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Solar Could Beat Coal to Become the Cheapest Power on Earth In Less Than a Decade (bloomberg.com)
Solar power is now cheaper than coal in some parts of the world. In less than a decade, it's likely to be the lowest-cost option almost everywhere, reports Bloomberg. From the article: In 2016, countries from Chile to the United Arab Emirates broke records with deals to generate electricity from sunshine for less than 3 cents a kilowatt-hour, half the average global cost of coal power. Now, Saudi Arabia, Jordan and Mexico are planning auctions and tenders for this year, aiming to drop prices even further. Taking advantage: Companies such as Italy's Enel SpA and Dublin's Mainstream Renewable Power, who gained experienced in Europe and now seek new markets abroad as subsidies dry up at home. Since 2009, solar prices are down 62 percent, with every part of the supply chain trimming costs. That's help cut risk premiums on bank loans, and pushed manufacturing capacity to record levels. By 2025, solar may be cheaper than using coal on average globally, according to Bloomberg New Energy Finance. The solar supply chain is experiencing "a Wal-Mart effect" from higher volumes and lower margins, according to Sami Khoreibi, founder and chief executive officer of Enviromena Power Systems. The speed at which the price of solar will drop below coal varies in each country. Places that import coal or tax polluters with a carbon price, such as Europe and Brazil, will see a crossover in the 2020s, if not before. Countries with large domestic coal reserves such as India and China will probably take longer.
Nat Gas is the cheapest.
What about at night?
What kind of solar are they talking about? Photovoltaic? Surely this doesn't include storage or converting to AC does it? The article doesn't say.
Better known as 318230.
Please stop confusing price and cost. How many stupid articles do we have to read that conflate the two very different things?
Somebody pays for the land and subsidy, be it in the form of higher property taxes or whatever, or maintenance, insurance, cleaning and depreciation that somehow get left out. Solar prices may still be falling, but these deals are not what they are cracked up to be.
China knows about real costs, and they are building new coal plants at about 1 a week. Coal trumps solar. Simples.
We can let the sunshine reach the earth,
where it gets absorbed by a plant,
which dies and gets buried deep underground,
and after many millenia and crushing pressure turns into coal,
then we build machines to dig holes in the ground,
then we send miners down into the coal mine to extract the coal,
then haul the coal up to the surface,
and we ship the coal to a power plant,
and finally we extract the energy.
Or... we can let the sunshine reach the earth,
where it gets absorbed by a solar panel.
To answer some questions about storage : This startup proposes flywheels made of concrete, having overcome the problems linked to its low tensile strength.
http://www.energiestro.net/technology/
> Nat Gas is the cheapest.
Natural gas is highly subsidized, and even still no company has pulled a profit on natural gas since 2008.
Plus the costs, which can be huge, are externalized onto taxpayers and landowners.
Take Pennsylvania, which made $204 million on taxing shale, but road damage from nat. gas was over $3.5 bn. That's just one state.
Plus, many natural gas companies have stopped paying landowners en masse. What happens when their class action lawsuits start to come through?
Natural gas being cheap is a short term aberration.
For reference:
http://www.zerohedge.com/news/...
They will take over and we will blot out the sky. Then we will fight them in a virtual world.
What I'm saying is we can't rely on solar.
Nat Gas is still the cheapest
Zero Hedge is not a source for anything. Please try again.
Yes, and once that happens, people will switch in large numbers. Until that happens, neither government incentives nor carbon taxes make much sense. That's precisely why government should just stay out of it.
Zero Hedge? AYFKM? Could you cite and parrot a more biased source? Have you no pride?
Won't the panels have to be continuously replaced every (other?) decade as they degrade? Aren't we just shifting the pollution from coal to the panel production plants and rare-earth mining? What do we do with all these panels at their end-of-life? I presume there is some inclusion of heavy and rare-earth elements in the panels. Where does that go?
Don't get me wrong, I applaud the greater efficiencies at which we run our world, but how much of this is virtue and virtue signaling?
It can't be cheaper if you INCLUDE the 9.3 billions subsidies...dumbass!
"now seek new markets abroad as subsidies dry up at home" Yes, that sounds like solar products are now well on the way to being the cheapest form of power generation. Oh wait, we are talking about exclusive solar contracts in the petrostates? Yeah, I'm sure the market has spoken. Much of the world has demonstrated that nuclear power can be safe, cheap, and effective. Nuclear power should be regulated like the airlines; constant oversight, well regarded industry organs, and responsible, established manufactures serving well capitalized operators. We know it can be done, and for less $$ than some of the social moonshots we try (war on drugs, Obamacare, war on poverty (at least the worst elements), heck, climate change subsidies). Establishing a long term framework for national and global power generation, emissions free, with prices "too cheap to meter", would change the future of humanity drastically.
WhiteWolf666 an exBush supporter. All you new-school,compassionate,save the children Republicans can rot in hell
Natural gas is highly subsidized, and even still no company has pulled a profit on natural gas since 2008.
If they pulled a profit, they would have to pay taxes on it.
Plus the costs, which can be huge, are externalized onto taxpayers and landowners.
Take Pennsylvania, which made $204 million on taxing shale, but road damage from nat. gas was over $3.5 bn. That's just one state.
This is what we voted for when we elected Reagan in 1980; shit hasn't changed.
many natural gas companies have stopped paying landowners en masse. What happens when their class action lawsuits start to come through?
As long as those lawsuits happen within the next few years, pretty much nothing.
Natural gas being cheap is a short term aberration.
People still buy into the fairy tail of trickle down economics.
http://www.nytimes.com/2016/08...
https://www.washingtonpost.com...
The only thing is, all of these dumb rednecks desperately want to die early from some kind of coal-related illness. Is there some way we can still make their dream come true, even as solar gets cheaper by the day? What hope is there that they can still die of black lung in mid-life, like they so desperately want? Won't somebody please think of the coal miners?!?!?!?
I don't respond to AC's.
For fuck sake dickhead.
Do you really think shale is the only source of natural gas.
Your argument is dunber than saying water is expensive because it comes un polluting bottles.
Wow, variability in the power grid, we've never had to deal with that unsolvable problem before!
For the love of Crom, am I the only one here who wants to keep the U.S. technologically competitive?
> Nat Gas is the cheapest.
Natural gas is highly subsidized, and even still no company has pulled a profit on natural gas since 2008.
Plus the costs, which can be huge, are externalized onto taxpayers and landowners.
Take Pennsylvania, which made $204 million on taxing shale, but road damage from nat. gas was over $3.5 bn. That's just one state.
Plus, many natural gas companies have stopped paying landowners en masse. What happens when their class action lawsuits start to come through?
Natural gas being cheap is a short term aberration.
For reference: http://www.zerohedge.com/news/...
I've been waiting for this to happen for a few years. The numbers are just getting more and more red. Even the Financial Times is comparing the shale industry to the dotcom bubble. The bit about crappy shale stock being sold by the cargo pallet to insurance companies and pensions funds sounds worryingly like the mortgage bubble. People are openly talking about similarities between the housing market crash and this shale bubble except, the shale bubble is 'only' 1/4 the size of the mortgage bubble. Well tell that to the people who will lose a large portion of their pension. Oops, the free market did a boo boo, nothing personal just business! Cold comfort if you ask me.
Gee, if we were allowed to build pipelines, then road costs would approach 0.
Gamingmuseum.com: Give your 3D accelerator a rest.
USA is not the all WORLD!! This story talks about solar cost in the WORLD!!
Now go back to your hole and take Trump and Hillary with you.
Higuita
Global warming is bullshit, and you want to burn coal. And you're calling other people "dumb"...
However, it will not matter in US. At least for the next four years, the US has a government in denial. Furthermore, it is not sufficient to have a lot of electricity from solar or wind (which is essential also driven by solar power). We need storage facilities and present battery technology is too expensive and does not support enough cycles, as it is focused on light, easy to transport and small batteries. For large scale energy storage we need much more recharge cycles, but it is not that relevant how big the batteries are or how heavy. Anyway, nothing which will be happening in the US. China, the EU and India will compete in this area.
Coal is quite expensive and inflexible. It takes literally decades to open a coal mine, extract the coal and close it up again. And it is only feasible if there is either someone constantly requesting the coal, or if you have large storage capacities for unused coal, or if some governmental body pays subsidies for the time you can't sell the coal, and thus have to stop mining.
Because pipelines are free.
Any studies on the heavy metal runoff from Chinese made solar panels?
I could win the lottery.
You could cure cancer.
Hillary could be president.
What a fucking nonsensical article.
Fuck coal and fuck your ignorance for supporting it.
of Chinese workers exposed to toxic metals?
Ah, the advantages of not having to haul/burn ancient plant/animal life! I don't know why its taken so long for humanity to come to the pretty inescapable conclusion that a power source that requires no fuel input (solar/wind) is going to be better than one that requires gigatons of fuel (oil, natural gas, coal, etc) to be mined/pumped, refined & transported. Fossil fuels do of course still have a place in a variety of applications (peak load, night, long distance transport, etc) at least until we develop a comparable battery technology but renewables should have supplanted them as the source for a majority of our energy production long ago even with its storage limitations.
