auxiliary sources of energy still stands.)

Re:Unless they're off the grid it isn't 100%

[ductonius (705942)]

The only flaw in that cunning plan is that the best terrain for wind power is open, flat country where the wind blows constantly while the best terrain for pumped storage is rocky, mountainous areas where the earth forms natural basins.

There are few places in the world where terrain suitable for both wind and pumped storage occurs close together.

Most wind power stations will have to rely on gas-turbine backups, which is to say building a wind power station means building both a wind power station and a gas-turbine power station.

Umm...go nuclear?

Pumped storage is not without problems

[Dr. Cody (554864)]

Pumped storage is not without problems--environmental, that is.

Many resevoirs are designed to operate at a constant level ("head" for us, the difference in height between the surface and the exit of the turbine). Of course a drought could push you out of wack if this is your regulation goal, but, in general, you're going to be sticking to pretty much the same level, and, as a consequence, coast.

With resevoirs which vary according to demand, there can be large head changes over the year and with different demand patterns (and rainfall)--which translate into DRAMATIC changes in the coastline of the resevoir. As you know, the vegetation and soil developement is most at the coast line. When all of this living matter is suddenly put under four meters of water, it dies and is replaced with anerobic systems. This decay produces hydrogen sulphide (generally nasty) and methane (a greenhouse gas IIRC 400x stronger than CO2). This is the origin of concerns about how much greenhouse gas production that hydropower offsets.

Then, when the water level dives down, you kill the anaerobic systems, leaving a barren coastline (both just above and just below the waterline at the coast) which is less hospitable to fish and terrestrial animals whose life is based around this environment.

Up in Sweden, where we have considerable such resevoir regulation, which results in lakes banked by bleached stone for many km in each direction. It has also completely changed the distribution of fishlife in these valleys.

Perhaps you should have read the article

[hellfire (86129)]

It's a short article, FP isn't all it's cracked up to be:

"What we're celebrating is that the wind farm in Rock Port can produce more energy each year than what this community uses, and that has never been done before," Chamberlain said.

And that's why everyone showed up. From the celebration and speeches downtown to the city's power plant, the guy who made it all happen explained what it is all about.

"What we're showing here is the city is producing 2 megawatts more than they need, so in essence, this meter is running backwards," Chamberlain said.

Re:Unless they're off the grid it isn't 100%

[by Anonymous Coward]

If you draw a box around a year and this town and measure the inputs and outputs, the town is a net producer of electricity, assuming their forcast of consumption holds true. Ergo, by Jedi logic, they are 100% wind powered. Your commentary on the matter elegantly illustrates the difference between erudite and pedantic for the rest of us. Thank you, not everyone could have done so as gracefully.

Re:Unless they're off the grid it isn't 100%

[istartedi (132515)]

I knew there would be a post like this. This always comes up when people discuss wind and solar. First, if they were not on the grid they could use "peak storage". There are a number of ways to do that. In areas where water and elevation are available, you can pump water back up a hill into a holding pond and re-cycle it through a turbine--augmented hydro power. Other methods of peak storage include: flywheels, batteries, and even compressed air pumped into abandoned mines that have been properly sealed to hold in the pressure. Choice of method depends on a variety of factors of course.

Now, since they are connected to the grid, the peak storage issue isn't very important. They just feed the grid when they have excess, and draw from the grid when they don't. Therefore, they are actually *over* 100% since they are expected to feed the grid more often than they draw from it. If everybody did what they did, then peak storage would be required because it is possible for calm conditions to persist over fairly wide areas--perhaps wide enough to make transmission impractical. The only difference here is that they are using the grid as a virtual peak storage system.

When wind power is sent to "town B", they can idle one of their fossil-fuel generators. The fuel un-burned by said generator is another way to account for peak storage.

Using the grid as peak storage just makes better econonmic sense than building your own peak storage and declaring independance like some kind of cult or something.

Wind power has other issues though, mostly aesthetic.

Re:Unless they're off the grid it isn't 100%

[mdsolar (1045926)]

Well, not quite on the variability in the US at least. Connecting geographically spreadout wind farms yields at least one third of the power as steady and, if I recall, closer to 60% when most of the wind belt is connected. http://news-service.stanford.edu/news/2007/december5/windfarm-120507.html [stanford.edu]

This lowers the cost of transmission because the largest transmission lines can be used 100% of the time at full capacity.

There's a reason it always comes up

[Moraelin (679338)]

There's a reason it always comes up, and namely because it actually matters.

Yes, they _could_ use peak storage, but they don't. They're on the grid. It does matter.

