I can't put my finger on it but my engineers intuition is screaming "scam". Apart from the scant technical data I'm thinking if you put a standard wind turbine next to this thing your standard wind turbine would out perform it. There's no evidence that all those fancy vanes increase efficiency.
@@benetra 8m/s wind is 28.8km/hr 20 to 29 km/h Strong enough to straighten flying flags and shake small tree branches. Expect dust and loose paper garbage to fly around in the air. Unless you're out at sea its not often I see that sort of strong breeze, and ridiculous to expect it 24 hours a day, every day. So, even if it did provide 700W at 8m/s, which is a lot of energy, it would not provide 6100kwh in a year because that sort of wind would not be happening every hour/day of the year. I've just checked my electricity bill for my home. Apparently I use about 2000KWh per year. So one of these things produces enough power for 3 homes, I very much doubt that.
Besides this, one needs to remember that the power that can be extracted from the wind depends closely to the surface covered by the device, and then there the Belz law, that say that the highest efficiency is not be expected above 50%. What is the surface here? And wind at that height, just above roof, is of really bad quality. There is no miracle unfortunately. If big companies with enormous cash do R&D stick to classical yet almost perfectly optimized 3 wings treadmills, as tall as possible, there’s a reason.
@@sebcam9498 yes, what this tells us is that we can't trust what we hear from these companies and even youtubers discussing these things. In the age of social media the information spectrum is polluted with garbage.
@@701983 you still has a bit of phisix.. wing span and watt thoes creteria aint .. saad to say.. peptual energy .. ther ar´e no free lunch.. and the artifitial AI reader lack the propper pronaunsiation of turbin and other words
Exactly. Nominal wind speed is nothing wrong but expectations for such high winds is too confident. At 8m/s that turbine at best have 1100W of power. It is with assumption that it have 50% efficiency. Personally I would say it is around 35%. At minimum 3,5m/s wind such turbine will generate around 60W of power. So it can power 4 houses? Big lie. For me it is paid advertisement. Author of video have no knowledge about wind turbines. You can not swap big turbines with small ones and expect similar power. The "remarkable advantage" is compatibility with existing solar installations. Virtually any wind turbine that can be grid connected is compatible with PV. It is like saying our tires have "remarkable advantage" because those are round 🤣
Sorry to say but if I head correctly and the annual power out is 6100 kWh at 8 m/s (mean wind speed) then this will only have very limited use cases. It would be interesting to see the power curve.
Did a bit of the math based on www.e-education.psu.edu/earth104/node/923 and under the assumption the 2 meter model has a 4m² cross sectional area. 0,3*1,2*4*4^3 = 92W at 4/ms 0,3*1,2*4*8^3 = 737W at 8m/s Again, 8m/s on average through the year (or even during winter months) does not seem to be realistic.
Vetrical and/or helical turbines could be installed inside the frame or atop of every high tension electricity transmission tower in the country. Every tower could serve to be not only transmit but also produce electricity. It would require absolutely no additional land usage or do not have to be installed in remote locations where their lack of proximity to the grid create additional expense. They are already connected to the grid. Plus the physical supports already exist. Mass production to make enough for so many towers would bring the cost down. Installation costs would be a small percentage of that of current horizontal windmills. This approach would also minimize the aesthetic complaints of large windmill farms because the transmission towers already exist and these turbines would actually dress them up a bit. Each tower could actually handle two or three units stacked atop each other.
Except those high tension transmission towers arent designed to handle that extra strain. They are designed to hold transmission lines. Thats it. Also these wind turbines never do what they say they can do. I was looking at smaller wind turbines and everyone was saying it was a complete waste of money. Wind power is a physics problem and wind power only makes sense when you go big. Until we come up with a way to change physics it wont make sense to put up small wind turbines.
Been WAITING for residential non-bird-killer Wind power generation solutions that make financial sense for 2-3 decades now. Doesn't seem like it's going to happen, which really sucks. I'd love to see wind as part of a multi-layered Energy solution for any home.
6100 kWh per year with an average wind speed of 8 m/s is plausible at least. But where on this planet could you get so much wind near the ground? Antarctica? On average built-up sites, it will be less than 1000 kWh per year. Half wind speed means an eighth yield, roughly.
the only thing you can put it near mountains or lift it up with giant baloon 10-30m high to get more stable winds which are twice stronger than on the ground.
