How The Liam F1 Wind Turbine Will Destroy Every Home Renewable Energy Source

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@@user-hh6ex9md4w ok bot

I am sorry

Or they’re bought out and the patents buried by competitors.

Or it's just pseudo-science bullshit

The need for this cheap source of energy can only be realized if the production is ramped up to flood the world and stop corporate driven governments from killing it off to protect their interests.
Elon Musk!, please help us?

this is avery old idea .. not new just died because it failed to live up to the hype

Why 15.000€. Isn't this only a couple of sheets of metal and a washing-machine brushles motor?
With a converter and a battery this should not be more than 5.000€. With that price I would order it now.

sounds like your utility provider will put the zeroing for wind at mid autumn ..
11years at best for ROI is a bad deal, is there a tax deductible or something you left out? else solar is much better thanx to those

When I signed up for net metering with Ameren Illinois four years ago, I was given a choice of resetting October 1st or April 1st. To me it made the most sense to go with the April reset date. It has been my experience that having the build up of credit going into winter allows me to supplement natural gas forced air heating with electric quartz heaters. I would like to add a small wind turbine to my solar panels as a safety net to allow additional heater usage should I need to.

Who the heck wants 6 of these around your house. Ugh,

@@Mrbriangalvan ,
I have 4 P.M.A.s and each one is capable of making 1200 to 1800 watts each ,
One is hooked up to a V.A.W.T.
One to a water wheel
One to a bicycle
One to a 42cc gas engine
Then I have Solar Panels
So I'm using Wind , Water, Sun , Human power and gasoline for backup ,
I also have a 2000watt Generac generator .

Interesting but you overlook the fact that the cost will be reduced once the turbines are mass produced.

i wonder how it would perform in places like Canada where we have extreme winter weather ice storms etc...

It's not a mutually exclusive option. If you already have solar, you can install this as an adjunct. When it's bright and sunny, let solar be the primary source of energy. If it's cloudy, or windy overnight, then the turbine fills in what solar cannot do. Why the 'all-or-nothing' mindset?

was dumped by most engineers in the game years ago as just another fancy money grabber that produces very little not new at all i remember seeing prototypes of this a decade ago

With solar on a grid tied system you usually need to plan for more than your average usage because utilities like to zero out what they owe you at the end of summer right after peak power production. Wind, on the other hand, peaks in Autumn (at least in my area) so you might be able to get away with a smaller system.
From what I read each one is supposed to average 1500 kwh a year when the average annual wind speed is 5 m/s. This translates to 11.18 mph which is higher than the average some states receive. Then again, increased height decreases obstacles so increases this average. You'd really need to put a good Anemometer on your roof for a year to know for sure what to expect in your area. This would not only tell you your average wind speed, but also when the wind peaks which you'd need to calculate against your local net metering rules to determine if you need a system larger than your usage.
Assuming the listed averages are correct though, 6 of these units would produce an average of 9000 kwh a year at a cost of $32,700 - not including installation and shipping costs. This is actually fairly close to the price of a grid tied solar system. Maybe a bit more expensive, but certainly not 5 times the price unless you live in an area with very little wind.
The real problem is that unlike solar systems most areas require a permit to have wind installed. They are more likely to approve a small system that doesn't produce noise which is probably why units like this can be more expensive than what we used to see.
Regarding maintaince a solar panel needs to be maintained up to 4 times every year. They have to be cleaned because dust and leaves will reduce their ability to function. Heat also tends to damage them over time leading to gradually decreased returns. Interestingly, wind turbines need just as much maintainance. I guess the advantage here goes so solar though since you could technically just install a PVC pipe to the side of your house, run it to the roof, and have it spray over the panels to clean and cool them whenever you turn on a hose making the typical kind of maintainance in solar easier to plan for whereas wind turbines need to have the oil checked meaning you have to actually go up there onto your roof. So, not more maintainance, just more difficult maintainance.

@@Elliandr wrote, _"whereas wind turbines need to have the oil checked meaning you have to actually go up there onto your roof."_
You're talking about those massive 3-bladed industrial turbines, not the archimedes turbine in the video. Of the latter:
**Lifespan and warranty**
The standard warranty on the turbine is 2 years. At purchase you receive the warranty form. This should be filled in and handed to the producer (or agent / dealer, depending on where you get the warranty) to obtain standard warranty. Additionally, 18 years warranty can be purchased, bringing the total at 20 years. The wind turbine is expected to last 20 years, if properly maintained. You can obtain a maintenance contract / maintenance package at your agent. For more information please contact your agent, they can be found at the website.
Despite the design of the wind turbine LIAM F1, which is completely mechanic and contains only two moving parts, these parts will wear over time. The axis of the blade is mounted with two ball bearings, as well as the shaft which makes it possible to “look for the wind”. The wear depends on the number of turns that the parts make. The number of rotations depends on the wind speed. Location of placement is therefore important. Theoretically, the bearings can endure 250,000 to 300,000 operating hours. Assuming 8000 hours per year, the bearings can last approximately 30 years. However, we recommend, depending on the circumstances, to replace the bearings after 10 to 20 years.