So they produce 5 MW all the time (wind non-stop). If yearly production is barely above their yearly usage, let's say they use, say, 8 MW peak and buggerall at night. So someone else has to build the extra capacity to produce the extra 3 MW for them.

But wait, they may have a calm day, or a _storm_. During storms you don't make more power, you align the blades so the turbine doesn't spin. So someone else has to have the capacity to produce an extra 8 MW for them, for those cases.

The point is that someone still has to be able to cover the peak power, so just as many power plants have to be built as before. Only now you have to keep some of them idle at peak time, so you don't recoup your investment as quickly.

The total power produced maths are also a bit mis-leading. They use more power at peak, they give some power back when noone needs it. The problem isn't producing enough energy at 1 AM, the problem is producing enough energy at peak times. That's when those brownouts some years ago happened. The rush to build more power plants, and dealing with NIMBY syndrome, is to be able to supply the whole use at peak hours, not at night.

Because wind can and will occasionally fail you, someone has to build the same capacity again as some other kind of power. Only, again, keep it idle a bunch of the time so they won't get their money back as fast.

Essentially, they just passed someone else the cost of building the peak storage for them. They get their peak storage (and more importantly: backup power) all right, only now "Town B" from your example is the one who gets the bill for it.

Now I'm not saying it should be a hanging offense or anything, but it _is_ a problem worth mentioning. If you want to willy-wave about being all green, then actually be all green on your own money.

Otherwise it's a bit like Liechtenstein not having an army or military budget, because their big neighbours get to deal with defending it. Or about how they do great with a lean government and low taxes... by being a tax heaven for guys who made their riches in other countries' economies. It's just passing the bill to someone else, not being the perfect example of a smart conservative government.

Re:Fossil plants sitting idle

[Dare nMc (468959)]

isn't something that anybody is happy about,

I disagree, Talked to a nuclear plant engineer working at a plant with a gas turbine auxiliary plant. They are thrilled when the turbine powers up, because they get paid more for that energy because their willing to fill peak demand. If that plant was put into constant production they would get paid the same rate as the nuclear plant, so reduced joy overall.

Re:

[dbIII (701233)]

At large scales steam still wins and the fuel consumption can be scaled back a lot when power is not needed. Gas turbines only become viable at small scales but it is true that they can come up to speed almost as quickly as hydro so can be completely turned off when they are not needed. Quite a few are very cheap since they are made out of second hand jet engines - some from 1950's jets are still in service as backup generators!

Anyway the article was about wind. The big problems there are small unit siz

Re:

[shermo (1284310)]

New Zealand still sources 30-40% of it's energy from thermal (gas/coal). In addition, New Zealand has water storage capabilities of a few weeks to months, so it's very possible to run low, and as such requires additional thermal capabilities to compensate. Norway is closer to 100% hydro.

Re:Unless they're off the grid it isn't 100%

[mrchaotica (681592)]

Outside a few small mountainous countries with heaps of hydro such as New Zealand, we are all dependent on fossil fuel or nuclear at least part of the time.

Isn't Iceland almost entirely geothermal?

Technically 2nd

[nick_davison (217681)]

Washington has been run on pure hot air for decades.

Yay for wind, uh...not?

[joshamania (32599)]

I'm not sure what the metric is exactly, but it has to do with something like, megawatt-hours-produced-per-acre. This measurement is used when discussing power production by some engineering geeks somewhere...sorry, just trying to point the discussion down a path quickly here and not really set it up too much. :-)

In short, as cool as we all would like wind power generation to be, it just falls way too short in the aforemention critical statistic. If you've seen the wind farm outside of San Fran, you know how big they can get. The nuke plant between SD & LA (iirc) is but a postage stamp compared to that windfarm and it probably has about twice the power output.

Wind is not population density friendly. At some point, land costs wipe out any efficiencies.

Re:

[RiotingPacifist (1228016)]

Okay, so sea air sucks

Why not use tidal power along the cost, its more reliable than wind power too.

Re:

[TooMuchToDo (882796)]

Checkout Cape Wind. http://www.capewind.org/ [capewind.org]

It's a 420MW wind farm being setup off the coast of Nantucket Sound.

Also, check out this page:

http://capewind.whgrp.com/ [whgrp.com]

It's a dynamic page that displays how much power the farm would put out based on the average windspeed for the last hour.

Re:Yay for wind, uh...not?

[mrchaotica (681592)]

I'm not a civil engineer either, but I am training to become one. I think you're worrying way too much here. Yes, you need a reasonable foundation for the thing, but then you can put soil for farming on top of that.