This is not exactly news. On the one hand, it's true; solar is considerably cheaper than anything else in large swathes of the developing world and has been for a while now. It's only going to get more-so. However, that's only the case if you use it to offset grid usage; a complete off-the-grid solar system, with enough storage to see you through the night and the odd cloudy day, is still going to cost you more over its life than the equivalent grid supply. The costs are heading down, and it's not far off being worth doing in some places, but it's not there yet. There are a few cases where supply costs aren't the only consideration where solar-with-storage is already reliable for other reasons; we came across a mining outfit with a very large crusher and a very unreliable grid. Every time the grid cut out, their crusher stopped, and someone had spend a couple of hours climbing through it clearing out the half-crushed rubble before they could restart it. Concerns about the 'unreliability' of renewables are a very first-world thing, where the grid alternative has several nines of reliability; when there are more sevens than nines involved in the grid reliability, renewables suddenly look pretty reliable.
But. On the other hand, the cost numbers are a bit deceptive. The comparison, especially in the first world, is always for _new build_ capacity. So if you're looking to add 100MW capacity and the choice is between solar-with-storage and a new 100MW coal plant, solar might well out-perform coal in a few years. But if the choice is between 100MW of existing coal capacity and 100MW of new-build solar-with-storage, there's no competition and won't be, probably ever, for two reasosn: One, you've already spent the sunk costs of the coal plant and they're being amortized over the remaining life of the plant, so replacing it with solar means there is a sudden 'cost' to account for, which you've actually already spent but which you were planning to make back in the years to come but now can't. And two, because almost all the costs of renewables are in the construction phase (ie there is no fuel to buy), you need the money sooner than you do with fossil fuels, so you don't get to spend the money on something else. As a crude example, suppose you have two 100MW projects, each with a life of 20 years, one coal and one solar. The coal plant costs $50 million to build and you'll spend $50 million on fuel evenly over its 20 year life, while the solar plant costs $100 million to build with no operating costs. The overall cost is equal, but with the coal plant you have $50 million to invest in something else until you actually need the coal, while with the solar plant you've already spent your whole $100 million.
The exact difference depends on the (assumed) discount rate, and what number to use is a matter of considerable controversy. See eg. the Stern review, which assumed a very low discount rate, to make spending now look more competitive than spending in the future. To go back to the example, assuming a discount rate of 3%, the solar project has to cost around $88 million to be competitive with the coal project.
Slashdot - News for Nerds, Stuff that Matters, in ISO-8859-1 Has just realised that beta makes this signature redundant
The Bloomberg article fails to mention or even compare the subsidies to Solar that have driven down the cost (not actual cost) and regulations that have reduced the market for coal (lacking subsidies). In terms of subsidies the E.U. is on ill financial footing and a Frexit-Dexit-Itexit (France, Denmark and Italy) will leave the E.U. with a Nazi core and splinter dictatorships and without the money to fund subsidies. For Africa, Australia, China and South America the U.N. has to supply the cash for the subsidies. But here too the flow in dwindling and national revolts a plenty. Just take Haiti for example where Ban Ki-Moon, the Clinton Foundation and the Al Gore Road Show caused the sickening of 800,000 and death of 9,000 due to Cholera being introduced to Haiti thanks to U.N. "Peace Keeper Troops" from Nepal (the Troops were the disease carriers). Then there is the U.S.A. where Obama and the Democratic Nazi Committee (of the Green Lobby, queue the Clinton Foundation among others and the Al Gore Road Show) are finding new ways to de-cash themselves as they deconstruct themselves to the ash pile of history and have no cash and no political strength to supply the backing to U.S. government subsidies from a Republican controlled Congress. In summation the Bloomberg story is just ill-researched fiction.
with coal?
Seems like a good way to keep them working AND provide infrastructure improvement programs for them to migrate to as the mining industry winds down.
Plus with all that coal dust rolling off their roads they can feel like they never left the mines! (I say this of course in jest, because coal mining and miner's lung are some really terrible things that only make sense because they pay better than the alternatives of being unemployed or working jobs for shit pay that you will only be able to get out of because you took up coal mining, or had some fancy city family give you a ticket to work minimum wage in lib'rul country somewhere, where they will probably try and belittle you as a stupid uneducated redneck.)
Fuck coal and fuck your ignorance for supporting it.
Sent from my indirectly coal powered iPhone
When you burn natural gas in a gas turbine, which is I think routinely done in the USA, the burning gas/air mix directly spins a gas turbine. There is thus no intermediary medium as you claim.
That is one of the reasons gas is cheap to use. There's simply less capital involved in handling the intermediary medium. No boiler, steam generator, steam turbine, condenser, heat exchange.
https://powergen.gepower.com/r...
--PM
Just let electricity prices vary more dramatically throughout the day depending on supply. People will soon enough adapt. I can remember overnight storage heaters full of bricks that were heated with less expensive off-peak electricity, people will install their own in-home or in-community storage facilities when they get sick of paying the premium for non-solar electricity.
Nullius in verba
Pics or it didn't happen
After working out my power NEEDS, and building an offgrid system for about $5000(~2KW); Been off-grid for a few years and don't believe theres any reason not to leave the grid. You save a lot avoiding the monthly service fees, taxes and of course regular power rate.
Some math for you filth...
Currently panels seem to run $0.68(to less than 0.50!) a watt poly/mono crystalline.
100 watt panel = $68
In Poor/lousy non-tracking north east/west coast North America produces a yearly average of 2 sun hours per day. 100*2hrs= 0.2KWh/day * 365 = 73Kwh/year. In Maine power is $0.128/KWh.
73*0.128 = $9.344 'saved' per year. $68 Panel/$9.344 = 7.28 years to payoff the solar panel; Figure *minimum life expectancy is 20 years. For $68 spent today solar will return $118 profit in 20 years in Maine.
Now for SW USA where it's quite possible to get 5.5 sun hours a day on average thats. 100*5.5hrs=0.55KWh/day*365 = 200.75KWh/year *$0.128=$25.696/year . $68/$25.696=2.65 years and panel pays for itself. 20 years -2.65years=17.35years*25.696= $446 Profit/saved for every $68 spent.
Now actually your looking at ~10-20% losses from grid-tied inverter, and offgrid has serious storage/inverter implications. Then theres all sorts of BS regulations forcing you to pay 2x+ the price to have 'qualified people', permits, and other BS in the way to make it more expensive... But presuming you can find your way through the minefield installed by utilities(and professional installers trying to secure their jobs); solar is FREE(fully pays for itself, and generates free power for years).
Personally I think every freehold house in the first world should be solar/now/yesterday.. Cities are another story.
https://www.bluepacificsolar.c...
The remaining obstacle is energy storage. Coal combines energy storage with energy source. It just sits there silently storing the energy.
In order for solar to beat this, we have to reduce the price of whatever battery we are using such that the price of the solar panels and batteries together beat coal.
Rei mentioned a lot of interesting factors. The bottom line, the tldr, is basically:
We can store energy from afternoon sun for a few hours and use it to cook dinner.
On the other hand, when a big storm system covers half the US for a week, there's no storage that is going to come anywhere close to providing a week of energy for half the country.
Another HUGE factor is energy needs versus current electricity usage. Right now, most of the world's energy usage isn't electricity. We heat homes and businesses with natural gas and heating oil, transportation is by diesel and gasoline. One European country that brags about its clean solar energy burns trash for heating, as well as diesel. If we want electric cars, electric trucks, electric heating, etc we're going to need eight times as much electricity as we have now. So suppose there was a major breakthrough in physics that allowed us to store as much electricity as California currently needs for a cloudy week. That would still be only 12% of their ENERGY needs for the week.
Because pipelines aren't roads, dipshit.
Memes are easier than thinking, huh?
[startup with concrete flywheels]
And superflywheels (of glass fiber) were considered for hybrid electric vehicles, decades ago. (They might even have been practical then. And might have gotten to market if the bogus silicon-breast-implant suits hadn't broken Dow Corning.)
But the battery technology just coming on line (driven by the electric and hybrid autos) will eat flywheels' lunch.
Bantam Dominique roosters crow a four-note song. Once you've heard it as "Happy BIRTHday" you can't NOT hear it that way
They have this thing called a battery, you know.
A maunder minimum doesn't appreciably reduce the amount of power from a solar panel.
Remember that the cosmic background is about 4 degrees Kelvin, and room temperature nearly 300. A few percent drop in solar output can cause a lot of cooling but only about the same few percent of impact on solar panel output. (Less, actually, or maybe even a gain, because the panels are a lot more efficient when they're cooler.)
Bantam Dominique roosters crow a four-note song. Once you've heard it as "Happy BIRTHday" you can't NOT hear it that way
In summary, evening is okay, cloudy weeks aren't
Peaking power plants typically run at under 10% utilization year round. During cloudy days these typically natural gas burning plants could handle 10x their normal load to cover for idle solar panels. Combine that with the fact that typical solar panels still run at around 20% efficiency with dense cloud cover you could reduce the number of traditional power plants by at least a factor of 10 by replacing them with solar plants. And this is without trying to store electricity as an alternative.
All of the "problems" with solar energy are very easily solvable and most are hardly even worth mentioning, other than to refute myths that is.
-- All that is necessary for the triumph of evil is that good men do nothing. -- Edmund Burke
What about at night?
Ever heard of a battery? Plus just because you use solar during the day doesn't preclude you from using other sources of energy when it isn't available.