@@LittleBoobsLover yah that would be great to have a massive turbine just floating through the sky if there is a problem. At least the wind would be stable as it sends a wind turbine flying into a building. They have systems that operate like a kite now but I'm not sure how well they work. At least if the kite gets free it will only smash buildings windows instead of making the building have a turbine blade being part of of the building.
I am always skeptical when they quote annual home usage figures. I suppose it will be good for charging batteries which can then be used to power the home but on its own highly doubtful.
What happened to the Ventum Dynamics wind turbine at the end of the Skegness pier in Skegness, England? A November 2023 video showed a rope tied to the wind turbine blades, which prevented the blades from turning. An April 2024 video showed that the turbine had been removed from the pier.
Sorry but when i worked as an instrument repaider some of the wind meters have the same principle but more advencing .whilst giving the wind direction it blocks the opposite of the wind direction and the inlet rims are curved directing to the top and on the top the same wind arrow that steering the mention wind blocking unit make a Ventura with a slope of30 degrees and so it already exit
I have seen other designs that don't rely on energy sapping wind channeling. As a business owner, why would this be better for me than a straightforward regular or modified 'prop in the wind'?
There are also only about 5 cities in the USA for example that can reach that sustained wind speed. using almost unreachable numbers means that my 1200w solar which covers 2 square meters can produce 9.4MWh per year with no clouds and 24 hour sunlight :D
i agree that it is simple because no steering is needed. at the same time that is also its weakness because instead of the propeller always showing in the optimal direction it only takes in from an area that is less than the rotor size, and seeing that it is redirected air it already looses a lot of energy due to being redirected. benefits could be: simpler therfore cheaper and less maintenance intensive. disadvantage: not as eficient as sicking a rotor directly in the wind direction. which is better..... difficult to say without a total cost of ownership minus realworld production figures calculation.
There is a very small pressure drop, the wind side has + and the lea side - they virtually cancel each other. There would not be enough to run a car alternator fast enough to make usable power.
Wind turbines with wind-catcher-systems are generally bad. They need a lot of extra material, they need more effort to make them stormproof, since they can't reduce air resistance. And efficiency is worse due to the redirection of the wind. But I suppose, this could be better than the "Aeromine"-concept at least, since it can use wind from all directions.
Estimated annual energy production ? 1/2-meter turbine offers up to 500 kWh , for Camper and Boat 1-meter turbine offers up to 1,800 kWh , for 1 home 2-meter turbine offers up to 6,100 kWh, 4-meter turbine offers up to 18,800 kWh
Check out Robert murray-smith and his channel , where he creates small scale versions of various turbines , wind generators ect , this particular design is currently being tried in the uk
Why does the robot put the emPHAsis on the third syllaBLE of the words? And if they can't put the price up in the advertising, YOU CAN'T AFFORD ONE. Pass. I saw another company with a nearly identical concept earlier this year, so is this one of many bidders?
Does it kill birds? And if one gets butchered inside it - Does it mean climbing on the roof to clean it on a none windy day? Besides this, looks great.
It looks good futuristic. But of course they don't really work. That's why they have been placed as an attraction on the pier at skegy. If it really worked Elon Musk would be building huge factories across the world 😂
In several countries the decimal "sign" is a comma and not a dot and engineers don t use a xomma as " 1000" separators but l3tters like "k" or "M" instead .. So if as yearly cumulated energy generation we take tjese convention resulting in 6.1kWh / yr could be feasible, So if - with estimated life time of 10 yrs tham cost of purchase, installation (incl reinforcement of your roof, connection to your home switch board , insurance and maintenance all these costs together should not surpass the cost of 10×6.1 kWh (which with actual kWh prices is around 60 Euro, so dream on...
Cute, but the base of the structure has to be engineered to take the stresses that are induces, thus many roof tops are not going to qualify without huge costs.