I found that same WaPo article, and I tend to agree with you. If it was even moderately good, we should have seen more news and interest about them.

3:43

​@@rakeshchander1178
The time stamp doesn't give any performance numbers. I live in West Texas and I would love a wind turbine that could provide for my house. So, I would be happy if this was a great product. But, after nine years I don't see them and we have wind farms here, perfect area for any wind power product.

The video itself sounds like a marketing video.

The device is simple because of all the hard work done prior building this simplified product and its related costs. If there is a mass adoption by govt implementation then yes price would drop down due to multiple players and competition in market.

Can't wait for China to research and redesign this for sale at 300 dollars 😅

@@rakeshsinghprs Hard work? This is a shape we've known about for hundreds of years... Yes, engineering went into making this but not as much as you think.

@@Tletna if it was so simple it would have been made by many intelligent people and would have used it for thousands of years now. Its looks simple until it's been created. Homo sapiens existed for 2-3 hundred thousand years and wheel was invented only 3500 BCE back. Its easy to replicate this engineered device only after it's been created but to engineer to it's perfection is what the hard work is.

​@@rakeshsinghprshomo sapiens is somewhere 70 to 40 thousands of years, you are talking about homo sapiens sapiens which incudes Neanderthals and others

Thats a good question. Never thought about that. I live in the never ending sun zone.

Green energy advocates never ask hard questions based on less than flawless laboratory conditions. Where I live winters are fairly mild but marked by rain during the day that gets just cold enough at night to freeze thus stopping things like wind turbines and coating them in thin layers of ice. It’s a genius design, there is no one answer to the problem. I just wish here at home we were not plagued by delusional idiots. Cali residents have an inability to imagine a world beyond La.

@@mikewaterfield3599
To your point about green energy sources, it seems that they're most effective the closer to the equator that you get.
Where I live wind and hydro are probably the best sources of green energy, but wind is unreliable at certain times of the year. During the winter, there's plenty of wind; and it can make -25°C feel like -40°C when it's really howling. We get a fair amount of snow. Sometimes I even need to clear the snow from the roof to avoid it causing a collapse from all the weight.
No doubt, any wind turbine would need to be cleared of that much snow; and even freezing rain will bring everything to a halt. What I'm wondering is just how difficult it is to maintain these turbines in wintery conditions; and how robust are they?

@@MickPsyphon solar certainly is, here in the US wind farms would make a great deal of sense in the Midwest except for winter. Personally I would go for nuclear power plants exclusively operated by the USN. Everything is a trade off.

@@mikewaterfield3599
Nuclear is the most reliable. I live within walking distance of a nuclear power plant. There's also a nuclear power plant about a 30 minute drive East on the highway, from my house; and the largest nuclear power plant in the world is about 2 ½ hours drive North West of my place.
On top of all that, there are also numerous fossil fuel power plants all around my area. Despite all these sources of energy we still suffer from rolling brown-outs and power cutting out for less than a minute, every other week. We're constantly being told to conserve energy, while the bulk of the power generated in all these power plants is exported to New York State.
That's why I'm looking for a fairly reliable supplemental source of energy.

Correct, a location with wind speeds of 4 m/s is already considered a good location. Average speeds of 5 m/s are really rare.

the slowest avg wind speed in the US is 12.91 mph and it's in Delaware (no wonder Joe is slow)....

@@arnauddechamps855 Where did you find this? To my knowledge it is not and wind speeds are usually measured 30 meters above ground. So unless you put the turbine on that height on an open field the wind speed will be lower.

or 18km/h.

ya meanwhile in Ontario Canada last winter we went 35 days with no meaningful sunshine so pretty much useless in this part of the world for several months

In Tacoma WA we have roughly 5 straight months of clouds and rain each year. Solar would be fine in the summer but useless during the fall and winter.

