Perhaps T. Boone Pickens was onto something. Al writes "An article in Technology Review argues that plans to string new high-voltage lines across the US to bring wind power from the midsection of the country to the coasts, could be an expensive mistake. What's needed instead are improved local and regional electricity transmission, the development of an efficient and adaptable smart grid, and the demonstration of technology such as carbon capture and sequestration, which could prove a cheaper way to reduce carbon dioxide emissions than transmitting power from North Dakota to New York City."
Yes, because we all know that every locale has magic electricity faeries just waiting to produce low-carbon-footprint electricity.
Well, there is one extremely low carbon footprint technology [wikipedia.org] that we know works and scales well. Too bad the people who oppose it do so without offering any real alternative besides the "renewables" that we've been waiting decades for or the prospect of a lower standard of living.....
Too bad the people who oppose it do so without offering any real alternative besides the "renewables" that we've been waiting decades for or the prospect of a lower standard of living.....
I've met the opponents of nuclear energy, and they're not tree-huggers. They're your neighbors. They drive SUVs, have backyard cookouts, and they buy still buy mylar balloons even though so-and-so says the kill whales (the kids love them... what can you do?). In fact, they don't even care about the possible environmental impact of nuclear power plants --- just as long as they're nowhere the hell nearby.
Some people delude themselves into the idea we'd be building nuclear plants everywhere if it wasn't for those environmentalists (and their pesky dog! [newsgab.com]) In real life, there's about a snowball's chance of nuclear plants being constructed near major population centers. In part that's because the economics suck, but mostly it's because Joe and Jane sixpack don't want them there.
It may feel nice to shout hypocrisy at those evil environmentalists, but it's a mug's game. So get it out of your system, go learn a bit about this great country we live in. Then come back and maybe you can contribute something.
there's about a snowball's chance of nuclear plants being constructed near major population centers. In part that's because the economics suck, but mostly it's because Joe and Jane sixpack don't want them there.
There are already nearly 100 nuclear plants in the U.S. alone, and the people being served by them seem generally fine with it and do not fear it.
Most of the fear-mongering comes, historically, from environmentalists, who essentially place the environment above the well being of humans. Virtually every proposed form of energy production is disliked by core environmentalists, including wind (which takes 10's of thousands of acres of turbines to equal a medium-sized coal plant) and solar (taking 12.5 square miles of cells to match a large coal plant). And those only generate energy when the wind is blowing, or the sun is shining.
The only form I haven't heard environmentalists condemn is geothermal (probably because I'm ignorant of it), but geothermal
causes earthquakes [nytimes.com]
Nuclear is only a partial solution (currently) also. It is all mostly in your wiki article, but the high points IMHO:
1) shortage of Uranium mining (used at 2* the rate it is mined currently.)
2) shortage of manufacturing capacity (containment vessels)
3) many reactor technologies that can reduce #1 just haven't been proven to be viable yet(breeder reactors, fast reactors, etc)
I agree objections to any nuclear expansion are just wrong. But we can't just drop any options, because their is clearly no one solution to cover our energy addiction, let alone to get us through the next 20 years.
every locale has magic electricity faeries just waiting to produce low-carbon-footprint electricity
You're absolutely right, and that's why we need either nuclear power or a large power transmission grid to lower CO2 emissions.
The problem with the large power grid is that power is generateed at a 60 Hz frequency. This corresponds to a 5000 km wavelength. A quarter wave line [google.com] has a length of 1250 km (about 780 miles for the unit-challenged).
A quarter wavelength line has the property that a short circuit at one end appears as an open circuit at the other end and an open circuit appears at a short. This makes it very difficult to transmit 60 Hz power over a line of approximately that length, the line must be "impedance matched", by putting capacitors and/or inductors at several points along the line. Worse still, the line impedance varies with load, because when a higher current runs through the wires they heat up and, by dilation, lengthen and rest at a lower position, thereby increasing the capacitance to ground, which means those capacitors and inductors must be variable.
One solution is to use direct current [google.com], but that's as expensive or more than matching the impedance, although the grid becomes easier to stabilize when direct current is used.
All in all, any solution for making more electricity available is expensive. Conservation is the easiest and cheaper way to implement technically, but it seems, at least in the USA, very difficult for the people to accept.
by Anonymous Coward
on Tuesday July 14, @07:24PM (#28698391)
Conservation is the easiest and cheaper way to implement technically, but it seems, at least in the USA, very difficult for the people to accept.
There will _always_ be more people. There will _always_ be greater demand for resources. This seems very difficult for conservationists to understand.
You were right with the nuclear argument if we can just deprogram^H^H^H^Heducate the populace about how safe it really is; at least enough to placate the NIMBY crowd.
The problem with DC Power is that it cannot be stepped up/down in voltage as easily as AC by the use of transformers. The key to efficient transmission over the line is to use a fairly high voltage, much higher than the 120VAC you get to your house. So AC back in the day was the only practical option for being able to transmit in the kV range but deliver at a low voltage to the neighborhood. But power electronics technology have advanced quite a bit over the last 100 years or so and high power DC-DC converters are quite the reality, if still very expensive compared to the average transformer. But it is a solution worth putting in the bucket now.