Any windmill can only take wind energy from the cross area covered by it's collection system. Small windmills will always be more expensive per actual generated watt than big ones. And even big windmills can't compete with gas,coal and nuclear.
and every generator strapped to a turbine can, at best, only transfer half of that energy to a load. and its much closer to 1/5, 1/10th, otherwise the generator starts smoking as it has to dissipate the remainder of the energy that is not transferred to the load... as you try and reduce the loss in the generator, there is less and less power overall, in the load or the generator... and then, as you cant load the turbine down adequately to maintain the ideal blade speed to wind speed, you have to apply brakes instead. and what do brakes produce? HEAT! and then what do we do with that HEAT? DUMP IT as a WASTE PRODUCT. what does a coal gas or nuke powerstation actually do? makes HEAT. jacobs law. the fundamental basic they dont teach us at school. i can make a wind turbine compete with coal, gas, and nuclear, simply by using it as a boiler rather than try and generate "electricity" directly. been heating my water for years with a wind turbine. no electricity involved. the harder the wind blows, the more water i can heat to a given temerpature, or the hotter i can get a given mass of water. no trying to match supply with demand, no trying to match grid frequencies or limit blade speeds... as theyre automatically limited by extracting energy. and the traditional steam turbine takes care of grid interaction. when you try heating stuff, you can make a load that actually can extract the maximum energy from the turbine, regardless of the wind speed. shame noone will donate a small windfarm and an old steam turbine for me to prove this on a large scale. and yeah, a fair bit of money for materials. plumbing and the like. heat exchangers. large tank of salt. insulation...
average wind speed is more like 4 meters per second over a year. 6.000 kW is not enough for one household much less for four houses, I think a household will need 20.000 kw in the future with BEV cars and all electronics.
Perhaps you do the calculations rather than guess a number. 6kW works out to 52,560 kWh per year. That would supply the average UK household and put enough charge in a BEV for 180,000 miles. Would you really need three times that?
Ok sorry I have checked the video again. It references 6,100 kWh per year, not 6.000 kW. That works out at around 19 kWh per day which is more than 4 times what I used before getting a BEV and over twice what I use now.
@@scallywagII we all have different driving patterns and living situations I drive 50.000 km a year and average 2 kW per 10 km that alone is 10.000 kW. My house needs another 10.000kW.
@@scallywagII something that generates 6 kW per hour at constant wind will on average produce 6.000 kW per year. That is basic knowledge. There is no such thing as constant wind at 8 m/s every day of the year. And if the average wind is 4m/s you will get 3.000 kW a year.
@@peteroffpist1621 you seem to be getting confused with your units and arithmetic. 5000 km at 2kWh per 10 km works out at 1000 kWh. kW is a unit of power, there is no such thing as kW per hour. Power in kW x time in hours = Energy in kWh.
Not saying this design is best but with a compact design, every house large enough could have wind energy. Alternatively a turbine supplying multiple properties.. BUT CHEAPLY
*All practical tests show that small wind turbines hardly generate any electricity! And only at very high costs!* Because there is hardly any wind close to the ground. It is also extremely gusty, which usually shortens the service life. Only if you need to be self-sufficient from the power grid, you should erect the largest possible wind turbine on a high mast. *With solar modules, on the other hand, you can reliably generate green electricity for 25 years at approx. 3-10 cent/kWh!*
A screen on the top would keep birds out and safe. It would also be easy to do. It could be a permanent part of design and won’t effect function. 👍🏻👍🏻👍🏻
Archimedes turbine much more efficient . . . Much smaller for home use . . . But hey, let them fail on the industrial scale . . . The peons will eventually have a manufacturer that puts the widdle guy first
I'm still waiting for a credible solution where we can generate enough meaningful energy at a small scale that's suitable for housing. I hear a lot of promising ideas, but until we start seeing some credible data in the wild, it all means nothing, with solar being an overall better option. It's a shame really because if we can have a mix of solar and wind at a local level, they would complement each other really well to give a more consistent power flow, especially if you have a buffer with a reasonable amount of battery storage. Mixing the two would offer the advantage of solar offering more energy in the day and summer months, wind offering more energy in the winter months, and being that wind speeds tend to be higher in winter and at nighttimes, they complement each other really well. But so far, we've been hearing so many promises with wind turbines at a small scale, they always fail, but there are a lot more radical different approaches being done on small wind turbines, so who knows, maybe one will get it right. But for now, solar is better, it's so cheap now that you're better off just putting up more solar, it's also getting cheaper and better all the time, so for the consumer home market, the clock is ticking on the wind industry, especially because as solar gets better as well as battery tech gets better, more of us will be in a position to go off grid, meaning that wind turbines have to find solutions of making turbines work at a small scale, otherwise the solar industry could wipe them out.