One of the best things about solar is that solar is particularly useful for air conditioning and refrigeration. Peak costs for those systems are highest when the sun shines the strongest for obvious reasons. A solar array can flatten those costs out very nicely. Honestly it's a mystery to me why every grocery store doesn't have a solar array on their roof. On days where there is lots of sun they'll get lots of solar power and when it isn't shining so strongly they probably don't need as much solar.
Wouldn't wind farms produce more power during a storm? Or do they have to be shut down?
Seriously you're Americans. What's with all this hippy commie renewable bullshit. Burn the fucking coal. It can't hurt anything or anyone.
I do not want your cheap brainburning drugs. They are useless for work. And I am a working man today.
Free to the state unless the operator spills and goes bankrupt without insurance. Just require insurance.
Solar has ALWAYS been the future, but you don't punish consumers by forcing more expensive energy on them when it isn't ready.
Solar will get here. It may be here in 10 years. It may take 20 or 30 or even 50. But it will get here.
Until then, use the cheapest energy possible, the best energy for the application, and the best energy source available for that region. For example, Africa needs coal. Now. However, people who hate coal are punishing Africans.
Solar activity predicted to fall 60% in 2030s, to 'mini ice age' levels:
Solar "activity" is not the same as solar output. It's the sunspot / solar flare / solar wind output. Last I heard the main issue was ts effects on weather (mainly via changes in cloud cover), not a reduction in insolation. (The sun cools VERY gradually, due to heating from gravitational contraction. If all nuclear processes stopped the sun would still be good for millenia.)
Bantam Dominique roosters crow a four-note song. Once you've heard it as "Happy BIRTHday" you can't NOT hear it that way
We've managed to get our puppet government installed, so there will be no crisis for the fossil fuel industry any time soon. You'll have plenty of time to move your personal interests out of those companies while staying below the radar of what regulators may still be on the job later this year.
- Your friends, The Fossil Fuel Lobby
On the other hand, when a big storm system covers half the US for a week, there's no storage that is going to come anywhere close to providing a week of energy for half the country.
Doesn't have to be. When you have a big storm that knocks down the power grid would you rather have some power for part of the day or no power for any of the day? Having solar cells on your roof insulates you from some of those problems. Furthermore solar cells still work even when the weather is bad and it is cloudy. Not as well of course but it doesn't have to be a bright clear day for them to provide some utility.
That said it's a moot point. Not like the grid is going away and you have the option of a generator for local emergency power. Germany generates something like 20-30% of their power from solar and they are routinely cloudy there.
Right now, most of the world's energy usage isn't electricity. We heat homes and businesses with natural gas and heating oil, transportation is by diesel and gasoline.
True but it doesn't have to remain that way in the long term. If we have efficient and clean electric power then there will be plenty of incentive to convert those fossil fuel systems to electric ones. Won't happen overnight but if the economics are right it WILL happen.
Well, you do realize, that capacity (natgas or whatever) sitting idle (not making money) is seriously expensive, right?
Using fossil fuels sources and not forcing them to pay the full cost of the pollution and carbon they generate is even more expensive in the long run. Fossil fuels are what should be the alternative break-glass-in-case-of-emergency fuel source. They're useful but dirty and we should be trying to minimize their use as fast as possible.
That's why solar _must_ be cheap for markets to clear - one needs a backup to use it.
Every source of power needs backup. Powerplants of every description have to be idled for maintenance now and then. Storms knock out parts of the grid. Demand sometimes exceeds local supply. Solar is nothing fundamentally different in that regard.
I only come here for the trolls.
will reduce the number of coal power plants being built. It will be harder to get the financing needed if the banks believe you won't be able to sell the power generated since it will cost more. Also since the cost of generating the next MW of solar power is zero which is less than the cost of generating the next MW of coal power, the coal power plant must burn coal, solar power plants can undersell coal power plants. This means as solar power plants increase generation coal power plant will sell less and less power. There will come a point where they will go out of business.
Solar Could Beat Coal to Become the Cheapest Power on Earth In Less Than a Decade
But then again Kate Upton could be coming over to my house tonight looking for a good time.
The future is solar but when Hillary talked about the economic boon from solar, she fails to mention all of those brand new solar panels will be built in China.
> Wouldn't wind farms produce more power during a storm? Or do they have to be shut down?
Unfortunately they don't produce more power when the wind is stronger than normal, and as you mentioned most have to be shut down for storm winds.
That sucks because the power of the wind is proportional to the CUBE of it's velocity. Wind at 40 MPH has 64 times as much power as wind at 10 MPH, but we can't harvest all that extra power. Instead, power captured by turbines is basically capped at their normal production, so power output only falls with lower wind speeds, it doesn't increase with higher speeds.
This is really frustrating, being unable to capture most of the available power on windy days, but it's unlikely to change. The difference in the amount of force applied to the turbine and it's parts is really significant. Imagine trying to build a keyboard that works with light touches on the keys, and also works well when you bang it with a hammer.
Kansas is a great place to wind farm but when the winds get to high during storms which is particularly common in the spring during tornado season then some of them simply disengage and allow the blades to spin freely at a certain speed or manually and others have blades that are secured some even fold down.
The same goes for windmills that are frequently used for irrigation. Usually there is a small tower with a float that releases the pump using a clutching system when it's full and the blade is allowed to turn freely along with a manual over-ride for times when the wind is to high and will damage the pump.
> Germany generates something like 20-30% of their power from solar and they are routinely cloudy there.
Something like 2% of their energy. 20% of their domestically produced electricity (they import).
How are you "fighting"? How will you "defeat" anyone?
You don't know, and you're terrified to admit it. That's why you only speak of this "fight" in these broad terms that don't really mean anything.
Or the coal or the gas or the oil. When they're unavailable, they don't produce power, so you need a backup. EVERY power source requires backup.
Every. One.
> natural gas burning plants could handle 10x their normal load to cover for idle solar panels.
Yep, natural gas and nuclear can provide power when solar isn't providing enough at the moment, for whatever reason. That's a great mix. The cheapest, cleanest energy when it's available, reliable energy that's still clean and reasonably cheap when the more preferred energy isn't sufficient at the moment.
> All of the "problems" with solar energy are very easily solvable [by using natural gas instead] and most are hardly even worth mentioning
Whether or not it's worth an honest analysis of the strengths and weaknesses of different sources of energy depends on whether you want to actually solve some problem, such as environmental problems, or you just want to be a cheerleader for your "team", without actually accomplishing anything.
Suppose you just want to be a cheerleader, so you just sing the praises of solar electric, and pretend that it can replace, rather than supplement, other sources. Then you end up encouraging people to think solar is "the answer" and they therefore oppose natural gas and nuclear infrastructure, leaving you stuck burning coal for 50 years longer than necessary. That's what has happened. We could have gotten rid of coal in the US by 1975. We're still burning a shit-ton of coal, which spews radiative substances directly into the air, because rather than talking honestly about an energy mix that actually works, half the population decided to romanticize solar and wind, and avoid mentioning in what ways they don't work so well. If, 50 years ago, the leaders of Greenpeace said what you said above (use solar when you can, natural gas and nuclear when you can't), we wouldn't be burning coal today.
> It seems like stronger wind = faster spinning = more electricity.
Yeah stronger wind = a LOT more power, and could be a LOT more electricity, if you had infinitely strong, infinitely light materials with no friction.
> Are they designed to only generate power at a specific RPM or something?
Yeah they are designed to produce power most of the time, meaning they operate at the lowest normal wind speed. All the parts, from the bearings to the wire gauges etc are designed for that low-normal speed. To work well at higher speed (and MUCH higher power), they'd have to be designed differently and therefore not work at lower speed. Obviously there's a lot of engineering, but one example is easy enough to picture, a bearing. Imagine a shaft and bearing designed to handle 500 horsepower. You grab the shaft and try to turn it with your hands. It's probably not going to turn - a big beefy part designed for a lot of power will have a lot of friction.
Did I just tell you to imagine grabbing your shaft in your hand and feeling the friction?
In 2016, countries from Chile to the United Arab Emirates broke records with deals to generate electricity from sunshine for less than 3 cents a kilowatt-hour, half the average global cost of coal power.
So you took solar power costs from two high-sunshine areas and spread it versys worldwide coal costs. How about ideal solar places versus ideal coal places? Or average global solar costs versus average global coal costs? Cherry picking at its finest, here...
Browsing at +1 - no ACs, I ignore their posts. So refreshing!
Once solar saturates 50% of the energy market, suddenly solar literally becomes the most expensive source of energy on the planet. Right now it gets a free ride on existing infrastructure. Once you reach 50%, assuming you actually want power, you then have to have a backing infrastructure, which is, you guessed it, coal, gas, or nuclear. Worse, you're now building this infrastructure with the expectation it will mostly remain idle. So your sunk capital investments explode through the roof. Which means your solar costs are solar + (coal, gas, nuclear) + ROT over 40-60 years. It literally is the most expensive energy on the planet if you intend to saturate the market with solar.
This will not change unless there are dramatic new inventions for large scale energy storage. There certainly are those working on it, however, it doesn't exist today and it's not real clear if it will exist tomorrow.
Any aritcle with "could" in the headline is not worth reading. The earth *could* turn into strawberry jello tomorrow. The sun *could* fail to come up.
A fun thing about solar thermal plants is that it's easy to integrate a peaker directly into them, using natural gas to generate steam when there's not enough solar heat and demand is high. SEGS was the first large scale plant I'm aware that combined both solar and natural gas, although there's a lot of them now.