I'm not very familar with this sort of thing at all, but I thought the problem with DC in powerlines was you'd need absolutely massive lines to properly transmit power any sort of real distance.
Actually, HVDC can carry about 40% more power over the same lines, compared to AC. The main drawback is that you need to convert to/from AC on either end. See:
That's T Boone, the Electric Faerie! All you have to do is build them thar local transmission lines with tax payer money or else he'll drop it to focus on his water monopoly already in place!
Haven't seen any wind turbines on Fl-Ebay yet, but when they do I'm gonna "Buy It Now"!
Am I the only one who gets nervous with this concept?! If the beams are even slightly out you could be frying people rather than generating electricity.
The beams intended to be used are in frequencies that specifically pass through water, since it'll have to pass through a lot of it to get to the surface. Since people are ugly bags of mostly water, they're not going to absorb significant amounts of the radiation.
I really wish people would research this before posting about it. There are some problems with SBSP (like using up a geo slot, or if launch costs are ever going to come down enough to make it economical), but frying people with the beam isn't one of them. I blame Will Wright, who should have known better.
All this talk about solar and wind energy being "free" and building these giant wind farms and turbines has had me wondering about something that I never see addressed. Has anyone considered the meteorological effects of removing all that energy from the atmosphere? I mean wind and solar energy serve a FUNCTION, they move our weather systems around, melt our snow, power our rivers, etc. You start taking a significant chunk of that energy out of the atmosphere, couldn't you end up with climate changes that could be even more devestating than the global warming you're trying to avoid?
No energy is truly "free," after all. But environmentalists keep talking about wind and solar as if there's NO downside whatsoever. It seems to me that there might be a pretty big one.
If you're being serious here, then yes that's rather the point. ANYTHING you do on a large scale has an impact. Nothing is free. Scaling up wind and solar could produce just as many unintended consequences as any other form of power generation. But everyone's so infatuated with them right now that no one seems to even be CONSIDERING the potential problems (all I've heard are a few grumblings about birds getting hit by the turbine blades and the environmental costs of producing solar panels).
People have looked at Wind right side up, upside down, back and forth and have raised issues that make anti-nuke people look sane. The problem with Wind is that it is a real threat to coal, so there is a lot of paid for flack. Especially if combined with NG and/or Nuclear with utility level Solar for peaking in the right areas. Given good distribution we know we can use wind turbines to over 30% electric power because it is being done right now in various European grids. The issue will really be capital cost and marginal cost. The scary thing for the coal folks is that there is no ongoing resource cost and as wind turbines get out of the 20 year capital payoff period they are going to be the cheapest marginal cost electricity.
Wind Power right now is close to 3% of U.S. electrical production and doubling again in 3 or 4 years. (And that is ignoring Picken's "plan" which was partially a front to own gas and water transport rights) Over half of all new power plant license requests in 2008 were for wind power. Nobody is calling for Plains to Coast power lines except for coal companies so they can criticize them. Intermediate level regional interconnects are what most propose now and they will be another up front capital cost item that will cause greatly reduced cost in 20 years or so. The better the regional interconnects the less variable the wind power is, and the cheaper the balancing cost.
Of course as Wind Power grows there are starting to be boondoggles and all the other BS things that go along with big time capital enterprises. Wind is the first "alternative" power that will have to deal with those issues and that is actually a sign of maturity to me. It becomes more like any other big business. We really are on the wave for wind as long as it isn't shut down by coal interests.
Considering the size of the earth relative to the size of any windmill farms, I seriously doubt we could ever extract a significant amount of the available energy.
...and hydroelectric power, a power generation method once considered quite "green," which turned out to cause some unexpected problems [wikipedia.org] as well.
I'm pretty sure they said the same thing about pumping pollution into the air, too. The volume of pollution pumped out of factories vs the volume of the atmosphere, it'd never be significant. What do you know - as more people started jumping on the bandwagon, new technology found new ways to pump out pollution. If we invest heavily in wind farms, new technology will come along to extract more energy in less land footprint.
And who says what "significant" is? Maybe the amount of energy available is barely over the cusp of self-sustainability, and extracting a couple hundred MW* completely ruins the jet stream, plunging us into droughts and famines the likes we've never seen? Or maybe the extraction of minor amounts of energy destabilises the jet stream such that it causes hurricanes in places that would never otherwise see them? Who knows? How can we know? Of course, maybe we have to be taking out huge amounts of energy to make that difference - we don't know that, either. (It's probably somewhere around 1.21 jiggawatts...) The question to me isn't whether we should or not (we should), it's what do we do to fix it if we do take too much out? If you think pumping out too much CO2 is bad, this has potential for much worse. Then again, it might be nothing. Can't tell.
* yes, W, not J. The sun is replenishing the energy in our atmosphere, so I'm assuming here that you have to take out energy above and beyond the energy added to the ecosystem by the sun on a continual basis to effect any change.
I'm pretty sure they said the same thing about pumping pollution into the air, too. The volume of pollution pumped out of factories vs the volume of the atmosphere, it'd never be significant. What do you know - as more people started jumping on the bandwagon, new technology found new ways to pump out pollution. If we invest heavily in wind farms, new technology will come along to extract more energy in less land footprint.