@@BeyondPC yes I agree with you but fortunately we are blessed with a lot more sunny weather even in winter so solar is ok but it’s still not the bees knees so to speak , I get paid 12cents a kWh for what I don’t use which goes into the grid so my credit was $150 plus I get $28 credit from the gov each month so a small credit after my bill is payed which was $140 but on days when there’s no sun we have to turn on the auxiliary power for hot water which pushes your power bill up. 👍

@@kirkyorg7654 we are blessed with more sun here that’s for sure but there are times that we do get dull weather but to summarise the weather here it’s beautiful one day and perfect the one after😏👍

@@UbuteyAustralia lol ya makes me wonder what my dad was thinking when he was deciding to immigrate from the UK way back when, that between Australia and the frozen north Canada he chose the frozen north lol i blame my stepmothers family because they all went to Canada so we followed suit i have a feeling sun sand & surf would have been more my speed as even after 50+ years i still hate Canadian winters and the lack of an ocean in the middle of the country lol oh well that's life as they say lol

The video mentioned 10-years to pay for itself.

@@RichardHarlosYeah, that is wrong. They can say what ever they want.

Except in places like Cali where the energy companies tax/charge you to death on it.

Looking at the output figures of the smaller generator, you aren't going to share anything with the grid, you will need a wind speed of 10m/s just to keep the lights on!

The deal with the power companies vary wildly. Effectively the power company doesn't walk to take on being a battery and having power when they don't need it either. Not saying the new deal in California is fair but neither is simple net metering.

The North Sea is definitely a windy location, but I think it is highly unlikely that you can achieve such wind speeds. The usual rule of thumb is 4 m/s for a good location, 5 m/s for a very good location, and 6 m/s for an extraordinary location. If you really thin about it, you should put up a mast and do measurement for at least 1 year.

This is the answer.

When you connect any alt power to a public grid for payback know that the local power Co credits you way less per KWH than what they sell back to you. LADWP (Los Angeles) for example credits about 2 cents per KWH for a grid tie system ( that folks pay up to $35/$40 grand) and sells back to you for full price whatever that is in your area (.12 to .20/KWH?)

5 metres per second is 11.2 miles per hour or 18 kilometres per hour. That's a pretty stiff breeze That we don't get very often even here on the coast of Nova Scotia.

What's also important here is understanding and thinking well. This isn't being presented as a universal solution. Where solar makes sense, use solar. Where solar is spotty but there's some wind, use both. Where it's cloudy most of the time but wind is present, this makes sense.
The video said the turbine operates on *_as little as_* 5m/s, not that it requires an *_average_* of that velocity. And again, it's being presented as the one universal device that everyone, everywhere, at all times, should use exclusively.
So, yes, to the video, eyeballs are important. But to the intelligent, they're understood as being important to every video on CZcams, not only this one. So, when you mention something universal as if it's particular, you're either being dishonest, or you simply don't understand why what you've said is 'a difference that makes no difference'.
Thinking well is a *_skill._* As such, it can be learned about, practiced, and improved. 10/10 do recommend you look into this option.

30m is a tad high, anything above 80ft in the US needs a red blinky-light.

Yep, the next small form factor rooftop mounted scam. Solar is king. Prices are now few times lower than coal per watt installed capacity. On top of that solar panels are almost maintenance free and expected to last at least 25 years without significant degradation in efficiency and very possibly more than twice that. Wind has it's place but only the big commercial wind projects when installed in places that see constant winds in excess of 10m/s. These rooftop mounted flimsy turbines are nothing but a scam luring not very technically savvy people into spending their hard earned cash. I'll be surprised if any of these toys actually last more than an year when exposed to the elements. Do not buy!

Solar is only useful if you live somewhere with enough W/m2 of light to make them worth the cost (both money and CO2).

A diverse portfolio of energy generation would be better. How does solar do at night? Or during the winter?