For the love of Crom, am I the only one here who wants to keep the U.S. technologically competitive?
A comprehensive home solar plant will pay for itself within a reasonable number of years by eliminating the gas / coal / electric bill entirely, and from there on out, it won't incur any regular costs other than storage (battery) replacement until it dies, which could take decades. And if ultracaps reach sufficient price/performance, even the recurring storage costs will dry up. Including those for pre-existing systems.
You let us know when gas power presents these kinds of cost advantages. No one will be holding their breath.
I've fallen off your lawn, and I can't get up.
Whether the prediction is true or not, this is a propaganda piece with no data backing it. Even by their own charts, solar is currently much more expensive than everything else. They basically drew a bunch of lines with coal and natural gas trending up and solar trending down, completely ignoring the fact that coal and natural gas are also trending down.
Take a look at their cost breakdown. The "other hardware" cost had tripled since 2009 (currently 20% of the total cost), but they conveniently made it fall by 2/3rds by 2025 with no explanation at all.
Can we stop worrying about global warming now?
> Do they apply a mechanical brake? Turn the paddles away from the wind?
Yes and yes, both are used. Sometimes the blades / sails fold up completely out of the wind. Many techniques are used, but you hit on the two most common.
> Since you seem to know more about this than the average person here
I've studied it a bit. One particular research paper I read was very informative; I wish I could remember the author's name in order to pass that along. There are two people who comment here who know more about the subject than I do.
It's not the same, but it is related.
When there are more sunspots, the sun is actually hotter. (Sunspots are "dark" only by comparison to their surroundings.) Hence the inverse correlation between numbers of sunspots and global temperatures. Sure, changes in cloud cover are a factor -- but they change Earth's albedo, which affects how much of the insolation stays as heat.
The big shortcomings of so-called "green" or "renewable" energy sources (wind., solar, etc) is that they are not reliable, and cannot be ramped-up/down on-demand moment-by-moment to deal with the constant changes in demand.
There have been THOUSANDS of proposed solutions to the problem but they all basically come down to the same thing: Store excess power when generation is higher than demand, and then use that stored power when demand outstrips supply. They all sound good on paper or in a powerpoint and are great at liberal political rallies against fossil fuels or nuclear power but NONE is actually efficient and robust enough to be practical. The flywheel idea always ends up with too much loss, both from conversion between electrical and kinetic and from things like friction. Then you add-in the cost of the infrastructure, the maintenance, etc it just remains as a permanent unimplemented promise of a fix to the renewables problem but not an actual fix.
It's not unlike the proposal to pump water to an uphill basin with excess power and recover the power later by running the water back downhill through turbines when power is needed, or the proposal to run locomotives uphill with excess power and then roll them back down with regenerative braking to recover power, or the proposal to compress air into massive tanks and later blow it back out through turbines, etc... NONE of these things which sound good on paper actually survives actual analysis with real-world numbers.
> faster spinning = more electricity.
Along with mechanical considerations, another issue with increasing RPM is transonic effects at certain points along the blade. The tips of the blades currently move at nearly 200 MPH. That means airflow at certain points alomg the airfoil is probably close 250- 300 MPH relative to the blade. At 500 MPH (mach 0.7) things start getting real weird, there are a lot of problems. So much so that it was once believed that going faster than mach 1 was impossible. It turns out that planes can fly at mach 1.3, but the range between mach 0.7 and mach 1.2 is a bitch. All of that to say, you can't allow the blades to spin twice as fast because then transonic effects ruin your day.
NG is cheap in America.
In much of the rest of the world, it is not so cheap.
You're doing it wrong. And "cloudy" is not the same as "solar plant produces too little energy"
If you own a house, your system can cover your house for quite some time. And should. Weeks is not an unreasonable design goal, particularly with an energy-efficient home. Also, solar still produces energy when overcast; just not as much. The linked video shows a 75 watt panel generating about 6-7 watts on a 100% overcast day, which is about 10% of the panel's rated rated power. You can be frugal (and on a temporary basis, extremely frugal) with your power use. You can construct an energy efficient environment (even in an older home.) You can insulate (and if you're trying to save money, you should. One of the best money-saving investments you can make. Trade some space for a constant reduction in expenses. And noise. And increase in comfort and temperature stability. Sheets of insulation are very inexpensive, particularly when compared to heating and cooling costs. Read up on, and pay careful attention to, condensation and moisture barrier issues when building internal secondary insulating layers.)
If you live in other than a home you own, then you get what they give you. Sorry about that. You might want to consider trying to GTFO of there.
I've fallen off your lawn, and I can't get up.
Solar is already cheaper once you factor in the cost to our Ecology, health, etc. The only thing holding back wind and solar is a good mechanism for load leveling the differences between day and night, wind and no wind. While some regions are capable of pumping water uphill to level out the power availability, what is missing is a more general mechanism such as huge banks of "flow batteries" that charge an electrolyte that can be stored in mass quantity and used to put power on the grid when needed. This temporary energy storage problem should be where the real research grant money should be invested, but don't hold your breath for Trump to do anything like that. For the next four years its up to private investors to choose and invest wisely in technology that has the potential to fix things.
there are no storms that cover 'half the USA'.
Unless you are in California or New York, because those two states consider themselves each to be half the USA.
a big network avoids this problem (but "half of the US" will be temporarily empowering the entire country...)
:P
* it's funny how "Americans" (not from the entire continent!) use only USA as example of "a country"
I thought you wrote SCOOTER. You're on the wrong website.
Aren't we trying to move away from natural gas?
Solar energy spills cause CANCER and even third degree burns.
Natural gas just safely floats away into the atmosphere and is biologically disposed of by Nature.
the preceding comment is my own and in no way reflects the opinion of the Joint Chiefs of Staff
All of the "problems" with solar energy are very easily solvable and most are hardly even worth mentioning, other than to refute myths that is.
If they are easy to solve, then multiple solutions would exist.
All of the "problems" with solar energy are very easily solvable [by using natural gas instead] and most are hardly even worth mentioning
Whether or not it's worth an honest analysis of the strengths and weaknesses of different sources of energy depends on whether you want to actually solve some problem, such as environmental problems, or you just want to be a cheerleader for your "team", without actually accomplishing anything.
Considering the solution to the solar power deficiency being discussed was to use non-solar to fill in the gaps, it is clear I didn't even suggest the problems with solar energy are always solved by more solar energy. I didn't say the problems with solar energy don't exist, just that they are easily solvable. Cost is the only significant hindrance in all but the most extreme cases, and it is becoming less of an issue every year.
-- All that is necessary for the triumph of evil is that good men do nothing. -- Edmund Burke
it's a US-only tech?
I bet you hated "20,000 Leagues Under the Sea".
the preceding comment is my own and in no way reflects the opinion of the Joint Chiefs of Staff
It's 17:02 here!
In short, take intermittent power sources like solar, wind, tide,.. generate methane, feed it into the standard natural gas infrastructure to be delivered and used by the natural gas power generation plants. Sufficient storage without additional huge investments in power storage research, development and construction.
Unfortunately, solar thermal isn't cost competitive. Everywhere the summary says "solar", they really mean "photovoltaic". The cost of solar thermal is way higher.
"I'm too busy to research this and form an educated opinion, but I do have time to tell everyone my uninformed opinion."
It is stupid to believe that a country can be run like a company. In a country you have to understand macro economics and pursue the interest of all people, while as business person you only need to be concerned with your company (that is micro economics). In addition in politics the world is not about deals it is about treaties and common understanding. A deal is a singular event. It is often not necessary to consider all the side effects of selling a product or service. In a political context, it is not helpful to make a treaty your partner suffers from or third party suffer from, because there might be a time in future where you have to make another treaty with the suffering party. We do not live on Ferenginar and the US President is the Grand Nagus. Still in the TV series the Ferengi have a bad reputation which harm trade and commerce.
You *can* do all that stuff. It's expensive to buy and maintain the batteries and auxiliary equipment, most lots of people *could* do it. Do you do so, do you use only electricity from your own solar panels?
If so, congratulations. Do you also drive to work? There's a bid difference between 6-7 watts for an LED in a room versus 10,000 watts to charge your Tesla.
This is the reason people should encourage their retirement funds and accounts to divest from fossil fuel assets. In 30 years they could all be worthless and the drop when it comes will be so fast no one will be able to react to it.
Energy storage isn't an intractable problem, even with today's technology. The following is largely quoted from a reply I made some months back to similar concerns.
A week sounds like a crazy long time to try and store energy reserves for. The only situation I can think of where that would be a likely occurrence with solar would be the far north where you might get snow coverage and for whatever reason don't clear off the panels/mirrors. That said though you'd just need to plan for a larger insulated storage container for the molten salt. The larger the storage container the more economical because the ratio of volume to surface area where you can lose heat favors you.
https://en.wikipedia.org/wiki/...
The wiki page above mentions tanks 30 feet tall and 80 feet in diameter being able to provide 100megawatts for 4 hours. If you use the average electricity consumption of the US as a baseline a city of 7m people would need 11.8 gigawatts of continuous power. So you'd need 118 of those tanks, or fewer tanks with a combined volume in the same ballpark, for every 4 hours of total darkness. My rough as hell calculations say something like 17.5 acres of storage tanks for every 4 hour block, if you go with 24 hours of storage it'll take up 420 acres, or about 2/3 of a square mile. All of that is presuming 30x80 foot tanks, you could save a lot of space by going with larger tanks and at least partially burying them. If you scaled these numbers up you could store 24 hours worth of electricity in molten salt tanks occupying just 30 square miles, for the entire USA.