They COULD mean: Utilizes wind from all directions without the need of adjusting the turbine to the wind direction. This could be a little advantage at sites with quickly and frequently changing wind directions. But normally, it won't make much difference in this regard.
Думайте над механикой этого процесса и тогда поймёте, что наши предки давно создали эффективный и универсальный двигатель. th-cam.com/video/Md5sqdAv6Vg/w-d-xo.htmlsi=PeJuJ7XtZtZ7uWPv Все что позже появилось это для летательных аппаратов или детских игрушек. остальные
NONSENSE! All practical tests show that small wind turbines hardly generate any electricity! And only at very high costs! Because there is hardly any wind close to the ground. It is also extremely gusty, which usually shortens the service life extremely! Only if you need to be self-sufficient from the power grid & live close to the sea, you should install the largest possible wind turbine on a high mast. *With solar modules, on the other hand, reliably generate electricity for 25 to 30 years at approx. 2% to 5% oft he cost of small wind turbines!*
What a Load of Shite! What happens when the wind stops blowing !? And what happens to whatever power is generated... when there is limited demand ?? Fill up a barnful of Lead acid storage batteries??
South Africa is sitting on a 400 year supply of coal. The previous intelligent government built coal powered station on top of the mines. They were even the first to introduce air cooling for power generators . The new government is shipping coal to china at a rate that has to be seen to be believed. Meanwhile the country is experiencing 8 hour daily rolling blackouts. Thus forcing VERY expensive alternatives. Shop owners are forced to install diesel generators. If i lived in Cape Town I'd have ..... a th-cam.com/video/J3QR1_VQ-KQ/w-d-xo.htmlsi=67s9EJUsaeQvfF-8. Plus a few solar panels. Linked to cheap lead acid batteries You simply cannot rely on government
Another piece of rubbish. These turbines do not produce as much energy as they suggest because almost nobody lives in an area where there is sufficient wind.
I can't put my finger on it but my engineers intuition is screaming "scam". Apart from the scant technical data I'm thinking if you put a standard wind turbine next to this thing your standard wind turbine would out perform it. There's no evidence that all those fancy vanes increase efficiency.
at 8m/s energy ouput is 6100kWh per what? Per year?
If we assume per year that would be an average power output of 700W at 8m/s
@@benetra 8m/s wind is 28.8km/hr 20 to 29 km/h Strong enough to straighten flying flags and shake small tree branches. Expect dust and loose paper garbage to fly around in the air. Unless you're out at sea its not often I see that sort of strong breeze, and ridiculous to expect it 24 hours a day, every day. So, even if it did provide 700W at 8m/s, which is a lot of energy, it would not provide 6100kwh in a year because that sort of wind would not be happening every hour/day of the year. I've just checked my electricity bill for my home. Apparently I use about 2000KWh per year. So one of these things produces enough power for 3 homes, I very much doubt that.
@@RobertA-hq3vz Correct! At a more realistic 4m/s average wind speed, it would provide only around 750kWh per year.
Besides this, one needs to remember that the power that can be extracted from the wind depends closely to the surface covered by the device, and then there the Belz law, that say that the highest efficiency is not be expected above 50%.
What is the surface here? And wind at that height, just above roof, is of really bad quality. There is no miracle unfortunately.
If big companies with enormous cash do R&D stick to classical yet almost perfectly optimized 3 wings treadmills, as tall as possible, there’s a reason.
@@sebcam9498 yes, what this tells us is that we can't trust what we hear from these companies and even youtubers discussing these things. In the age of social media the information spectrum is polluted with garbage.
8 meters per second is almost 18 miles per hour. This wind speed is perhaps on top of very tall buildings.
On top of very tall buildings on very windy sites.
@@701983 you still has a bit of phisix.. wing span and watt
thoes creteria aint .. saad to say.. peptual energy .. ther ar´e no free
lunch.. and the artifitial AI reader lack the propper pronaunsiation
of turbin and other words
Exactly. Nominal wind speed is nothing wrong but expectations for such high winds is too confident. At 8m/s that turbine at best have 1100W of power. It is with assumption that it have 50% efficiency. Personally I would say it is around 35%. At minimum 3,5m/s wind such turbine will generate around 60W of power. So it can power 4 houses? Big lie.