solar suits battery storage as it can be made to deliver constant voltages, and the supply is fairly consistent. shade variations only.
wind... has this strange thing about its variability, power going up on the cube...
100% correct. cant beat the frontal area of a turbine. any attempt to duct it, increase the area, simply stagnates the air and reduces efficiency... people like to think "ram air" and "venturis" work like this, fail to understand that they are closed systems... the air in an open system such as the wind, it simply skips AROUND the obstruction rather than speed up THROUGH it... its the same as pressure in a column of water... a funnel in the wind, the pressure at the smaller end is no higher than the column of air over it, the velocity no higher than the wind speed itself. there is no "venturi effect" unless all the air at the larger diameter is confined to only flow in the cone... and you cant do that out in the open air.
cant beat betz, cant beat physics. adding extra surface like this just increases friction and reduces efficiency again. lucky to get 30% from even an optimised blade. good luck finding 59%... with the surface to frontal area this has, expect at best.... 0.59%!
but what can be done is alter the way you extract the energy from the wind.
batteries are stupid. generators are stupid. you cant match the load to the generator. its... complicated. if you compare a generator to the demonstration of lenz law, a magnet being dropped in a copper pipe, and start thinking about resistances if you were to cut a slit in that pipe... take that line of thought, do some maths with ohms, and suddenly it might make sense... wheres the heat, whats a load? wheres the work being done?
what we should be doing instead?
you just slam brakes on. make heat. proportional to the power in the wind and the turbine efficiency. wind speed increases, just apply more brake, more load, more heat... heat... heat... you dont need to use friction brakes, either. how did joule perform his initial experiments? the calorimeter? all you need is a load that can be applied and will still be capable of overpowering the turbine regardless of how high the windpseed is. and somewhere to DUMP the heat. STORE the heat.
we keep throwing HEAT SINKS on everything and BLOW THE HEAT AWAY. we call the heat the LOSS when the heat runs EVERYTHING.
what does heat do?
can cook on heat. heat water. dry clothes. AC works by heating a fluid to cool a fluid... a lightbulb is just a heater driven to luminescence. electricity is convenient, thats all. we have grown accustomed to it. it doesnt mean its the best way to do things, its just easier... in most cases. in just about all cases i think of using electricity... its just heat. motors and a few other things here and there being minor exceptions.
storing it as electricity? its stupid.
nukes and coal plants run on heat. steam.
the bigger the tank, the lower the losses through the walls... lot of energy in water. even more as it changes phase...

@@Trenchfoot1 : I don't have hands-on experience, but I think you have nailed it. Also, storage is key; save the surplus from ALL sources to use when needed. In some cases, the grid also has a part to play by making your surplus available elsewhere, and vice versa... but they are there to make money, they ain't a charity!
There are also some lovely small-scale hydro setups, but they obviously only work for a small number of people.

Those or some big pine cones!

Short term wind gusts are less relevant. Many hours of Steady 25 mph is needed. Few people actually have that, at their roof

These are "wind turbines" and would be allowed for the same reason.

1kw and they claim it can produce 4X the power of solar panel, all you need is 2.5 panels, of course it does not procude anything at night (so put 5 panels), but wind does not blow all the time either (except in some places and I would not want to live there).

They are depending on people not doing the math. If you divide the total kwh by the year in hours you get an output of 171 watts at the average wind speed. So with the average modern house using 1000 watts ( also on average ) it would take 6 of these to power one house. Also need storage to handle peak loads and calm winds, a microwave oven alone would take the full output from 6 and add a toaster and you are drawing from batteries.

Exactly - leave wind turbines up to the professionals who can put them in sensible locations (off-shore) and make them big enough (20mW +) to make them worth-while.

We should complement solar with wind, not replace it as it will help to charge the battery during evenings and thus helping you in keeping smaller battery.

@@Wisul I believe wind has a great role in the future of green energy. These particular wind turbines are way too expensive for the amount of energy they can produce, and they should be able to operate at near gale force. Japan has a design that is designed to work in near typhoon speed winds.
Another problem for these turbines is that they are not efficient at low wind speeds, which in most areas, is most of the time.

agreed as every generation of new computer parts take more power to run so it is at the point where my relatively average computer not a huge gaming rig by any means puts out as much heat as my 750 watt micro heater can just imagine how much is generated by a high end rig

We have; cars get much better gas mileage than they did in the 60s-90s, lights use much less power and are just as bright(last longer too), kitchen and home appliances are far more energy efficient. In fact you'd be hard pressed to find things that havent gotten more energy efficient in the home or businesses that are in heavy use by most people(of course we are talking about 1st world).
(as per Kirkyorg7654)Computers are one of the few things most people have that are going in the opposite direction, but that should change over time. Eventually a computer will be powerful enough that constant upgrading wont be necessary and then they can start making them more efficient..like the difference between a Car from the 1920s and a car from the 2020s.

Stop talking facts, ok?
Joking aside the moment I heard the guy with the douche voice, I knew straight away it was gonna be a bs clickbait video.

"would be so much easier to install over solar panels."
It would probably be better to install it adjacent to solar panels rather than over solar panels.

Installing solar panels is incredibly easy. Go for solar, it is easier to install, cheaper and will produce 10 times as much energy.