But even that is overthinking the issue; just look at this picture [wikipedia.org]. See the space each turbine tower takes up? Now see the space between towers? Is the former significant compared to the latter? No. Are they, in fact, growing some kind of crops between the towers? Yes. If this weren't true, the picture wouldn't exist!

Even still you couldn't put them denser than the falling distance from one to another or a slight engineering snafu turns your billion dollar windfarm into the worlds most expensive set of dominos.

You don't want to put them close together anyway, because

1. the turbine needs to rotate (in the X-Y plane) so that it's always facing the wind and you don't want blades of adjacent turbines to hit each other, and
2. if they're too close behind each other, the wake turbulence from the turbine in front reduces the efficiency of the turbine behind.

Oh, and by the way: assuming you arrange the turbines in a square grid, they would have to fall in one of the four cardinal directions to risk creating "the world's most expensive set of dominos." If we assume that the zone where this would happen takes up 1 degree of arc for each direction, there's a (4/360) ~= 1% chance of that happening, assuming a tower fell over in the first place. I'd call that negligible risk.

Re:Yay for wind, uh...not?

[amorsen (7485)]

A considerable foundation must be poured of reinforced concreted, which may have to be anchored to bedrock, but IANACE (...civil engineer...).

Denmark is known for its wind turbines. I can guarantee you that there isn't any bedrock involved. Also, some of the turbines are in swamps or otherwise barely-arable land. Foundations are a solved problem, you CAN build a castle in a swamp these days.

wha...?

[Takichi (1053302)]

Ow. My brain hurts after trying to read that article. Did someone randomly select quotes and comments from a bag? Here's a better written version, though still light on the information (no figures for cost per kWh) http://www.ecogeek.org/content/view/1568/ [ecogeek.org]

More questions

[Dan East (318230)]

The article sucked. Are the turbines really powering the town, or is that going into the grid in general? The article mentions that the power won't be free, but that the mayor hopes it will cost less because of lower transmission fees. So how much does it cost? The article mentions the landowner that set the thing up. So is it privately owned, or part of the city? Does the city actually buy electricity from this guy, or does he just make money selling to the power companies? What the heck does John Deere have to do with anything?

Congratulations!

[Fluffeh (1273756)]

Good to see that even though the country may be fumbling and lagging behind where it should be from an environmental point of view, individuals and sections of the community are taking up the slack and forging ahead.

It'll take a while to pay this one off

[MarkEst1973 (769601)]

At $0.11 on average per kWh, the savings is $1.7m annually, plus another $300k from the energy they sell to the power company. That's 45 years to recoup the investment ($90m), not including maintaining the turbines for 45 years (more info here [ecogeek.org])

Still, I think this should be the new standard for sustainable living and development.

And to put 16 gigawatt hours into perspective... the average household in America uses around 11,000 kWh annually. See Official Government Website [doe.gov]

Rock Port, MO needs to add their watts saved [whosavedwatt.com] to the total. It's like they switched out 64,000,000 incandescent bulbs for CFCs!

Re:1.51 Gigawatts

[xero314 (722674)]

That's 1.21 Gigawatts, but nice try.

Wind can't do it.

[NotBornYesterday (1093817)]

I'm sorry. But the only power source capable of generating 1.21 gigawatts of electricity is a bolt of lightning. And unfortunately, we never know when or where they are going to strike.

Re:

[DAldredge (2353)]

That yellow think in the sky that makes your skin warm is supplying the energy.

Re:SECOND TOWN!

[by Anonymous Coward]

DC was first!

Damnit, zombie Edison, you lost. Get over it!

--The ghost of Nikola Tesla

Re:

[yincrash (854885)]

Whoosh!

Re:

[cobaltnova (1188515)]

I sure hope you aren't saying this as an argument against wind. Every little bit counts in this energy battle: a mature approach will tap many different sources of power. Also, if there is a suruplus at some times, then energetically intensive industrial operations can be scheduled for those times (for instance, aluminum refining).

Re:

[Skippy_kangaroo (850507)]

Also, if there is a suruplus at some times, then energetically intensive industrial operations can be scheduled for those times (for instance, aluminum refining).

Not if you need guaranteed availability for a period of hours - imagine that you have the furnace almost up to temperature and the power gets cut, that would be a massive waste of energy. Also, you talk of scheduling as if we can forecast wind speed days in advance - you can't of course. Which all means that for practically all industrial applicati

Re:big catch

[RiotingPacifist (1228016)]

Indeed, domestic applications are pretty unforgiving of random fluctuations too - sorry kids, we can't have dinner tonight, the wind isn't blowing.