For me it is paid advertisement. Author of video have no knowledge about wind turbines. You can not swap big turbines with small ones and expect similar power. The "remarkable advantage" is compatibility with existing solar installations. Virtually any wind turbine that can be grid connected is compatible with PV. It is like saying our tires have "remarkable advantage" because those are round 🤣
Sorry to say but if I head correctly and the annual power out is 6100 kWh at 8 m/s (mean wind speed) then this will only have very limited use cases. It would be interesting to see the power curve.
Did a bit of the math based on www.e-education.psu.edu/earth104/node/923 and under the assumption the 2 meter model has a 4m² cross sectional area.
0,3*1,2*4*4^3 = 92W at 4/ms
0,3*1,2*4*8^3 = 737W at 8m/s
Again, 8m/s on average through the year (or even during winter months) does not seem to be realistic.
I want the white paper...
Vetrical and/or helical turbines could be installed inside the frame or atop of every high tension electricity transmission tower in the country. Every tower could serve to be not only transmit but also produce electricity. It would require absolutely no additional land usage or do not have to be installed in remote locations where their lack of proximity to the grid create additional expense. They are already connected to the grid. Plus the physical supports already exist. Mass production to make enough for so many towers would bring the cost down. Installation costs would be a small percentage of that of current horizontal windmills. This approach would also minimize the aesthetic complaints of large windmill farms because the transmission towers already exist and these turbines would actually dress them up a bit. Each tower could actually handle two or three units stacked atop each other.
Except those high tension transmission towers arent designed to handle that extra strain. They are designed to hold transmission lines. Thats it. Also these wind turbines never do what they say they can do. I was looking at smaller wind turbines and everyone was saying it was a complete waste of money. Wind power is a physics problem and wind power only makes sense when you go big. Until we come up with a way to change physics it wont make sense to put up small wind turbines.
Staged Helical must be much more efficient
Been WAITING for residential non-bird-killer Wind power generation solutions that make financial sense for 2-3 decades now. Doesn't seem like it's going to happen, which really sucks. I'd love to see wind as part of a multi-layered Energy solution for any home.
What's the lowest wind speed to engage the system? What is the highest? What does it do when the winds are higher than the maximum speed?
3.5m/s cut in speed, 18m/s cut off
What is the power output curve vs wind speed?
6100 kWh per year with an average wind speed of 8 m/s is plausible at least.
But where on this planet could you get so much wind near the ground? Antarctica?
On average built-up sites, it will be less than 1000 kWh per year.
Half wind speed means an eighth yield, roughly.
the only thing you can put it near mountains or lift it up with giant baloon 10-30m high to get more stable winds which are twice stronger than on the ground.
@@LittleBoobsLover yah that would be great to have a massive turbine just floating through the sky if there is a problem. At least the wind would be stable as it sends a wind turbine flying into a building. They have systems that operate like a kite now but I'm not sure how well they work. At least if the kite gets free it will only smash buildings windows instead of making the building have a turbine blade being part of of the building.
I am always skeptical when they quote annual home usage figures. I suppose it will be good for charging batteries which can then be used to power the home but on its own highly doubtful.
Batteries are expensive.
Not nearly as expensive as these overpriced sheetmetal fans.
What happens when you get a foot or more of snow and the temperature falls below freezing?
We use snow blowers ...
Great work.
i'd get this, before solar, big time. It makes total sense.
What happened to the Ventum Dynamics wind turbine at the end of the Skegness pier in Skegness, England? A November 2023 video showed a rope tied to the wind turbine blades, which prevented the blades from turning. An April 2024 video showed that the turbine had been removed from the pier.
Sorry but when i worked as an instrument repaider some of the wind meters have the same principle but more advencing .whilst giving the wind direction it blocks the opposite of the wind direction and the inlet rims are curved directing to the top and on the top the same wind arrow that steering the mention wind blocking unit make a Ventura with a slope of30 degrees and so it already exit
You could use a rare earth magnet alternator and fashion a tunnel the same way. You might use a squirrel cage blower reversely to turn it.
What? Huh? No!
I have seen other designs that don't rely on energy sapping wind channeling. As a business owner, why would this be better for me than a straightforward regular or modified 'prop in the wind'?