The difference is that pollution accumulates, while the wind dissipates pretty quickly. And hell, putting up a large structure probably blocks more wind (turns it into heat and sound) than a turbine could. Also, is anyone really concerned that having solar collectors on the ground is going to disrupt things as compared to having the sun hit the ground instead?!?
You start taking a significant chunk of that energy out of the atmosphere, couldn't you end up with climate changes that could be even more devestating than the global warming you're trying to avoid?
No. The wind is surface wind, so imagine how much wind is actually in the atmosphere. The wind pushing your clouds is a bit higher up. With sunlight, the energy is either heating your tiles, or charging them. It is a preference, not a robbery of some sort. And we find charge has more uses than hot tiles.
Free, though, it is not, and you are correct about there being a downside. It is in the form of cost, infrastructure, and energy efficiency, among others.
All this talk about solar and wind energy being "free" and building these giant wind farms and turbines has had me wondering about something that I never see addressed.
Yeah it's only brought up in every single/. discussion about wind power.
You start taking a significant chunk of that energy out of the atmosphere, couldn't you end up with climate changes
Yes but what makes you think wind power could ever take a 'significant' chunk of energy out of the atmosphere? A windmill only takes a tiny fraction of the energy out of the wind that moves through the area described by its rotation. The wind passing through that area is a tiny, tiny fraction of the atmosphere energy that passes over the windmill. You could cover the earth with wind farms, and you'd be taking a tiny, tiny fraction of the atmosphere's energy. And up to a certain, very large, point it isn't even clear we'd be removing more energy than the trees that existed before industrial logging and agriculture cut them down.
Could it affect the climate? Yes. Is it a reason to worry? No.
No energy is truly "free," after all. But environmentalists keep talking about wind and solar as if there's NO downside whatsoever.
Seriously, compared to what it is replacing, it is so close to zero impact as to be indistinguishable. When every fossil fuel plant has been shut down, and when we're contemplating blanketing whole continents with wind/solar farms, that's when the impact of these technologies will be significant. Then maybe we'll have to find a better solution, but hey thanks to getting rid of all the coal plants we should have plenty of time to do so.
I don't think any environmentalist would claim that they have literally NO impact, outside of this relative comparison where it is only hyperbole of the smallest order. Yes, wind isn't "truly free". No, that's not a reason to stop building wind farms as fast as possible, because "not free" isn't within orders of magnitude of "as costly as current power sources". This concern is so far out there that it just reeks of grasping at straws. The fact is that for today and the foreseeable future, the environmental benefit of wind farms is unequivocal and enormous.
I see it raised all the time. Nobody ever answers it because we all know that we have deforested the crap out of the earth, and we could put up thousands of windmills and never come close to slowing the wind down as much as all the trees removed from the planet by humans (and not replaced.)
And in case anybody doesn't want to RTFA (Read The Fine Abstract), the key word is "negligible", as in:
Although large-scale effects are observed, wind power has a negligible effect on global-mean surface temperature, and it would deliver enormous global benefits by reducing emissions of CO2 and air pollutants.
You start taking a significant chunk of that energy out of the atmosphere, couldn't you end up with climate changes that could be even more devestating than the global warming you're trying to avoid?
Yes you could. However, building the number of windmills required to satisfy all of our energy needs wouldn't make a noticeable dent in the climate AT ALL. Just to give a sense of scale, consider the following: wind power is primarily the result of solar input. At Earth distance sunlight delivers 1360 watts per (projected) square meter; that's about 10 megawatts per football field (or, if you prefer, soccer pitch.) Over the lit surface of the Earth, that's an energy input of 173,000 terawatts.
The current energy consumption of mankind? 16.
Note that this is just solar input (of which some percentage goes into wind power). This doesn't even touch on the potential of tapping into ocean tides, which is driven by gravitational forces. And of course the supernova remnant fuel storage device known as nuclear fission. Compared to the impact of releasing long-sequestered carbon from beneath the ground back into the atmosphere, stealing power from the wind is chicken feed.
Has anyone considered the meteorological effects of removing all that energy from the atmosphere?
Yes, and it's insignificant.
According to the NOAA [noaa.gov], an average hurricane releases roughly 14 Terawatt-hours of energy per day. According to the EIA [doe.gov], annual global electrical production comes to about 20 Terawatt-hours.
To summarize, one single hurricane can power the entire world (with room to grow) for an entire year if captured for two days.
Now consider how many hurricanes and typhoons there are in a year, how long they each last, and do the math. And don't forget about lesser weather phenomenon like thunderstorms (An average thunderstorm releases about 10 gigawatt-hours) and wind in general, which also release a non-trivial amount of energy.
Human energy utilization is on the order of 15 terawatts. The sun hits an earth size disc at the earth's orbit with more than 100 petawatts (I would guess that at least 30 or 50 petawatts actually make it to the ground).
There is some chance that it will cause problems, but we don't have the capacity to build up fast, so we are going to have quite some time where we are harnessing 1/10,000 of the Sun's energy. We can use that experience to decide if 1/1,000 of it poses some risk to the environmental conditions that we like to live in.
Made a quick template for you, could come handy for future posts. "What's needed instead is $buzzword1 and $buzzword2,
the development of $buzzword 3 and the demonstration of technology such as $buzzword4, which could provide a cheaper way to reduce $buzzword5."
