sfsuphysics
[H]F Junkie
- Joined
- Jan 14, 2007
- Messages
- 16,097
Wait... wut?Yes, but a lot of excess power supplied at night is stored for daytime usage to help the grid.
Follow along with the video below to see how to install our site as a web app on your home screen.
Note: This feature may not be available in some browsers.
Wait... wut?Yes, but a lot of excess power supplied at night is stored for daytime usage to help the grid.
Ah, nevermind. It's not nearly as widespread as I thought. Interestingly enough I didn't know more modern nuclear reactors were capable of large degrees of load following. Learn something new I suppose.Wait... wut?
Yeah I was going to say, if we have the ability to large scale store energy for use at other times solar absolutely would be a godsend.Ah, nevermind. It's not nearly as widespread as I thought. Interestingly enough I didn't know more modern nuclear reactors were capable of large degrees of load following. Learn something new I suppose.
Storing power is still one of the biggest challenge of our time, would the excess power, until recently pumping back up water into higher altitude reservoir for hydro power was one of the only cheap and efficient way to do it, but obviously geographically limited.
Drop a 10-story shaft with a 50-ton weight on a screw prop. Raise the weight with longitudinal gears under power, lock the weight when no power is needed, drop the weight and recover something like 65 percent of the power used to raise the weight.
50,000 kg, 30 meter high is 4 kwh or 25 cent at $0.06 the khw if you would be 100% perfect and rised it at 0 cost
Not quite, it's 2.5 kWh, which is still pitiful. That's a house for a day with no AC and definitely no electric car. That's insane. I would have thought it would have been so much more.
The average house usage for an American home is 30 kwh (or 12 time the 50 tons block at 30 meters higher) , 2.5 khw a day would be a $90 yearly electricity bill at 10 cent. 2.5khw is the average electricity use only for the lights.That's a house for a day
The average house usage for an American home is 30 kwh (or 12 time the 50 tons block at 30 meters higher) , 2.5 khw a day would be a $90 yearly electricity bill at 10 cent. 2.5khw is the average electricity use only for the lights.
So instead of a 150kWh auto we just give everyone a dozen 50 ton blocks with huge 30 meter high towers! Problem solved!The average house usage for an American home is 30 kwh (or 12 time the 50 tons block at 30 meters higher) , 2.5 khw a day would be a $90 yearly electricity bill at 10 cent. 2.5khw is the average electricity use only for the lights.
That sound strange, why would Tesla care what the power companies think ?....while it is possible to do it Tesla won't let you because the power companies don't want it as they'd be afraid of people buying cheap power at night and selling it back
No it wouldn't. Solar is stupidly expensive and inefficient. It's used across 3.3% of the US, because it costs too much and would bankrupt the country. California has their heads so far up their ass that they are going to shut down a perfectly good clean, nuclear power plant that supplies 9% of their energy (they did the same in Southern California with San Onofre) and build 5 new gas power plants (forget solar). As US/Europe shut down working power plants and kill their economies, China builds new coal power plants that produce 20x the emissions and make their economy stronger.Yeah I was going to say, if we have the ability to large scale store energy for use at other times solar absolutely would be a godsend.
You are wrong as this is false. https://www.energy.gov/eere/solar/solar-energy-united-statesNo it wouldn't. Solar is stupidly expensive and inefficient. It's used across 0.0% of the US, because it costs too much.
NASA uses gallium arsenide solar cells that are 34% efficient in energy conversion, but they're currently 100x more expensive than the silicon solar cells that are common and are only 15% efficient. It would be great to see that technology become affordable for us, but it is still no replacement for centralized power generation. I saw a research paper somewhere that was talking about every house and building having these cells and that array would contribute to the power of entire cities, but that sounds like an unrealistic pipe dream at this point. And you still have the issue of actually manufacturing the panels and them becoming unrecyclable toxic waste once their service life has expired.No it wouldn't. Solar is stupidly expensive and inefficient. It's used across 0.0% of the US, because it costs too much and would bankrupt the country. California has their heads so far up their ass that they are going to shut down a perfectly good clean, nuclear power plant and build 5 new gas power plants.
US government is wrong? Can you please show me your math that counters this?You are wrong as this is false. https://www.energy.gov/eere/solar/solar-energy-united-states
I assume that the source mentioned in the picture is crap since the site has been defunct since 2015.
US government is wrong? Can you please show me your math that counters this?
Issue with that is "peek watt" which most people miss.You could be right but from my understanding in for all of solar panel making, solar panel installation, battery system for them, 6 year's would be a relevant amount of time, specially if in 2015 they looked at the year say 2013-2014 where the data existed.
View attachment 406462
People got much better at installing them and obviously the battery side of things is changing fast has well.
It could have been 0.17 cent a KWH in 2014 and less than 40% of that now if you are in a good sun locations.
Yuuup! That's why there need to be much more work on energy storage / load leveling. Our grid needs modernization in general, but I think pumped hydro/batteries/heat storage (or whatever can knock them off the podium) are going to get much more important. I'm also hoping that some of the advanced reactor tech (Thorium and whatever the one is that runs on and eats other reactors' waste) gets actual interest.Issue with that is "peek watt" which most people miss.