They sure sidestepped the price question. Didn't even give a range per Kw.
Does it work in cold conditions and freezing rain
Do live where it is windy all the time?
great idea but please put a lapel mic on so we can hear the comments on the interview
Sounds highly doubtful. If the commercial size market is not interested,theres a reason.
There are also only about 5 cities in the USA for example that can reach that sustained wind speed. using almost unreachable numbers means that my 1200w solar which covers 2 square meters can produce 9.4MWh per year with no clouds and 24 hour sunlight :D
I get more than that an hour from solar on my house.
Take it off the roof and put it in the garage and get a couple leaf blowers! Get some lights for your solar panels!
i agree that it is simple because no steering is needed. at the same time that is also its weakness because instead of the propeller always showing in the optimal direction it only takes in from an area that is less than the rotor size, and seeing that it is redirected air it already looses a lot of energy due to being redirected. benefits could be: simpler therfore cheaper and less maintenance intensive. disadvantage: not as eficient as sicking a rotor directly in the wind direction. which is better..... difficult to say without a total cost of ownership minus realworld production figures calculation.
There is a very small pressure drop, the wind side has + and the lea side - they virtually cancel each other. There would not be enough to run a car alternator fast enough to make usable power.
Wind turbines with wind-catcher-systems are generally bad. They need a lot of extra material, they need more effort to make them stormproof, since they can't reduce air resistance. And efficiency is worse due to the redirection of the wind.
But I suppose, this could be better than the "Aeromine"-concept at least, since it can use wind from all directions.
Estimated annual energy production ?
1/2-meter turbine offers up to 500 kWh , for Camper and Boat
1-meter turbine offers up to 1,800 kWh , for 1 home
2-meter turbine offers up to 6,100 kWh,
4-meter turbine offers up to 18,800 kWh
Check out Robert murray-smith and his channel , where he creates small scale versions of various turbines , wind generators ect , this particular design is currently being tried in the uk
I am interested in your wind turbine energy technology could you please forward catalogue and CIF prices
No!
Why does the robot put the emPHAsis on the third syllaBLE of the words? And if they can't put the price up in the advertising, YOU CAN'T AFFORD ONE. Pass. I saw another company with a nearly identical concept earlier this year, so is this one of many bidders?
As with any 'clean energy' system what are the payback costs? 15 years? 20 years? Any time? Ever?
what are the payback costs of doing nothing and just paying rising energy bills eh?
This is wonderful world with a beautiful future, we just need peace ☮️ for advancement 😊
Does it kill birds? And if one gets butchered inside it - Does it mean climbing on the roof to clean it on a none windy day? Besides this, looks great.
Very smart looking product Interesting.
Hi, We are interested in your wind turbine energy technology. Can you forward catalogue and CIF prices list. Thank you]
The company hasn’t set the price yet.
You should apply Betz's law to it. Then you know how much (or little) energie is able to generate with a turbine like that.
If you cannot provide pricing for your UK office its not engineered... sorry, rolling the dice is not an option...
1. If the trial is successful, expect chinese copies within a week.
2. Food wrappers flying out the top and into passersby's faces 🤣
Embarrassing having interviewers who don't know the terminology and just want the "dumbed down" answers.
It looks good futuristic.
But of course they don't really work.
That's why they have been placed as an attraction on the pier at skegy.
If it really worked Elon Musk would be building huge factories across the world 😂
In several countries the decimal "sign" is a comma and not a dot and engineers don t use a xomma as " 1000" separators but l3tters like "k" or "M" instead .. So if as yearly cumulated energy generation we take tjese convention resulting in 6.1kWh / yr could be feasible, So if - with estimated life time of 10 yrs tham cost of purchase, installation (incl reinforcement of your roof, connection to your home switch board , insurance and maintenance all these costs together should not surpass the cost of 10×6.1 kWh (which with actual kWh prices is around 60 Euro, so dream on...
But whaT about the disadvantages?
Y el precio gracias
Cute, but the base of the structure has to be engineered to take the stresses that are induces, thus many roof tops are not going to qualify without huge costs.
Is that sales guy irrelative of Trevor Milton seems kind of fishy to me! Show us the numbers not just a pump up!
Any windmill can only take wind energy from the cross area covered by it's collection system.