That's why you need energy stores, like hydro plants. When there's not enough energy going in you open the valve, and when there's an excess you pump stuff up to the top again, they already do this with conventional power sources why would wind be any different.

And what is the average cost of wind power anyway? Probably a lot higher than coal even with large carbon taxes.

How? coal power stations have all the initial costs of wind farms and then a fuel cost, a waste cost and an environmental cost.

Re:big catch

[falconwolf (725481)]

And what is the average cost of wind power anyway?

According to the American Wind Energy Association's FAQ, "What are the Factors in the Cost of Electricity from Wind Turbines?" [awea.org], wind costs can be under 5 cents per KWH. I don't have an electric bill handy but I think I pay something like 10 cents per KWH.

Falcon

Re:But think of the birds...

[the_other_chewey (1119125)]

Those poor birds.

That's mostly a legend, remaining from the times of small, very fast rotating wind wheels.

Nowadays, this isn't an issue any more: The wheels are much higher (less birds) and slower
(birds can react to and avoid them). I've been to a couple of recent generation generators,
and have even climbed one (great view) - there wasn't a single dead bird lying around in the
vicinity. Yes, I looked for them.

Re:But think of the birds...

[RockWolf (806901)]

Although the turbines these days are much larger and spin much more slowly, the turbines are in fact more dangerous to birds. This is because the speed of the turbines is measured at the tip of the blades. The blades are so huge now that they move slowly at the tip, but get to within a few feet of the centre and they blades move much faster than the older turbines.

What now? It's been a few years since I took physics at more than an interest level, but that makes no sense whatsoever. If you're talking radial velocity, all parts of the blades take the same time to complete one revolution (obviously), hence the same radial velocity. That same phenomenon says that since all parts must take the same time for a revolution, the further you are from the axis of revolution the faster the linear velocity must be - so the tips cut through the air faster than the inner section of the blades.

Care to explain where the hell you got that piece of "information" from? Logic would say that the tips of the blades should be more dangerous than the inner sections due to the higher linear velocity, however maybe they're also easier to avoid. Whether birds can detect the blades or not isn't my field of expertise.

Re:But think of the birds...

[MadUndergrad (950779)]

Good riddance to bad rubbish, I say. Of course, cats (also bad rubbish, btw) kill over a billion birds and small animals in this country each year, so the few killed by turbines (see sibling post) are pretty insignificant.

Re:

[glwtta (532858)]

We have enough birds.

Plus, if they can't figure out that flying into the spinning blady thing is a bad idea, the species is better off without those individuals.

Re:That's some expensive electricity!

[Blkdeath (530393)]

A really quick Google search turned up this article [cnn.com] which will hopefully put things into a bit of perspective. $2 billion to build a coal plant; while I grant you it'll generate more than 16MWh/year, is still a damn hefty pricetag. How many year (nee: decades) will it take to pay one of those off?

Also, FYI; 40 year mortgage amortizations are becoming very commonplace while some companies are looking towards the prospect of 50 year ams.

As for maintainence costs; how much does it cost to maintain a coal fired plant? How much does it cost to maintain a nuclear plant? How much does it cost to handle the waste product from same? How much ongoing environmental impact is there?

I'm no tree hugger by any stretch, but the fact that a town was able to generate an annual surplus of natural energy with no environmental by-products is a pretty decent little achievement. A small step towards reducing our reliance on fossil fuels.

This project is way overpriced

[Animats (122034)]

Way, way overpriced. Four 1.25MW turbines for $90 million, or $18/watt? That's far too high. Compare the Cedar Ridge project [alliantenergy.com], with 41 turbines of 1.65MW capacity each for $180 million, or $2.6/watt. That's a real not-to-exceed number. The American Wind Energy Association likes to talk about $1/watt, but that's seldom achieved.

$18/watt is either wrong or a rip-off.

Re:4 turbines for 1300 people?

[falconwolf (725481)]

So if we wanted to power say, California, which as of 2006 has 36,457,549 [census.gov] people we would need something around (36,457,549/4=28044 so 28044*4=) 112,177 wind turbines. That is stupid ridiculous!

Yea it's stupid to decentralize power generation when you can concentrate all that power into a few hands instead. Fact is is a farmer can have wind turbines on the farm while still growing food, and they will supplement farmers' income. Wind farms can also be located offshore. Then there's solar [wired.com] and geothermal [ca.gov]. Tidal power can even be used.

Wind power 'feels good' but when you start running the numbers it gets dumb real quick.

In what way? If wind were given the same subsidies as nuclear power [cato.org] the math would change. As it is now nuclear power is a form of corporate welfare.

Falcon