Unfortunately while wind and hydro have actually gotten better cost efficiency wise solar plays a ton of data shaping games to try and claim equal competitiveness. You would be EXTREMELY hard pressed to find an unbiased data source for the true cost of solar.
If you also factor in recycling costs solar is better than coal and oil but the worst in the pack compared to everything green.
I am right. Please do your own math and don't rely on the lies from government or green media. You will see how false the narrative really is and how damaging solar is to our economy.You could be right but from my understanding in for all of solar panel making, solar panel installation, battery system for them, 6 year's would be a relevant amount of time, specially if in 2015 they looked at the year say 2013-2014 where the data existed.
People got much better at installing them and obviously the battery side of things is changing fast has well.
It could have been 0.17 cent a KWH in 2014 and less than 40% of that now if you are in a good sun locations.
Bingo. It's a total lie. Solar is only 20% efficient, 24 hours a day. They also aren't factoring in lifetime replacement costs, where solar lasts only 25 years whereas nuclear can for 50+. The plant that California is shutting down has been operating for 36 years and they wanted to renew for another 40 years, but the state wouldn't let them.Issue with that is "peek watt" which most people miss.
Just more government sabotage at work. The real reason why we can't have anything nice.The plant that California is shutting down has been operating for 36 years and they wanted to renew for another 40 years, but the state wouldn't let them.
I am not sure you even took into a consideration what you quote, the fact that would have been right in 2015 does not mean you still are considering we are talking an industry that in recent time had a 90s CPU level of improvement.I am right. Please do your own math and don't rely on the lies from government or green media. You will see how false the narrative really is and how damaging solar is to our economy.
Yeah generation of power to sell the the grid is ok, although power companies (PG&E & SoCal Edison) supposedly were not too happy with having to effectively give 1 to 1 compensation. But buying energy from the power company and selling it back is no bueno, and Tesla really doesn't care what the power company thinks but it has to comply with local regulations which doesn't allow them to sell back power.That sound strange, why would Tesla care what the power companies think ?....
https://www.pge.com/en_US/residenti...energy/getting-credit-for-surplus-energy.page
California Assembly Bill 920 allows PG&E and other state utilities to offer payment for surplus energy sent back to the electric grid by your home renewable energy systems. Our NSC program is based on this bill. Get answers to queries about NSC.
https://www.cpuc.ca.gov/industries-...gy/demand-side-management/net-energy-metering
NEM allows customers who generate their own energy ("customer-generators") to serve their energy needs directly onsite and to receive a financial credit on their electric bills for any surplus energy fed back to their utility.
No they're not (from the article)https://www.businessinsider.com/tesla-powerwall-virtual-power-plant-california-grid-solar-energy-2021-7#:~:text=Tesla will let Californian owners,prevent blackouts in the state.&text=Tesla said it launched the,anticipated "potential grid emergencies."
To me that sound like Testla wanting to sell expensive Testla made powerwall, instead of using their car has the battery instead (or to preserve the lifetime of the car battery), the Ford F-150 has a selling point of being made to power your house during shortage or sell current in comparison.
The power company are still buying it from people at a lesser price that what it would cost them to make said current and still reselling it and making money no ?
and there is no compensation for Tesla or customers," the company said, although it added that customers getting paid for their energy was a "possibility in the future."
Cool, we'll use your source.I am not sure you even took into a consideration what you quote, the fact that would have been right in 2015 does not mean you still are considering we are talking an industry that in recent time had a 90s CPU level of improvement.
So given the best case estimate they provided, a 50MWh PV with only a 4 hour battery still costs 2.3x more money than gas. Of course, factor in the actual efficiency (20% vs 55%) and lifetime (25yr vs 20yr) and that rises to at least 5x more expensive. Thanks for the example!Without incentives, a 50-MW PV system with four hours of storage ranges from $102/MWh to $139/MWh, Lazard estimated. That compares with combined-cycle gas at $44/MWh to $68/MWh and gas peakers at $150/MWh to $199/MWh, according to the analysis.
https://www.technologyreview.com/20...-cant-rely-on-batteries-to-clean-up-the-grid/technologyreview said:The California projects are among a growing number of efforts around the world, including Tesla’s 100-megawatt battery array in South Australia, to build ever larger lithium-ion storage systems as prices decline and renewable generation increases. They’re fueling growing optimism that these giant batteries will allow wind and solar power to displace a growing share of fossil-fuel plants.
But there’s a problem with this rosy scenario. These batteries are far too expensive and don’t last nearly long enough, limiting the role they can play on the grid, experts say. If we plan to rely on them for massive amounts of storage as more renewables come online—rather than turning to a broader mix of low-carbon sources like nuclear and natural gas with carbon capture technology—we could be headed down a dangerously unaffordable path.
...
This problem is particularly acute in California, where both wind and solar fall off precipitously during the fall and winter months.