I would also add that I've never seen a weather event that blanketed the entire lower 48 for even a couple hours, let alone a week solid. Solar also produces energy even during cloud coverage, just not at 100%. So your proposed week of no power production would require an unprecedented weather event of ridiculous proportions and duration, or one of shorter duration but with a populace that does nothing to mitigate it's affect on power generation. But even if we decided to plan for such an improbable event it is a readily attainable project to accomplish, we'd roughly need 210 square miles of tanker farms spread around the country.
That said, we live in an age where we less and less blue collar jobs to run the world...
There are several ideas out there, but so long as we're not pricing fossil fuels for their true cost, solar still has an uphill battle, a battle which, BTW it is winning anyways.
The world's burning. Moped Jesus spotted on I50. Details at 11.
That's because it is part of the Republican platform and people identify themselves as conservative vote Republican without any actual idea if conservatism is actually being practiced including using outdated economic models that doesn't provide any benefit to voters.
> * it's funny how "Americans" (not from the entire continent!) use only USA as example of "a country" :P
The US is the country where I can vote and otherwise influence policy, so it makes more sense for me to discuss what US policy should be versus what Germany's policy should be.
It's funny how "Europeans" (not the entire continent) currently aren't sure where the live - Europe/EU or Belgium or whatever "country" they live in. Be careful with that, guys - a bunch of states in North America were convinced to join a federation, an alliance in which they delegated a specific list of powers to the union government, declaring that:
--
The powers not delegated to the United States by the Constitution, nor prohibited by it to the States, are reserved to the States respectively, or to the people.
--
The union government completely ignored the list of things they were allowed to do, of course, and starting acting as *the* government of the whole federation, completely usurping almost all power from from the constituent states.
Good grief, do I have to tell you apes how to do everything?!!!
Obviously the optimal way to store solar power is to use the electricity to run bitcoin mining servers. Then the bitcoins can be used to buy electricity at night.
the preceding comment is my own and in no way reflects the opinion of the Joint Chiefs of Staff
... welcome to the new coal miner overlords!
I'm a Brazilian (and, thus, an "american" [from the continent]), insensitive clod!
Yeah that's a very promising concept, which is may or may not eventually work well at scale. Hydrocarbons are a very effective way to store and transport energy.
It sounds really great and works, in practical terms, at small scale - much like solar energy in the 1950s (and somewhat still today).
> So your proposed week of no power production would require an unprecedented weather event of ridiculous proportions and duration
Very frequently, either the west coast or the east coast is cloudy for several days. And people still need to drive to work during cloudy weeks, so you can't cut energy usage by 90%.
I appreciate you doing some math. I think because you'd like it to work, you're being a bit optimistic with your assumptions, but I appreciate you showing your work. For example it's a bit optimistic to pretend that all or most of the west coast isn't covered in clouds pretty regularly - I'll bet that happens this month. It certainly happened last month. Right now, the northeast, a significant portion of the population, is covered by a storm system.
> If you use the average electricity consumption of the US as a baseline
Multiply that by eight if you want to provide for our *energy* needs, if you want electric cars, semi trucks, electric heating, etc.
True, if you're very careful (and spend billions of dollars on development), and accept compromises regarding noise levels and other considerations, you can get up around 0.8 mach or slightly higher. My understanding is that a lot of additional engineering goes into planes to get from 0.7 to 0.8 or so.
It's certainly not impossible to operate at 0.85 mach, I'm not saying that. I'm saying it's not as simple as "just spin twice as fast".
>> natural gas burning plants could handle 10x their normal load to cover for idle solar panels.
>Yep, natural gas and nuclear can provide power when solar isn't providing enough at the moment, for whatever reason.
>That's a great mix. The cheapest, cleanest energy when it's available, reliable energy that's still clean and reasonably cheap
>when the more preferred energy isn't sufficient at the moment.
Are you including solar in your mix with nuclear and natural gas? I hope not, because nuclear power has a lower carbon footprint, lower cost, and fewer deaths per energy produced than even solar. I'm finding it real hard for a utility/nation/whatever to use solar power when nuclear power is available. If new air cooled nuclear reactors meet their claim of being able to load follow then those natural gas generators would be used only in the highest peaks and for emergency on-site power for the nuclear reactors.
I don't see the USA getting away from natural gas anytime soon. We have so much of it, it's great for heating and cooking, with a bit of effort it works for transportation, it's cheap, clean (as in little to no soot, sulfur, etc.), relatively safe (which isn't saying much compared to coal but still safe), great for peak and base power, and did I mention we have a lot of it?
About the only thing that I see replacing natural gas anytime soon is an artificial gas, synthetic methane. The US Navy has been experimenting with this process, a nuclear powered "seawater to jet fuel" process to create synthetic hydrocarbons. Making methane from this is not only nearly trivial now, it is also a very good way to transport and store energy through an existing national (international?) infrastructure.
I am armed because I am free. I am free because I am armed.
Look, there is a simple reason why fossil fuels are dead.
Solar and Wind are both already cheaper than all fossil fuels.
Today.
In the US and Canada.
And that's even without all the massive fossil fuels subsidies from the DOE and States and the Canadian versions on the Provincial levels.
No hiding from that objective fact.
No amount of pretending will change that.
You're like the buggy whip and whale oil and shale oil kings of yesteryear.
We already moved on, and the market cares nothing for your failed religion.
-- Tigger warning: This post may contain tiggers! --
> Are you including solar in your mix with nuclear and natural gas? I hope not, because nuclear power has a lower carbon footprint, lower cost, and fewer deaths per energy produced than even solar.
Assuming that were all true (and maybe it is, depending on how you choose to calculate your numbers), energy policy isn't decided based primarily on technical factors, on cost and safety. It's decided at least half based on political considerations. Solar + nuclear + (whatever minor sources make sense locally, geothermal or whatever) is a good approach technically which can be supported by a majority of voters after they are informed.
2 raymorris security fuckups https://it.slashdot.org/comments.pl?sid=5351503&cid=47379233/ & https://slashdot.org/comments.pl?sid=5351503&cid=47374033/ admitting you = script kiddie https://politics.slashdot.org/comments.pl?sid=8895203&cid=51726265/
&
Tell us how ONLY 'newer script kiddie tools' have stringlength built in (when PASCAL had it for ages - my fav tool) https://slashdot.org/comments.pl?sid=8472509&cid=51114383/ YOU BLUNDERING WANNABE!
* Gonna 'downmod' effetely TRY to "hide" this again raymorris? See here https://slashdot.org/comments.pl?sid=10072937&cid=53598645/
APK
P.S.=> You like to talk behind others' backs like the bitch you are raymorris https://slashdot.org/comments.pl?sid=9880997&cid=53312265/ well, here I am letting YOU TALK in those links, showing your FAILS wannabe ... apk
"I don't shoot my mouth off without knowing what I'm talking about" - by raymorris ( 2726007 ) on Thursday December 31, 2015 @09:29AM (#51215379)
BS (I catch you shooting your mouth off fucking up constantly): 2 raymorris security fuckups https://it.slashdot.org/comments.pl?sid=5351503&cid=47379233/ & https://slashdot.org/comments.pl?sid=5351503&cid=47374033/ admitting you = script kiddie https://politics.slashdot.org/comments.pl?sid=8895203&cid=51726265/
&
Tell us how ONLY 'newer script kiddie tools' have stringlength built in (when PASCAL had it for ages - my fav tool) https://slashdot.org/comments.pl?sid=8472509&cid=51114383/ YOU BLUNDERING WANNABE!
APK
P.S.=> You like to talk behind others' backs like the bitch you are raymorris https://slashdot.org/comments.pl?sid=9880997&cid=53312265/ well, here I am letting YOU TALK in those links, showing your FAILS wannabe ... apk
No one in their right minds is suggesting that renewables are going to provide 100% of our energy needs in the foreseeable future. But with even minimal upgrades to our dilapidated power grid and some small adjustments in energy usage they could easily cover 50% or more of our needs. The only real change between a renewable centric grid and a fossil fuel centric grid is switching on/off high draw devices (electric water heater/cloths dryers, fridges/freezers, electric car chargers, AC, etc) at times of peak/waning production and having a bit more installed capacity.
Zero Hedge? The site run by "Tyler Durden" that predicts multiple times a day that the US economy is about to crash?
I learned about Zero Henge in 2009 when they guaranteed that the US financial system was about to have a "complete economic collapse". Needless to say, this never happened. But the article scared me for a couple years, until I realized that it, and the site as a whole, are full of shit. It's time you realized this too.
Boring FUD is boring. Couldn't you find something more imaginative?
The whole comparison is wrong. False dichotomy and stuff. Nuclear is the cheepest energy. Hydroelectric also cheap if you dont count the damage to nature.
Coal is getting pricier because the demand is low.
No, but all pipelines leak, which trashes land and watersheds, resulting in high cleanup costs, dipper-shit.
Gee, and you can use all that saved money to pay for all those pipeline leaks and cleanup costs.