What's needed instead is security and streaming, the development of nano-technology and the demonstration of technology such as cloud computing, which could provide a cheaper way to reduce health care costs.
It makes perfect sense to put wind farms where the *gasp* wind is.
Sure, but if the wind is so far away that a huge portion of power is lost in transmission, you may want to look for more local sources of power (wind or otherwise).
I suggest the Northeastern Corridor bring their Power Grid up to 2009 [instead of the 1940s] with redundant regional zones and smart grid management with the focus on optimum distribution before it shoots it's own mouth off and attempts to destroy intelligent power sourcing from the Midwest. The Pacific Northwest will be supporting the Midwest and so will the Southwest, you can count on it.
Decentralized generation seems likely to offer more jobs at the local level, both for construction of smaller, more numerous generating facilities and for on-going staffing and maintenance.
That's an advantage? It sounds like a disadvantage to me. It's electricity. We don't use electricity as an end in and of itself, we use it to achieve other valuable goals. If it takes more work to get it this way, that's inefficiency, ineffectiveness, and wasteful - and a drag on every other sector of the economy that uses electricity.
There's an old story about the Communists in China digging a dam, and an observer asks why they're using shovels instead of excavators. "To create more jobs", they say. "Oh, I thought you were building a dam. If it's jobs you want, take away their shovels and give them spoons."
It's complicated, but you're trying to balance the location of the generation with the location of the use with the needs of the electrical grid with the ability to put hardware there to do the previous steps.
You're trying to balance it so that you've maximized the output and efficiency while minimizing the cost and environmental impact. It's not easy to do by any stretch of the imagination. That's why you're wanting to decentralize it, but you're having to also bear in mind that transmission lines and extra workers do add to inefficiencies inherent in the system.
On top of that, you've got to be aware of regions like the west coast, south and new England which are all subject to their own geographic oddities and risks. So that you can minimize the consequences of a hurricane, earthquake or eruption.
You know what we should do? We should go ahead and continue to extract carbon from the bowels of the earth, pulverize it and shoot it into the atmosphere. That just makes economic sense. But then - you're going to like this - we go chase down all the carbon in the sky, catch it, and put it under the rug.
They were also keen on carbon-capture and also nuclear.
It's funny how big corporate interests are not so keen on projects where any little group of people could afford their own small-scale generation capacity. Although I could be talking through my tinfoil hat.
Ok, so I'm supposed to believe that Alfred P. Sloan, someone that made a VAST FORTUNE off of technology that burns oil, is going to like us NOT burning oil? Who would have ever thought that...
this is what the author really wants to sell us as an alternative to moving to renewable energy.
and the demonstration of technology such as carbon capture and sequestration, which could prove a cheaper way to reduce carbon dioxide emissions
Capturing CO2 simply requires running smokestack emissions through a chilled ammonia bath at the cost of 25% input power... i.e. we get to pay for a 125% increase in the amount of coal burned.
How do we move all these gigatons of CO2 to disposal sites and store it forever?
Big, high pressure pipelines. Odd that nobody talking up a "clean" coal future ever talks about the comparative costs of a national pipeline network vs a smartgrid.
We have massive unused heavy manufacturing capability in terms of both idle car factories and a trained labor force that can be converted to building renewable generation capability. The question of replacing coal with wind/concentrated thermal solar is a question of political will, not technological capability.
I don't even know how to dignify this with a response, apart from encouraging the moderators to mod it down as a troll, rather than 'Insightful'
Assuming that our government spontaneously decided to turn fascist, do you really think that they'd need a "smart grid" to cut power to undesirable cities and factories? They could just as easily physically sever the connection!
The "smart grid" is about repairing our power system, while anticipating future demands and generation methods. The current system has suffered from decades of neglect (as has much of our infrastructure), and is dangerously vulnerable in places. Three summers ago, about 170,000 residents of Queens in New York City lost power for several weeks after half of the feeder cables serving the borough burned up, while most of the other half eventually failed as well due to the grid's inability to properly compensate for the reduced supply. To help manage demand, many large buildings participate in a program that allows the utility company to cut power to Air Conditioning units if demand is too heavy.
In 2003, the entire northeast US (45 million people) lost power, due to a single (minor) fault in Ohio.
There's no grand conspiracy. Our current infrastructure is old, and needs to be fixed.
Yeah (Score:5, Insightful)
Yes, because we all know that every locale has magic electricity faeries just waiting to produce low-carbon-footprint electricity.
Re: (Score:3, Insightful)
Yes, because we all know that every locale has magic electricity faeries just waiting to produce low-carbon-footprint electricity.
Well, there is one extremely low carbon footprint technology [wikipedia.org] that we know works and scales well. Too bad the people who oppose it do so without offering any real alternative besides the "renewables" that we've been waiting decades for or the prospect of a lower standard of living.....
Re:Yeah (Score:5, Insightful)
Too bad the people who oppose it do so without offering any real alternative besides the "renewables" that we've been waiting decades for or the prospect of a lower standard of living.....
I've met the opponents of nuclear energy, and they're not tree-huggers. They're your neighbors. They drive SUVs, have backyard cookouts, and they buy still buy mylar balloons even though so-and-so says the kill whales (the kids love them... what can you do?). In fact, they don't even care about the possible environmental impact of nuclear power plants --- just as long as they're nowhere the hell nearby.