Small windmills will always be more expensive per actual generated watt than big ones.
And even big windmills can't compete with gas,coal and nuclear.
and every generator strapped to a turbine can, at best, only transfer half of that energy to a load. and its much closer to 1/5, 1/10th, otherwise the generator starts smoking as it has to dissipate the remainder of the energy that is not transferred to the load... as you try and reduce the loss in the generator, there is less and less power overall, in the load or the generator...
and then, as you cant load the turbine down adequately to maintain the ideal blade speed to wind speed, you have to apply brakes instead. and what do brakes produce?
HEAT! and then what do we do with that HEAT?
DUMP IT as a WASTE PRODUCT.
what does a coal gas or nuke powerstation actually do? makes HEAT.
jacobs law. the fundamental basic they dont teach us at school.
i can make a wind turbine compete with coal, gas, and nuclear, simply by using it as a boiler rather than try and generate "electricity" directly.
been heating my water for years with a wind turbine. no electricity involved. the harder the wind blows, the more water i can heat to a given temerpature, or the hotter i can get a given mass of water. no trying to match supply with demand, no trying to match grid frequencies or limit blade speeds... as theyre automatically limited by extracting energy. and the traditional steam turbine takes care of grid interaction.
when you try heating stuff, you can make a load that actually can extract the maximum energy from the turbine, regardless of the wind speed.
shame noone will donate a small windfarm and an old steam turbine for me to prove this on a large scale. and yeah, a fair bit of money for materials. plumbing and the like. heat exchangers. large tank of salt. insulation...
average wind speed is more like 4 meters per second over a year. 6.000 kW is not enough for one household much less for four houses, I think a household will need 20.000 kw in the future with BEV cars and all electronics.
Perhaps you do the calculations rather than guess a number. 6kW works out to 52,560 kWh per year. That would supply the average UK household and put enough charge in a BEV for 180,000 miles. Would you really need three times that?
Ok sorry I have checked the video again. It references 6,100 kWh per year, not 6.000 kW. That works out at around 19 kWh per day which is more than 4 times what I used before getting a BEV and over twice what I use now.
@@scallywagII we all have different driving patterns and living situations I drive 50.000 km a year and average 2 kW per 10 km that alone is 10.000 kW. My house needs another 10.000kW.
@@scallywagII something that generates 6 kW per hour at constant wind will on average produce 6.000 kW per year. That is basic knowledge. There is no such thing as constant wind at 8 m/s every day of the year. And if the average wind is 4m/s you will get 3.000 kW a year.
@@peteroffpist1621 you seem to be getting confused with your units and arithmetic. 5000 km at 2kWh per 10 km works out at 1000 kWh.
kW is a unit of power, there is no such thing as kW per hour. Power in kW x time in hours = Energy in kWh.
Not saying this design is best but with a compact design, every house large enough could have wind energy. Alternatively a turbine supplying multiple properties.. BUT CHEAPLY
STL files ?
Multiplier par les jours devant diviser par 365= pas grand-chose
*All practical tests show that small wind turbines hardly generate any electricity! And only at very high costs!*
Because there is hardly any wind close to the ground. It is also extremely gusty, which usually shortens the service life.
Only if you need to be self-sufficient from the power grid, you should erect the largest possible wind turbine on a high mast.
*With solar modules, on the other hand, you can reliably generate green electricity for 25 years at approx. 3-10 cent/kWh!*
A screen on the top would keep birds out and safe. It would also be easy to do. It could be a permanent part of design and won’t effect function. 👍🏻👍🏻👍🏻
Birds make great fertilizer...
a screen on top would accumulate dust and debris, causing a blockage to wind flow and reducing power output.
Its not an accedent that that the wont provide pricing wind turbine at this scale will never be financialy viable
Archimedes turbine much more efficient . . . Much smaller for home use . . . But hey, let them fail on the industrial scale . . . The peons will eventually have a manufacturer that puts the widdle guy first
Build over chimney
Looks cool, the voice over is terrible and annoying, the music nearly as bad.
I'm still waiting for a credible solution where we can generate enough meaningful energy at a small scale that's suitable for housing.
I hear a lot of promising ideas, but until we start seeing some credible data in the wild, it all means nothing, with solar being an overall better option.