Road damage is a real problem, but it's a fraction of that wild figure. ZeroHedge doesn't cite a good source, but this study finds around $5k to $23k of road damage per well (around 1700 wells were drilled in PA in 2011). This is partially covered by the energy companies, leaving an estimated net total taxpayer cost of $8-39 million, not including aggravation to the local drivers.
Why would anyone engrave "Elbereth"?
It's been a couple decades since the Republicans were actually about small government and conservatism.
I don't think an LNG pipeline would be an issue -- remember, it boils away.
Not if the GOP gets their way - slash costs on fossil fuel production by rolling back EPA requirements or gutting them all together. Dismember unions to lower wages, eliminate watch dog groups to turn on the payola spiggot, cut research and federal $$ support for any renewable program...
We're going to be like Beijing by the time the next election rolls around.
> We already have a national power grid, it'd be dumb as hell not to use it.
Actually we have five regional grids, and there are reasons for that. For example, in Texas, where I live, ERCOT is most of Texas, while SPP is north Texas and Oklahoma.
I appreciate your passion. It might be helpful to learn just a little bit about how the power grids work, and why they work that way, before you redesign them and declare the engineers who designed them to be "dumb as hell". Specifically you might also want to look up "transmission losses" and learn why the northeast power grid failed and New York was without power for 2-7 days. Then consider what would happen if that had been a national grid, the whole country without power for a week - and we're all relying on electric cars and trucks that suddenly stop running.
Were they ever to begin with? It just seemed like small government was just another way of saying less interference in making money. That said we do need a conservative thought to help curb government excesses. I'm not saying government is a friend, more of a beast that needs to be properly chained. :-)
Well nuclear fusion is also only 10 years away, right? How does fusion power compare in terms of cost per kwh? Is there any reason to believe it would be less expsnsive than electricity generated by fission?
Quite an experience to live in fear, isn't it? That's what it is to be a slave.
In places like Denmark and Germany you get paid for the electricity that you produce in excess of what you use so it is cheaper than cheap can be. Wit a solar array on your roof you pay one rate for what you draw from the grid and they pay you about 10% less for what you supply to the grid.
I love stacking my barbecues in the shed at the end of summer - you can't beat a bit of grill on grill action.
Agreed, the comparisons are hard. On safety, it is small numbers for the options.
It's apples and oranges for nuclear and solar though. From my research, it's like trying to decide between cake and frosting. Solar electric is really good, and should definitely be used - on a sunny afternoon. Nuclear is reliable. Both are clean and safe. They work very well together. Natural gas can be quickly throttled up and down to match short-term fluctuations in demand, so the three together meet our needs well.
Also, if we go heavy solar, it's not like all the hydrocarbon infrastructure will disappear overnight. We can still turn on the gas if the hyperblizzard hits.
They do that in America too
PV solar as the "one true" source isn't coming from the greenies. It's a message funded by the coal industry to discredit solar entirely. Sort of how antinuke NIMBY is funded by them, with local landowners coopted as a proxy to their campaign.
Peaking plant capacity is a small fraction of base load capacity by necessity (cost etc, lack of use etc). If most of your base load goes missing due to a shitty week then your peaking plant simply isn't going to cover it.
> Long distance power transmission works just fine. I don't see any reason why you can't use solar power from the other side of the world
There are five regional power grids in the US, and 7,658 power plants. So most people live within 250 miles of the power plants that provide their power. Over that 250 mile distance, 5% of the power (on average) is lost in the line (source: https://www.eia.gov/tools/faqs... ).
If you want to get electricity from "the other side of the world", that's 12,000 miles, so you lose 48 times as much. 5% loss over 250 miles times 48 times as far = you lose basically all of the power. Practically none makes it to the user.
I'm not looking to devalue your great point, but $3.5bil != $3.5bil of value
Whatever of that money was spent towards wages and materials sourced from inside the state, is just money getting shuffled around. If the money is still in the state, then the state never lost it.
What is your definition of "highly subsidized"?
If you look at the numbers compiled by the US government for direct subsidies, it is not even close. Natural gas is subsidized at 62 million and Solar is 2.9 billion for 2013. If you include other subsidies such as tax subsidies it is much closer, but still in solar's favor. Natural gas is subsidized at 2.3 billion and Solar is 5.3 billion for 2013. If you consider that natural gas produced was 28,353 Million BTUs versus Solar of 218 Million BTUs, or 130 times as much, your subsidy per BTU is enormous for Solar versus Natural Gas.
https://www.eia.gov/analysis/r...
There is a great deal of debate on what the costs to roads is and how much the industry pays versus the state, but if we take Pendot's 2010 estimate (from this link http://www.naturalgasintel.com...) it said the state was paying 30 to 35 million more than the industry. Pennsylvania was the 2nd biggest producer in natural gas in 2013, producing 12% of the US's natural gas. If you extrapolate that number for the US you get 291 million. If you add that to the 2.3 billion number above, it makes a very little dent in the comparison.
So using government numbers, comparing Solar versus Natural Gas subsidies, solar is at least 130 times more subsidized per BTU than natural gas.
Yep, natural gas and nuclear can provide power when solar isn't providing enough at the moment, for whatever reason. That's a great mix. The cheapest, cleanest energy when it's available, reliable energy that's still clean and reasonably cheap when the more preferred energy isn't sufficient at the moment.
This works well for natural gas because the consumable is a large part of the cost but not for a nuclear power plant where you want to operate at as large a capacity factor as possible. One of the deliberate ploys the greens use is to push for mandatory use of solar and wind power because it will lower the capacity factor of nuclear power making it less economical.
Of course if people want to pay for both the energy delivered *and* when it is provided, then night time power provided by nuclear and hydroelectric plants will be a lot more economical considering that solar power will not be available at any cost. I wonder how much overcapacity in wind it would require to provide reliable power at night.
* it's funny how "Americans" (not from the entire continent!) use only USA as example of "a country" :P
To be 100% fair, unless you're from just a few places, either your population, or your land mass makes you more akin to a "State" for us.
You have two misconceptions: a storm half as big as America (assuming you mean USA and not the northern continent) can not exist, and if it indeed would approach that size it can not last that long, because unlike over the ocean, there is not much energy in the landmass and the more or less humid air over land. :D
And secondly: a big storm is a weak storm. With hotspots of high wind speeds ofc. And you would be surprised at what wind speeds a turbine shuts down. Especially the big ones that get deployed about now. The wind speed is not as low as you think
So suppose there was a major breakthrough in physics that allowed us to store as much electricity as California currently needs for a cloudy week. ... and yes: you can place them everywhere. Albeit setting one up in a plane would cost a bit of land, while setting it up in a mountain is more easy, and likely ore economic.
That has nothing to do with physics or break throughs. You only need land to place pumped storages
California actually could benefit from them during droughts.
Cost free eBook I read (by iBook/Kobo/Amazon/ObookO/Gutenberg etc.): "The Green Odyssey" by Philip Jose Farmer.
So suppose there was a major breakthrough in physics that allowed us to store as much electricity as California currently needs for a cloudy week. ... electric energy, which can come from nuclear plants or solar plants. ... and 40% not.
No it has not.
Solar panels are made from sand, which is melted with
So bottom line Solar panels can be 100% green except for mining and transportation of materials. The greenness only depends on the actual existing energy mix in the country where they are produced. A country that produces 40% of its energy without CO2 production, obviously produces Solar panels where 60% of the power input produces CO2
Regarding Nuclear: the infrastructure around nuclear is o energy intensive that there are studies that claim they produce more CO2 than an equivalent coal plant. Just google ...
Your idea that Nuclear plants produce less CO2 than photovoltaic plants is absurd. As soon as a photovoltaic plant is set up, it produces ZERO CO2. A nuclear plant produces CO2 with every step of refilling, waste handling, transport, mining, fuel production etc.
If you spread a myth ones due t ignorance, that is ok.
But you got corrected on this topic now so often, continuing to spread that myth is lying!
Cost free eBook I read (by iBook/Kobo/Amazon/ObookO/Gutenberg etc.): "The Green Odyssey" by Philip Jose Farmer.
If you want to get electricity from "the other side of the world", that's 12,000 miles, so you lose 48 times as much. 5% loss over 250 miles times 48 times as far = you lose basically all of the power. Practically none makes it to the user. ... regardless of distance.
Sigh, first of all: no one is importing power over that distances, so what is your damn point?
Secondly: the amount of power "lost" is a function of the hight of voltage. So you only need high enough voltage to cut it down to 5% again
Cost free eBook I read (by iBook/Kobo/Amazon/ObookO/Gutenberg etc.): "The Green Odyssey" by Philip Jose Farmer.
I'm Brazilian: there's 200 million people here... (GP here, posting from a cellphone)
"Efficiencies of Scale". The Wal-Mart effect is the impact of their efficiencies of scale (and vertically-integrated logistics) on smaller. pre-existing retailers. Squeezing them out of the market by greatly out-competing them on price.
i was under the impression that the higher voltages minimized the loss. thought the loss was a function of resistance and current. so you minimize current by boosting voltage, and you minimize resistance by minimizing distance and maximizing wire diameter.
I'm just curious why you think it is the voltage isn't already ten times higher, if you can just increase the voltage at will with no problems.
> I learned about Zero Henge [sic] in 2009 when they guaranteed that the US financial system was about to have a "complete economic collapse". Needless to say, this never happened. But the article scared me for a couple years, until I realized that it, and the site as a whole, are full of shit. It's time you realized this too.