Some people delude themselves into the idea we'd be building nuclear plants everywhere if it wasn't for those environmentalists (and their pesky dog! [newsgab.com]) In real life, there's about a snowball's chance of nuclear plants being constructed near major population centers. In part that's because the economics suck, but mostly it's because Joe and Jane sixpack don't want them there.
It may feel nice to shout hypocrisy at those evil environmentalists, but it's a mug's game. So get it out of your system, go learn a bit about this great country we live in. Then come back and maybe you can contribute something.
Parent
Re:Yeah (Score:5, Insightful)
there's about a snowball's chance of nuclear plants being constructed near major population centers. In part that's because the economics suck, but mostly it's because Joe and Jane sixpack don't want them there.
There are already nearly 100 nuclear plants in the U.S. alone, and the people being served by them seem generally fine with it and do not fear it.
Most of the fear-mongering comes, historically, from environmentalists, who essentially place the environment above the well being of humans. Virtually every proposed form of energy production is disliked by core environmentalists, including wind (which takes 10's of thousands of acres of turbines to equal a medium-sized coal plant) and solar (taking 12.5 square miles of cells to match a large coal plant). And those only generate energy when the wind is blowing, or the sun is shining.
The only form I haven't heard environmentalists condemn is geothermal (probably because I'm ignorant of it), but geothermal causes earthquakes [nytimes.com]
Parent
Re:Nuclear power (Score:4, Informative)
Nuclear is only a partial solution (currently) also. It is all mostly in your wiki article, but the high points IMHO:
1) shortage of Uranium mining (used at 2* the rate it is mined currently.)
2) shortage of manufacturing capacity (containment vessels)
3) many reactor technologies that can reduce #1 just haven't been proven to be viable yet(breeder reactors, fast reactors, etc)
I agree objections to any nuclear expansion are just wrong. But we can't just drop any options, because their is clearly no one solution to cover our energy addiction, let alone to get us through the next 20 years.
Parent
The quarter wave problem (Score:5, Informative)
You're absolutely right, and that's why we need either nuclear power or a large power transmission grid to lower CO2 emissions.
The problem with the large power grid is that power is generateed at a 60 Hz frequency. This corresponds to a 5000 km wavelength. A quarter wave line [google.com] has a length of 1250 km (about 780 miles for the unit-challenged).
A quarter wavelength line has the property that a short circuit at one end appears as an open circuit at the other end and an open circuit appears at a short. This makes it very difficult to transmit 60 Hz power over a line of approximately that length, the line must be "impedance matched", by putting capacitors and/or inductors at several points along the line. Worse still, the line impedance varies with load, because when a higher current runs through the wires they heat up and, by dilation, lengthen and rest at a lower position, thereby increasing the capacitance to ground, which means those capacitors and inductors must be variable.
One solution is to use direct current [google.com], but that's as expensive or more than matching the impedance, although the grid becomes easier to stabilize when direct current is used.
All in all, any solution for making more electricity available is expensive. Conservation is the easiest and cheaper way to implement technically, but it seems, at least in the USA, very difficult for the people to accept.
Parent
Re:The quarter wave problem (Score:5, Insightful)
Conservation is the easiest and cheaper way to implement technically, but it seems, at least in the USA, very difficult for the people to accept.
There will _always_ be more people.
There will _always_ be greater demand for resources.
This seems very difficult for conservationists to understand.
You were right with the nuclear argument if we can just deprogram^H^H^H^Heducate the populace about how safe it really is; at least enough to placate the NIMBY crowd.
Parent
Re:The quarter wave problem (Score:5, Informative)
Parent
DC power line is the only economical way (Score:5, Informative)
Arguments against DC power lines is based on ignorance.
Québec and Manitoba have big power lines and they save tons of money. The cost of the converters on both ends is offset by the lower cost of the power lines. DC power lines have less loss and only need 2 wires instead of three. You don't have the inductive losses in DC lines.
When the line exceeds 1000km the savings are huge.
Parent
Re:DC power line is the only economical way (Score:5, Funny)
Arguments against DC power lines is based on ignorance.
Québec and Manitoba have big power lines and they save tons of money. The cost of the converters on both ends is offset by the lower cost of the power lines. DC power lines have less loss and only need 2 wires instead of three. You don't have the inductive losses in DC lines. When the line exceeds 1000km the savings are huge.
Ha! I knew you were a Canadian sympathizer, Edison! Take you direct current and go back to Canada!
Sincerly,
N. Tesla
Parent
Re:The quarter wave problem (Score:5, Informative)
For longer lines, HVDC is probably better than AC:
http://en.wikipedia.org/wiki/HVDC#Advantages_of_HVDC_over_AC_transmission [wikipedia.org]
Parent
Re:The quarter wave problem (Score:4, Informative)
I'm not very familar with this sort of thing at all, but I thought the problem with DC in powerlines was you'd need absolutely massive lines to properly transmit power any sort of real distance.
Actually, HVDC can carry about 40% more power over the same lines, compared to AC. The main drawback is that you need to convert to/from AC on either end. See:
http://en.wikipedia.org/wiki/High-voltage_direct_current#Advantages_of_HVDC_over_AC_transmission [wikipedia.org]
(I know, not that authoritative, but it cites lots of sources I can't be bothered to copy).