This leads to a critical problem: when renewables reach high levels on the grid, you need far, far more wind and solar plants to crank out enough excess power during peak times to keep the grid operating through those long seasonal dips, says Jesse Jenkins, a coauthor of the study and an energy systems researcher. That, in turn, requires banks upon banks of batteries that can store it all away until it’s needed.
And that ends up being astronomically expensive.
California dreaming
Building the level of renewable generation and storage necessary to reach the state’s goals would drive up costs exponentially, from $49 per megawatt-hour of generation at 50 percent to $1,612 at 100 percent.
I've seen a few corporations basically do this with water. At day a bunch of water is moved to the top of a reservoir using the excess power, at night the water is released and goes down the hill/channel and the kinetic energy turns turbines. It's effectively a giant battery.Drop a 10-story shaft with a 50-ton weight on a screw prop. Raise the weight with longitudinal gears under power, lock the weight when no power is needed, drop the weight and recover something like 65 percent of the power used to raise the weight.
I never looked into it but I remember as a kid all the commercials about how geothermal energy was the sustainable energy of the future.I'm surprised Cali doesn't dump more into their geothermal energy generation that they have at the Geysers (admittedly I am unaware if they have more capacity there, but I would assume they do there) .
Problem is that a lot of areas you'd have to dig really deep to get at it. It's not like everyone is sitting on top of a hot spring or something.I never looked into it but I remember as a kid all the commercials about how geothermal energy was the sustainable energy of the future.
Yet my solar panels literally paid themselves off after 3 years with incentives, and yeah sure the government... but without incentives I go a different route and they would have paid themselves off about 10-12 years and that's with electric rates being what the current are which unfortunately in California is only going in one direction as history has shown. Now I can't run a nuclear plant at my house, gas fired electricity wouldn't work either, but I can do solar to make energy for myself. I don't disagree one bit with nuclear being the best option, but I can't change legislation, I can't make nuclear be accepted, what I can do is make my own power, I'm not trying to feed the grid.Time to face reality. Solar is dangerously expensive and threatens our economy.
I'm not familiar with cost estimates for power plants, but MWh are a unit of energy, not power. Are you sure they didn't already take into account the actual energy production limitations of solar panels? ( it would be very strange of them to report units of energy for energy that does not exist...)Cool, we'll use your source.
So given the best case estimate they provided, a 50MWh PV with only a 4 hour battery still costs 2.3x more money than gas. Of course, factor in the actual efficiency (20% vs 55%) and lifetime (25yr vs 20yr) and that rises to at least 5x more expensive. Thanks for the example!
This is not how geothermal works. You can do it just about anywhere (for single home use) and usually you only need to dig 5-6 feet below the frost line, unless you are doing a vertical loop. https://www.geothermalforall.com/installing-and-buying/installation-processProblem is that a lot of areas you'd have to dig really deep to get at it. It's not like everyone is sitting on top of a hot spring or something.
You can do geothermal loops for one-off setups, but those require a lot of room as you're either building a giant pond for the loop, or you're lucky enough to live on the ocean/a big lake and also can legally build a loop into said body of water.
Geothermal power it does work like that, geothermal heating/cooling it works like you're mentioning two different beasts. I've found that most people are in the "dig a really deep hole" category as far as heating/cooling, and that is not cheap at all for some reason (probably lack of options primarily), now air heat pumps are gaining popularity as the ability to pull heat from even the coldest air is getting better it makes it hard to think about digging a well for geothermal heating/cooling. Either way it is a very large upfront cost that will only pay dividends in the far future.This is not how geothermal works. You can do it just about anywhere (for single home use) and usually you only need to dig 5-6 feet below the frost line, unless you are doing a vertical loop. https://www.geothermalforall.com/installing-and-buying/installation-process
You are right but you can do geothermal power generation by using old oil and gas drill holes. I believe that this is actively being trialed in Canada for cost liability.Geothermal power it does work like that, geothermal heating/cooling it works like you're mentioning two different beasts. I've found that most people are in the "dig a really deep hole" category as far as heating/cooling, and that is not cheap at all for some reason (probably lack of options primarily), now air heat pumps are gaining popularity as the ability to pull heat from even the coldest air is getting better it makes it hard to think about digging a well for geothermal heating/cooling. Either way it is a very large upfront cost that will only pay dividends in the far future.
Possibly, I think oil holes go down much deeper than typical geothermal (power) wells need to go so they'll get to the hot stuff eventually. The upside is there there are a lot more oil and gas holes than there are geothermally active (and accessible) regions, downside may cost considerably more to get the fluid you need that deep. Still interesting if it can happen.You are right but you can do geothermal power generation by using old oil and gas drill holes. I believe that this is actively being trialed in Canada for cost liability.
Do the lower grill shutters open and close? Are they in fact shutters?So I just bought one today. I had to drive 90 miles one way to find one in stock.
View attachment 407965
Yes, they open to cool the battery when recharging.Do the lower grill shutters open and close? Are they in fact shutters?