This is ad hominien i.e. directed against a person rather than the position they are maintaining.
ZH certainly seems histrionic at times. This has no bearing on the article at instance.
We don't dismiss all mainstream media because they touted the "WMD" line.
There are certainly facts ZH has reported that have turned out to be quite astute, including:
1. offshore oil inventories
2. OPEC failing to stick to a deal
3. pension fund collapses (particularly the Dallas FF pension fund)
4. GDP predictions
5. Interest rate hikes (or lack thereof)
There are also a slew of topics on which it appears to be entirely in outer-space.
One must therefore weight each topic on its individual merits i.e. review carefully and think critically.
On economic collapse, I feel that ZH correctly estimates the present downward pressure, but fail to account for the capacity of existing economic institutions to absorb that pressure.
All to say, dismissing the report because it comes from ZH is a logical fallacy that bears no persuasive weight whatsoever, and in any case ZH has a history of being right on some topics.
One beauty of the natural gas topic is that it is falsifiable - we'll see a collapse / consolidation of the industry, or not (unless it stays on life-support indefinitely, I suppose).
Once again you're confusing energy and electricity.
A gearbox can trade RPM for torque. It doesn't affect power, other than wasting a bit from friction. The issue is that a relatively small change in wind speed is a large change in power.
Consider a child's pin wheel, the kind you buy for a dollar and you blow on it to make it spin. It's very light weight of course. While driving home on the highway, stick the pinwheel out the window. The pinwheel won't spin too fast at 70 MPH, it'll be instantly destroyed, the blades blown off and the stick folded over.
Consider you design a turbine (or fire engine siren) for operation at 70 MPH. It's strong enough to *survive* at 100 MPH. It weighs 22 pounds. You blow on it. What happens? Nothing, of course. Your breath doesn't move it.
Cubing a number makes it grow very quickly, so there's a whole lot more power, more force, to handle with higher winds.
This is going to be overly simplistic, but I want to explain the basics and why a lot of these companies actually are financially viable... I participate as a "non-operating working interest owner" in over 100 horizontal oil and gas wells.
Horizontal oil and gas wells including shale or other formation types have up front capital costs, and on-going operational expenses. Based on data from 3D-seismic and reservoir engineering, operators pick well locations and very rarely (these days) have an unproductive well. Well locations are chosen based upon their breakeven time frame. An Estimated Ultimate Recovery (EUR) is put together by a reservoir engineer and the well is drilled. Depending upon where the well is in USA (STACK, SCOOP, Eagle Ford, Utica, CNOW, etc., etc.) the well will usually break even on its up front capital cost in the first 12-18 months. This is primarily due to the dramatic drop in costs of oil field services over the last two years. Once the well has broken even, the ongoing monthly expenses can range from $10k - $30k per month depending upon the amount of water disposal, electricity costs, trucking and pipeline fees. Most of the cost is electricity and water disposal. As the well ages, the formation pressure is reduced and the volume of water is reduced and thus costs come down. If the cash flow becomes negative, then the participants in the well have incentive to shut the well in as it costs more to produce than the value of the hydrocarbons.
The reason you see numbers getting "more and more red":
It is impossible to grow production without debt because production declines over time. Operating oil and gas wells, growing production AND staying within cash flow isn't an option.
(1) Once an oil or gas well is online, the reservoir engineer takes the production data and puts it in to a formula to develop hyperbolic (among others types) decline curves to predict production over time.
(2) The decline curve is then analyzed by independent reservoir engineers that don't work for the operator, usually a bank or a specialty firm.
(3) After that analysis is done, a PV9 or PV10 (varies based upon the bank) is used to determine the present value discounted at 9% or 10% of the future positive cash flow of the well.
(4) Banks then (typically) lend 50% of that PV9 or PV10 value
With the combination of the relatively quick return of capital, 50% of PV9 lending, and the ongoing positive cash flow of the well portfolio an oil and gas company can continue to grow it's production. The issue is that the debt never stops and the interest payments continue to grow larger as long as the operator wants to grow production. An operator then has to choose to sell assets to pay down debt, or choose not to grow. If they choose not to grow they can use the cash flow to pay off debt and then let their investment pay out.
Personally, I use a 3 year approach in all my LLCs. I put up front capital in to the company, lease and participate, leverage, re-invest for 3 years. Then I stop all new investments in that LLC. I let the debt get paid down, and then I'm left with the remaining cash flow for the next 30ish years. I then start another LLC for the next 3 year cycle.
Well put. There's a cultural component as well, because a lot of people think of coal as a masculine endeavor, whereas solar/wind is a feminine endeavor. Coal is masculine because of iconography involving dirty, muscular miners, and because it's dangerous - physical injury is a masculine marker. Solar/wind is feminine because it is clean, is less physically dangerous to work on, and because the story used to sell it involves caring for people. It's also a masculine marker to have less education, and insistence on book-learning, hence socialization, is feminizing. The myths from the Old West were old then and die hard.
Solar power requires sunlight, something that the northern part of China, Beijing included, hasn't seen in quite a while, at least on a daily basis.
Solar energy spills cause CANCER and even third degree burns.
Natural gas just safely floats away into the atmosphere and is biologically disposed of by Nature.
Save the natural gas for the President Elect, Trump. He is going to make America great by bringing back coal. And of course, he is going to tax the low low cost electricity you get from your solar panel. Trump is going to claim that the sunshine belongs to him, and if you want any, you have to pay Trump or the Koch brothers.
Leslie Satenstein Montreal Quebec Canada
> Would it therefore not make sense to have some turbines in a wind farm that can deal with high winds (even though they do not turn at all at normal wind speeds) so that power can always be produced?
That's an interesting idea / question. I'd like to ask someone who knows a lot more than I do about wind power, and see what they think. I don't know what the engineering issues would be.
At low winds, there's not much you can do - there is just darn little power there. At high speeds, it *seems* like a few turbines designed for high speed *should* be able to produce roughly the same amount of power as many medium-speed units. That's assuming that the wind speed is roughly equal at each location across the farm, that the high-speed ones get high speed winds at the same time that the medium-speed turbines do.
Well, first of all NatGas is extracted through pipelines, so no. Also, oil is shipped long distances via trains. Finally, until you can drill a well through a pipeline, then you're you are missing (by far) the largest road cost: the 600-1600 truck loads of drilling equipment required for EACH well. http://www.bouldercounty.org/d...
This comment is my opinion and does not represent an official position of Donald Trump or others I do not work for
I'm glad you've found my posts interesting. I find the topic interesting.
I'm no expert on wind power, I just read 100-200 pages of technical papers about each type of power production in order to get an idea of how they all fit together, what a reasonable policy overall energy policy would be. I was trying to answer questions such as "roughly what percentage of our energy needs can reasonably be provided by solar electric?" "Roughly how much by wind?" "How reliable are different combinations?" Based on my research, I concluded there are basically two options which provide the energy we need:
a) Keep doing what we're doing - with coal, diesel, etc.
b) Use a mix of renewables whenever they are available, with nuclear and natural gas providing the other 80%.
The best answer I can give to your question, based on my knowledge, is that I've posted about what the experts are actually doing with wind power. It's reasonable to think that if they could do better, they would. There is also development being done, of course, incrementally increasing the range of velocities over which wind turbines are efficient, but I don't know of any revolutionary new approaches being deployed. The problem itself is fundamental physics, so I don't expect it'll be "fixed" any time soon.
There is a way to beat the cloudy week problem, move the collectors up to 20 km.
That's the proposal for StratoSolar.
They also get relatively cheap storage by lifting weights into the sky when there is extra energy available and lowering them at night.
Estimation (which I didn't do) is 5 cents per kWh for base load power.
Another alternative is power satellites. Those could scale to 15 TW or more and displace fossil fuels entirely. Setting up the infrastructure to manufacture them in large numbers is expensive, on the order of $100 B. www.htyp.org/DTC for more. Long term cost gets down to 2-3 cents per kWh, and synthetic oil made from off peak power would be $30-50 per bbl.
End MGM. Get prospective parents of boys to Google: Men do complain
> With "fold" the GPs likely meant that 2 of the 3 blades rotate around the axis and join the third one and all three hang down parallel with the mast and get secured there.
That, and another approach is like an inverted umbrella, an umbrella that has broken due to the wind. The blades swing away from the mast, downwind (with the tips of the blades coming closer to each other).
I'm sure there are other methods too. To me, the details don't matter so much, because the details of the implementation change every few years. I'm more interested in the fundamental limitations, the laws of physics that make it very hard or impossible to do more than X, for any X. Those are limitations to each technology that are unlikely to fundamentally change any time soon. (Compare solar electric in the 1950s-1960s and solar electric in the 1990s-2000's. After a hundred billion dollars in investment, a lot of things changed, and a lot of things didn't - what hasn't changed in 60 years probably won't change any time soon.)
"I don't shoot my mouth off without knowing what I'm talking about" - by raymorris ( 2726007 ) on Thursday December 31, 2015 @09:29AM (#51215379)
BS (I catch you shooting your mouth off fucking up constantly): 2 raymorris security fuckups https://it.slashdot.org/comments.pl?sid=5351503&cid=47379233/ & https://slashdot.org/comments.pl?sid=5351503&cid=47374033/ admitting you = script kiddie https://politics.slashdot.org/comments.pl?sid=8895203&cid=51726265/
&
Tell us how ONLY 'newer script kiddie tools' have stringlength built in (when PASCAL had it for ages - my fav tool) https://slashdot.org/comments.pl?sid=8472509&cid=51114383/ YOU BLUNDERING WANNABE!