Parent
Re: (Score:3, Interesting)
Haven't seen any wind turbines on Fl-Ebay yet, but when they do I'm gonna "Buy It Now"!
Re:Yeah (Score:4, Informative)
Am I the only one who gets nervous with this concept?! If the beams are even slightly out you could be frying people rather than generating electricity.
The beams intended to be used are in frequencies that specifically pass through water, since it'll have to pass through a lot of it to get to the surface. Since people are ugly bags of mostly water, they're not going to absorb significant amounts of the radiation.
I really wish people would research this before posting about it. There are some problems with SBSP (like using up a geo slot, or if launch costs are ever going to come down enough to make it economical), but frying people with the beam isn't one of them. I blame Will Wright, who should have known better.
Parent
Problem with wind and solar? (Score:5, Insightful)
All this talk about solar and wind energy being "free" and building these giant wind farms and turbines has had me wondering about something that I never see addressed. Has anyone considered the meteorological effects of removing all that energy from the atmosphere? I mean wind and solar energy serve a FUNCTION, they move our weather systems around, melt our snow, power our rivers, etc. You start taking a significant chunk of that energy out of the atmosphere, couldn't you end up with climate changes that could be even more devestating than the global warming you're trying to avoid?
No energy is truly "free," after all. But environmentalists keep talking about wind and solar as if there's NO downside whatsoever. It seems to me that there might be a pretty big one.
Re:Problem with wind and solar? (Score:5, Funny)
Hopefully the drag from all those windmills will slow the earth's rotation enough to eliminate those damnable leap years.
Parent
Be careful what you wish for (Score:4, Informative)
The slowing of the Earth's rotation is already the cause of those damnable leap seconds [wikipedia.org]. You want more?
Parent
Re:Problem with wind and solar? (Score:5, Funny)
Hopefully the drag from all those windmills will slow the earth's rotation enough to eliminate those damnable leap years.
Pff...what if they're facing the other way? Hmm? Wouldn't that speed up the earth?
Parent
Re:Problem with wind and solar? (Score:4, Insightful)
yeah, like building 1 billion houses has no impact. or demolishing 10 billion trees.
Parent
Re: (Score:3, Interesting)
Re:Problem with wind and solar? (Score:5, Insightful)
People have looked at Wind right side up, upside down, back and forth and have raised issues that make anti-nuke people look sane. The problem with Wind is that it is a real threat to coal, so there is a lot of paid for flack. Especially if combined with NG and/or Nuclear with utility level Solar for peaking in the right areas. Given good distribution we know we can use wind turbines to over 30% electric power because it is being done right now in various European grids. The issue will really be capital cost and marginal cost. The scary thing for the coal folks is that there is no ongoing resource cost and as wind turbines get out of the 20 year capital payoff period they are going to be the cheapest marginal cost electricity.
Wind Power right now is close to 3% of U.S. electrical production and doubling again in 3 or 4 years. (And that is ignoring Picken's "plan" which was partially a front to own gas and water transport rights) Over half of all new power plant license requests in 2008 were for wind power. Nobody is calling for Plains to Coast power lines except for coal companies so they can criticize them. Intermediate level regional interconnects are what most propose now and they will be another up front capital cost item that will cause greatly reduced cost in 20 years or so. The better the regional interconnects the less variable the wind power is, and the cheaper the balancing cost.
Of course as Wind Power grows there are starting to be boondoggles and all the other BS things that go along with big time capital enterprises. Wind is the first "alternative" power that will have to deal with those issues and that is actually a sign of maturity to me. It becomes more like any other big business. We really are on the wave for wind as long as it isn't shut down by coal interests.
Parent
Re: (Score:3, Insightful)
Re: (Score:3, Insightful)
I happen to agree with you but the devil's advocate in me replies that they said the same thing about the Buffalo.
Re: (Score:3, Informative)
Re:Problem with wind and solar? (Score:4, Insightful)
I'm pretty sure they said the same thing about pumping pollution into the air, too. The volume of pollution pumped out of factories vs the volume of the atmosphere, it'd never be significant. What do you know - as more people started jumping on the bandwagon, new technology found new ways to pump out pollution. If we invest heavily in wind farms, new technology will come along to extract more energy in less land footprint.
And who says what "significant" is? Maybe the amount of energy available is barely over the cusp of self-sustainability, and extracting a couple hundred MW* completely ruins the jet stream, plunging us into droughts and famines the likes we've never seen? Or maybe the extraction of minor amounts of energy destabilises the jet stream such that it causes hurricanes in places that would never otherwise see them? Who knows? How can we know? Of course, maybe we have to be taking out huge amounts of energy to make that difference - we don't know that, either. (It's probably somewhere around 1.21 jiggawatts...) The question to me isn't whether we should or not (we should), it's what do we do to fix it if we do take too much out? If you think pumping out too much CO2 is bad, this has potential for much worse. Then again, it might be nothing. Can't tell.
* yes, W, not J. The sun is replenishing the energy in our atmosphere, so I'm assuming here that you have to take out energy above and beyond the energy added to the ecosystem by the sun on a continual basis to effect any change.