@@janos5555 "Go for solar, it is easier to install, cheaper and will produce 10 times as much energy."
Unless you live in the specific northwest where sunshine is a rare event.

@@thomasmaughan4798 Yeah, and this accounts for maybe 2% of the global population. I live 53° North and still get over 1000kWh/kWp out of my solar panels.

@@janos5555 "I live 53° North and still get over 1000kWh/kWp out of my solar panels."
I would be more impressed if you revealed the size of your solar panel array and whether that megawatt-hour is daily or annually or whatever. That far north you'll have a LOT of summer daylight (and very little winter daylight) but you'd need trackers since the sunlight is going to sweep nearly 270 degrees horizon to horizon each summer day.

lol

No, the rated power is at 12 m/s wind speed

When the s**t hits the fan!

It's all on their website.

Of course you can (and you far wouldnt be first with such system). Problem of these wind turbines is incoherent power output, as it can change from maximum to almost none in single minute, or even shorter time. Its problem for fotovoltaic too, but in branch of wind turbines, its a much bigger issue as intensity of wind is more random and changing more rapidly than sunshine. In other words, if you want wind turbine with more serious power output, you will have to somehow store energy harvested, because management of power grid will not allow you to let into grid those random peaks and voids of electricity. So with wind turbine since certain power otuput, you will need also own battery storage, which depend on batteries type cost quite a lot money (at least as much as turbine itself, but probably more), or clutch off turbine generator from turbine itself = you will not produce electricity quite often to cut off those power surges = your investition will not produce value quite often. There are also other approaches to solving of this problem. Some people store energy in form of small pump water dams (when they harvesting more electricity than its their actuall consumption, their system automatically start water pump which pumping water into higher water reservoir and once they need more energy than their micropowerplant producing, they start small water generator feed from water from that reservoir to produce more electricity). But again for such solution you need space for water reservoir, mechanization (water pump/water turbine, electric generator etc.), quite a lot of electronics and money = more investitions. Other approach is to store energy of that unstable power source as wind turbine in some flywheel, in form of kinetic energy, but its too complicated and expensive for ordinary people, same as that water dam before. Unfortunately, there are reasons why wind turbines arent so widespread as renewable energy source between people as fotovoltaic and this is it. It start to be economicaly reasonable only in much bigger dimensions (wind power parks etc.). I personaly think, it would be much better to adjust this type of turbine for water and developed some mini generator for small creeks. Such streams have also iregularities in their flow, but incomparable smaller than wind flows, so that need of complex and expensive solution of storaging of energy would fall off.

Thank you for sharing your thoughts on the Segway Portable PowerStation Cube Series! I completely agree with you, it does sound like a fantastic solution for outdoor enthusiasts like us. The massive capacity, fast recharging, and waterproof technology make it perfect for camping trips. Plus, the smart app control feature seems really convenient. It's great to have a reliable and versatile power source when enjoying the outdoors. Thanks for the recommendation!

It appears you have an extraordinarily high electricity usage. Contrast your 2,500 kWh per months with this information:
~-~-~
We use the US government’s EIA aggregate electricity reports for June 2023 to calculate the annual, monthly and daily figures. These figures are the latest as of Aug 2023.
* Average household electricity consumption per year is 10,244 kWh (kilowatt hours).
* Average electricity consumption per month is 854 kWh.
* Average electricity consumption per day is 28 kWh.
These numbers are for a U.S. residential utility customer, which basically means a household or apartment unit.
~-~-~
I'm curious to know what's behind your 3x electricity requirements?
From the Archimedes website, their 1.5 meter diameter turbine has a rated power of 700 Wh and a maximum of 1 Kwh.
Theoretically, 700 watts per hour x 24-hours is 16,800, or 16.8 k, watts per day. This means that two turbines at 700 Wh would be sufficient for the average residential home to go off-grid. If they already have solar, 1 turbine would make a fine adjunct to their existing renewable power scheme. But, even if they didn't want to go completely off-grid, a single turbine would supply 70% of their average electricity needs, making their bill 30% of it's current cost. I wonder what that amounts to in savings, and how those savings contribute to the amount of time needed for the turbine to pay for itself?
By extension (and to be clear, this is just me being a nerd who enjoys figuring out details), your requirements would be 3x the 2-turbine model, or 6 turbines to supply your entire monthly usage. Still a cost, but half of what you'd figured.

So just add battery backup and keep it all yourself. My entire system (halfway installed now) cost me about $12k. 5.4kWh solar, 20kWh 48v battery, and it will do my whole house, including air conditioning 5 months of the year with up to 3 digit temps.