APK
P.S.=> You like to talk behind others' backs like the gossiping bitch TROLL you are raymorris https://slashdot.org/comments.pl?sid=9880997&cid=53312265/ well, here I am letting YOU TALK in those links, showing your FAILS wannabe ... apk
Global warming on not, the radiation present in the fly ash and the mercury that goes out the smokestack are sufficient reasons to stop using coal.
Not to mention what coal mining does to the rivers and mountains in the areas that it is mined.
Natural gas generation units make profits. Wells don't at these prices, but once the LNG export business starts to ramp up that will raise the gas prices. Also, there are potential plans for a couple ethane cracker plants in the Ohio/Pennsylvania region, which will certainly make money. There is money to be made out there.
In Australia you pay approx 30c for power from the grid, and they pay you 8c for what you put into the grid.
In Soviet Russia the insensitive clod is YOU!
Easily solved? The peaking plants are required when the *demand* peaks.
What do you do when the demand peaks *and* it is cloudy?
Lexan - not only are my panels shielded with it, all my window panes are made of it. When we first moved into this building, a hailstorm took out all of our west-facing windows. I mean, completely, too. So I did a little research and found that Lexan was pretty much the best answer out there. Price-performance-lifetime is excellent.
If it ever shows any signs of significant decrease in transmission characteristics WRT panel efficiency, it's trivially replaced. I'm a huge fan.
I've fallen off your lawn, and I can't get up.
Thanks for providing the reference. By disclosing that you have used a slanted, conspiracy-theory style source with no credibility whatsoever I can completely dismiss your comment with little effort!
Natural gas is still fossil fuel and increases the carbon loading in the atmosphere.
Coal is the cheapest fossil fuel way to make electrical power. But, hydroelectric is much cheaper. And nuclear is the second cheapest.
Most natural gas used for electric power became gas turbine systems in the 1990s which is great for peak loading but very very inefficient compared to base load steam turbine designs.
Since solar cells don't create more power over a service lifetime than it takes to manufacture them; solar cannot be cheaper in a total system point of view until they come up with a method of manufacture that does not require high temperature annealing.
Faux Science for faux issues seems to be the basis of the top article. If solar were not so heavily subsidized; no one would be bothering.
NRRPT/RCT
Reading your conclusion that solar is more subsidized than NG I feel it's partly because of market distortions in the USA. (This bias may, or may not be, related to the pre-existence of gas plants i.e. the absence of capital cost).
Once one looks outside the USA solar appears to be a clear leader in at least certain areas. Take Dubai, where solar beats out both coal and gas plants by a substantial margin:
http://www.apricum-group.com/d...
Another illuminating post is from the Economist:
http://www.economist.com/news/...
In any case, some thoughts below.
> What is your definition of "highly subsidized"?
The ordinary definition is something like "a benefit made by the government or a public body to assist an industry or business so that the price of a commodity or service may remain low or competitive."
In the case of natural gas, it's a combination of:
1. ultra-low interest rates; and
2. so-called "dumb money" (including, perhaps especially, public pension funds) debt-financing of shale companies.
(I'm aware that one could argue that these are not strictly subsidies, but that doesn't deflate the point that NG is surviving on cheap credit and not competitive advantage).
Once these factors dissipate, natural gas might be substantially more expensive â" and quite a bit more expensive than solar.
Of course one could argue that solar similarly benefits from low interest rates. The key difference is that NG is a resource industry (usage decreases supply, thereby increasing cost), and solar is a manufacturing industry (benefitting from economy of scale, etc, where costs go down as more is manufactured).
I own three buildings and one trailer. The trailer and two of the buildings are 100% solar. The remaining building is very large, and it will be a few years yet before I'm ready to go after it (I do all my own work.)
No. I consult from home, mostly based on whim these days. I spend considerably more time working on consciousness theory and software defined radio. Most consulting that comes my way is "more of the same", and as I don't have to take it, I tend not to.
One typical residential sized solar panel is happy to provide 100 watts in full sunlight. A hundred panels in full sun would deliver your 10,000 watts, and here, I have more than enough room for same, plus the lexan shields (this is a hail-addled region.) The main roof is 60x30x2, oriented EW-ish. So I can put up about 100 panels each side. Not optimum, but not horrible -- no shade. I could also add (or start with) a S-facing system across the front of the house good for about 30 panels if it was only one panel deep. Or 60 if I went two deep, which would make a nice veranda roof for the entry ramps. I'm sort of leaning that way. However, a Tesla (or whatever) isn't likely to need a full charge on a regular basis unless you're commuting with it to the tune of max range. In my case, it'd be fine, as I live in a small town and generally don't leave it very often. If I do, I'm too far from home to take advantage of my solar installations anyway. Tesla hasn't made a model (yet) that appeals to me though. I want one with more range, as we're almost 300 miles from the nearest city in the state. I imagine it'll come within a few years.
As for who can, and who will... you just have to do the math. Solar costs less in the end than paying the electric bill. Pretty much a slam dunk for anyone who has the roof / other sunny space. If you do the math.
I've fallen off your lawn, and I can't get up.
There are two reasons:
a) most countries have a grid capable (high enough voltage) to transport what ever they want without significant losses
b) upgrading a grid is a majour infrastructure task. E.g. you have to build new lines more or less along the way where you have the old ones. Get them ready, attached to sources and destinations etc. and activated and then you have to power down and dismantle the old infrastructure. In Europe this is rarely done. It is much more economical to simply build new dedicated long distance lines, with less flexibility ofc.
Keep in mind: for economic/law reasons long transport lines are not simply wires. There are power plants attached to the wires a long the way of transportation. The idea is: if I feed in 1GWh at one end, I don't want to know or to calculate how much comes out at the other end. I simply want a price how much it costs me to transport that 1GWh. So the provider of the transport line is replacing my loss with his own power and charging me per 1MW and 1MWh for his transportation service. So upgrading an existing line means reworking all connections of the existing power plants. Building a new line means building new power plants or at least new transformers for existing plants if they are not to far away.
But the main reason this is rarely happening is a) above.
Countries like USA, that don't have nation wide spanning grids, otoh don't have those problems, they can start on the green field.
Cost free eBook I read (by iBook/Kobo/Amazon/ObookO/Gutenberg etc.): "The Green Odyssey" by Philip Jose Farmer.
Exactly.
OTOH alternating current lines also have losses by induction (inducting currents into surrounding infrastructure) and radiation of radio waves (I think a weather phenomena).
Direct current lines don't have those problems, hence the discussions about shifting to DC from AC (See HVDC lines ... high voltage DC)
Cost free eBook I read (by iBook/Kobo/Amazon/ObookO/Gutenberg etc.): "The Green Odyssey" by Philip Jose Farmer.
Diesel is the only energy source with significant use in transportation and in Europe it's used widely for heating. Do you think diesel should be replaced with clean energy?
If so, you have to start thinking about total *energy* needs and consciously watching for trick statements about *electricity*. Germany can increase their percentage of *electricity* that comes from renewables by shutting down fairly clean natural-gas burning electricity plants and replacing them with garbage-burning heating plants. That's probably not what you want. That sounds silly, but people really do make stupid statements (and policies) conflating energy with electricity in order to make their policy look better. They increase the cost of electricity with a tax, causing industry to use more coal, then claim an increase in the percentage of *electricity* from renewables.
Germany imports a lot of energy, including a shit load of diesel. For most of their energy to come from clean sources, they need either ten to twenty times as much solar (not going to happen) or nuclear.
Interesting ideas. Why do you think 34KV lines are so much higher than 240V lines, with wide horizontal clearance between 34KV lines and any residential structures? Do you think 340KV lines need towers the same height as 34KV? The same distance to residential structures? Does a MV transmission line require towers to be higher than 700 feet, do you think?
Your revised response makes more sense. I would avoid using the word subsidy in the context of this discussion. Maybe a better way to put what you are saying is that the natural gas industry has a competive advantage of being an established industry.
I like your statement "Once these factors dissipate, natural gas might be substantially more expensive and quite a bit more expensive than solar", because you used the word *might*, but I would challenge you to add some supporting evidence to this opinion.
One factor that contributes to the higher cost of solar is the initial cost of the investment.
https://wattsupwiththat.com/20...
How long does it take an investment in a solar plant to catch up to an investment in a natural gas plant for a given region with current solar and natural gas costs? If you support the answer to that question, I will have more confidence in your opionion.
Thanks for the reply.
> How long does it take an investment in a solar plant to catch up to an investment in a natural gas plant for a given region with current solar and natural gas costs? If you support the answer to that question, I will have more confidence in your opionion.
I wonder if time to investment parity is the best indicator of each industry's trajectory. Might it be better to look at the lifetime profit of comparable capital investment, after interest, risk, expenses, and maintenance?
I'd be interested in seeing some spreadsheets on this, but it's notoriously hard to come by unbiased data.
In any event though, the supply-and-demand curve for pricing NG is invariably up (as supply is exhausted), and solar is down (as manufacturing improves and pays down capital), so even if we're not at the point where solar investments are less profitable than NG, notwithstanding a complete societal collapse, that point is inevitably marching towards us.