Parent
Re:Problem with wind and solar? (Score:5, Interesting)
The difference is that pollution accumulates, while the wind dissipates pretty quickly. And hell, putting up a large structure probably blocks more wind (turns it into heat and sound) than a turbine could. Also, is anyone really concerned that having solar collectors on the ground is going to disrupt things as compared to having the sun hit the ground instead?!?
Parent
Re: (Score:3, Insightful)
But look at the size of the windmill farms if they were to generate ALL of our power.
You Gotta Be Joking (Score:5, Informative)
You start taking a significant chunk of that energy out of the atmosphere, couldn't you end up with climate changes that could be even more devestating than the global warming you're trying to avoid?
No. The wind is surface wind, so imagine how much wind is actually in the atmosphere. The wind pushing your clouds is a bit higher up. With sunlight, the energy is either heating your tiles, or charging them. It is a preference, not a robbery of some sort. And we find charge has more uses than hot tiles.
Free, though, it is not, and you are correct about there being a downside. It is in the form of cost, infrastructure, and energy efficiency, among others.
Parent
Re:Problem with wind and solar? (Score:5, Insightful)
All this talk about solar and wind energy being "free" and building these giant wind farms and turbines has had me wondering about something that I never see addressed.
Yeah it's only brought up in every single /. discussion about wind power.
You start taking a significant chunk of that energy out of the atmosphere, couldn't you end up with climate changes
Yes but what makes you think wind power could ever take a 'significant' chunk of energy out of the atmosphere? A windmill only takes a tiny fraction of the energy out of the wind that moves through the area described by its rotation. The wind passing through that area is a tiny, tiny fraction of the atmosphere energy that passes over the windmill. You could cover the earth with wind farms, and you'd be taking a tiny, tiny fraction of the atmosphere's energy. And up to a certain, very large, point it isn't even clear we'd be removing more energy than the trees that existed before industrial logging and agriculture cut them down.
Could it affect the climate? Yes. Is it a reason to worry? No.
No energy is truly "free," after all. But environmentalists keep talking about wind and solar as if there's NO downside whatsoever.
Seriously, compared to what it is replacing, it is so close to zero impact as to be indistinguishable. When every fossil fuel plant has been shut down, and when we're contemplating blanketing whole continents with wind/solar farms, that's when the impact of these technologies will be significant. Then maybe we'll have to find a better solution, but hey thanks to getting rid of all the coal plants we should have plenty of time to do so.
I don't think any environmentalist would claim that they have literally NO impact, outside of this relative comparison where it is only hyperbole of the smallest order. Yes, wind isn't "truly free". No, that's not a reason to stop building wind farms as fast as possible, because "not free" isn't within orders of magnitude of "as costly as current power sources". This concern is so far out there that it just reeks of grasping at straws. The fact is that for today and the foreseeable future, the environmental benefit of wind farms is unequivocal and enormous.
Parent
Re:Problem with wind and solar? (Score:5, Insightful)
I see it raised all the time. Nobody ever answers it because we all know that we have deforested the crap out of the earth, and we could put up thousands of windmills and never come close to slowing the wind down as much as all the trees removed from the planet by humans (and not replaced.)
Parent
Re:Problem with wind and solar? (Score:5, Insightful)
There have been some studies, for example "The influence of large-scale wind power on global climate" [pnas.org].
Parent
Re:Problem with wind and solar? (Score:5, Informative)
And in case anybody doesn't want to RTFA (Read The Fine Abstract), the key word is "negligible", as in:
Although large-scale effects are observed, wind power has a negligible effect on global-mean surface temperature, and it would deliver enormous global benefits by reducing emissions of CO2 and air pollutants.
Parent
Re:Problem with wind and solar? (Score:5, Interesting)
Yes you could. However, building the number of windmills required to satisfy all of our energy needs wouldn't make a noticeable dent in the climate AT ALL. Just to give a sense of scale, consider the following: wind power is primarily the result of solar input. At Earth distance sunlight delivers 1360 watts per (projected) square meter; that's about 10 megawatts per football field (or, if you prefer, soccer pitch.) Over the lit surface of the Earth, that's an energy input of 173,000 terawatts.
The current energy consumption of mankind? 16.
Note that this is just solar input (of which some percentage goes into wind power). This doesn't even touch on the potential of tapping into ocean tides, which is driven by gravitational forces. And of course the supernova remnant fuel storage device known as nuclear fission. Compared to the impact of releasing long-sequestered carbon from beneath the ground back into the atmosphere, stealing power from the wind is chicken feed.
Parent
Re:Problem with wind and solar? (Score:5, Informative)
Has anyone considered the meteorological effects of removing all that energy from the atmosphere?
Yes, and it's insignificant.
According to the NOAA [noaa.gov], an average hurricane releases roughly 14 Terawatt-hours of energy per day. According to the EIA [doe.gov], annual global electrical production comes to about 20 Terawatt-hours.
To summarize, one single hurricane can power the entire world (with room to grow) for an entire year if captured for two days.
Now consider how many hurricanes and typhoons there are in a year, how long they each last, and do the math. And don't forget about lesser weather phenomenon like thunderstorms (An average thunderstorm releases about 10 gigawatt-hours) and wind in general, which also release a non-trivial amount of energy.