It's a shame really because if we can have a mix of solar and wind at a local level, they would complement each other really well to give a more consistent power flow, especially if you have a buffer with a reasonable amount of battery storage.
Mixing the two would offer the advantage of solar offering more energy in the day and summer months, wind offering more energy in the winter months, and being that wind speeds tend to be higher in winter and at nighttimes, they complement each other really well.
But so far, we've been hearing so many promises with wind turbines at a small scale, they always fail, but there are a lot more radical different approaches being done on small wind turbines, so who knows, maybe one will get it right.
But for now, solar is better, it's so cheap now that you're better off just putting up more solar, it's also getting cheaper and better all the time, so for the consumer home market, the clock is ticking on the wind industry, especially because as solar gets better as well as battery tech gets better, more of us will be in a position to go off grid, meaning that wind turbines have to find solutions of making turbines work at a small scale, otherwise the solar industry could wipe them out.
Bagus sekali
Looks like a wildlife bird killer. I imagine birds being sucked up into those blades during high winds.
Scam, look at videos about wind turbines before buying
Whatch youtube video on the gyro wind turbine more power less size regards Graham Flowers MEng
i will NEVER like or subscribe to anything that uses FAKE VOICES
I think WT’s were Omni directional anyway? 😂
There are exceptions, like the concept of "Aeromine".
But basically, you are right, "omnidirectional capability" is rather a buzzword here.
They COULD mean: Utilizes wind from all directions without the need of adjusting the turbine to the wind direction.
This could be a little advantage at sites with quickly and frequently changing wind directions.
But normally, it won't make much difference in this regard.
Doubt.
all that happens when you promote bullshit videos like this is people list “don’t recommend” on your channel. Like I’m about to do.
If the name really is pronounced "venom" and not "Vent-um", then they should consider changing it to something more appealing.
Just advertising, no actual technical content.
Odd "turbine" pronunciation!
AI
De vent pas devant
Great 👍
No!
Думайте над механикой этого процесса и тогда поймёте, что наши предки давно создали эффективный и универсальный двигатель. th-cam.com/video/Md5sqdAv6Vg/w-d-xo.htmlsi=PeJuJ7XtZtZ7uWPv Все что позже появилось это для летательных аппаратов или детских игрушек. остальные
Nothing worse now than coming to channels like this and the use of bloody AI voice-overs.
Trillions and trillions of dollars business in the universe years2024 making electricity
2 is cola
NONSENSE! All practical tests show that small wind turbines hardly generate any electricity! And only at very high costs!
Because there is hardly any wind close to the ground. It is also extremely gusty, which usually shortens the service life extremely!
Only if you need to be self-sufficient from the power grid & live close to the sea, you should install the largest possible wind turbine on a high mast.
*With solar modules, on the other hand, reliably generate electricity for 25 to 30 years at approx. 2% to 5% oft he cost of small wind turbines!*
You launch a product without customers feedback is out of product journey from conception to reality. This is bs.
Can't you afford a few bucks to pay a human to read the text? This bot is annoying
AI for the sake of AI is getting right on my tits.
AI generated, using captured footage. It's basically an exxon commercial, all it needs is an eagle.
😂
What a Load of Shite!
What happens when the wind stops blowing !?
And what happens to whatever power is generated... when there is limited demand ??
Fill up a barnful of Lead acid storage batteries??
Lmao.
No wind.
No power generation.
When you learn to speak in US terms/forms of measurement ....let me know.
Scam
Yet more relentless techno-bullshit. It's exhausting.... 😔
South Africa is sitting on a 400 year supply of coal.
The previous intelligent government built coal powered station on top of the mines.
They were even the first to introduce air cooling for power generators .
The new government is shipping coal to china at a rate that has to be seen to be believed.
Meanwhile the country is experiencing 8 hour daily rolling blackouts.
Thus forcing VERY expensive alternatives.
Shop owners are forced to install diesel generators.
If i lived in Cape Town I'd have ..... a th-cam.com/video/J3QR1_VQ-KQ/w-d-xo.htmlsi=67s9EJUsaeQvfF-8. Plus a few solar panels.
Linked to cheap lead acid batteries
You simply cannot rely on government
Another piece of rubbish. These turbines do not produce as much energy as they suggest because almost nobody lives in an area where there is sufficient wind.