Parent
Re:Problem with wind and solar? (Score:4, Informative)
Human energy utilization is on the order of 15 terawatts. The sun hits an earth size disc at the earth's orbit with more than 100 petawatts (I would guess that at least 30 or 50 petawatts actually make it to the ground).
There is some chance that it will cause problems, but we don't have the capacity to build up fast, so we are going to have quite some time where we are harnessing 1/10,000 of the Sun's energy. We can use that experience to decide if 1/1,000 of it poses some risk to the environmental conditions that we like to live in.
Parent
Made a quick template for you (Score:5, Funny)
Re:Made a quick template for you (Score:5, Funny)
Yep, seems to work.
Parent
local power - yes, carbon capture - no ? (Score:5, Informative)
I spell carbon capture "c o a l s u b s i d y".
It's not going to work, it's just another way to subsidize coal companies, as if letting them blow the tops off of mountains wasn't enough.
Installing renewables local to where the power is needed is, of course, a great idea.
Re: (Score:3, Informative)
It makes perfect sense to put wind farms where the *gasp* wind is.
Sure, but if the wind is so far away that a huge portion of power is lost in transmission, you may want to look for more local sources of power (wind or otherwise).
I suggest the Northeastern Corridor bring their Power Grid up to 2009 [instead of the 1940s] with redundant regional zones and smart grid management with the focus on optimum distribution before it shoots it's own mouth off and attempts to destroy intelligent power sourcing from the Midwest. The Pacific Northwest will be supporting the Midwest and so will the Southwest, you can count on it.
There's another advantage (Score:4, Interesting)
Decentralized generation seems likely to offer more jobs at the local level, both for construction of smaller, more numerous generating facilities and for on-going staffing and maintenance.
Re:There's another advantage (Score:5, Insightful)
There's an old story about the Communists in China digging a dam, and an observer asks why they're using shovels instead of excavators. "To create more jobs", they say. "Oh, I thought you were building a dam. If it's jobs you want, take away their shovels and give them spoons."
Parent
Re:There's another advantage (Score:4, Insightful)
You're trying to balance it so that you've maximized the output and efficiency while minimizing the cost and environmental impact. It's not easy to do by any stretch of the imagination. That's why you're wanting to decentralize it, but you're having to also bear in mind that transmission lines and extra workers do add to inefficiencies inherent in the system.
On top of that, you've got to be aware of regions like the west coast, south and new England which are all subject to their own geographic oddities and risks. So that you can minimize the consequences of a hurricane, earthquake or eruption.
Parent
Carbon capture and sequestration (Score:3, Insightful)
Re:Carbon capture and sequestration (Score:5, Funny)
I agree - mod parent up.
You know what we should do? We should go ahead and continue to extract carbon from the bowels of the earth, pulverize it and shoot it into the atmosphere. That just makes economic sense. But then - you're going to like this - we go chase down all the carbon in the sky, catch it, and put it under the rug.
Parent
Central Generation (Score:5, Interesting)
The CBI in the UK has been railing against our governments focus on wind power as well [bbc.co.uk].
They were also keen on carbon-capture and also nuclear.
It's funny how big corporate interests are not so keen on projects where any little group of people could afford their own small-scale generation capacity. Although I could be talking through my tinfoil hat.
Ok, so I'm supposed to believe... (Score:3, Interesting)
http://www.newworldencyclopedia.org/entry/Alfred_P._Sloan,_Jr. [newworldencyclopedia.org]
Two Words (Score:3, Insightful)
Nuclear Power.
Nuclear! (Score:3, Insightful)
Just about anything but nuclear [blogspot.com] is a mistake.
just another bunch of Big Coal shills (Score:5, Interesting)
Capturing CO2 simply requires running smokestack emissions through a chilled ammonia bath at the cost of 25% input power... i.e. we get to pay for a 125% increase in the amount of coal burned.
How do we move all these gigatons of CO2 to disposal sites and store it forever?
Big, high pressure pipelines. Odd that nobody talking up a "clean" coal future ever talks about the comparative costs of a national pipeline network vs a smartgrid.
We have massive unused heavy manufacturing capability in terms of both idle car factories and a trained labor force that can be converted to building renewable generation capability. The question of replacing coal with wind/concentrated thermal solar is a question of political will, not technological capability.
Re:Smart Grid Is a Dumb Idea (Score:4, Interesting)
I don't even know how to dignify this with a response, apart from encouraging the moderators to mod it down as a troll, rather than 'Insightful'
Assuming that our government spontaneously decided to turn fascist, do you really think that they'd need a "smart grid" to cut power to undesirable cities and factories? They could just as easily physically sever the connection!
The "smart grid" is about repairing our power system, while anticipating future demands and generation methods. The current system has suffered from decades of neglect (as has much of our infrastructure), and is dangerously vulnerable in places. Three summers ago, about 170,000 residents of Queens in New York City lost power for several weeks after half of the feeder cables serving the borough burned up, while most of the other half eventually failed as well due to the grid's inability to properly compensate for the reduced supply. To help manage demand, many large buildings participate in a program that allows the utility company to cut power to Air Conditioning units if demand is too heavy.
In 2003, the entire northeast US (45 million people) lost power, due to a single (minor) fault in Ohio.
There's no grand conspiracy. Our current infrastructure is old, and needs to be fixed.
Parent