:)

lol - cheers mate

He’s teaching you how to do it dummy!

Doubling the turbine rotor as a generator rotor is such an elegant design. Nice.

@@wildekek thank you

nice mate

wow cheers mate

The greatest lie in science today is that all the big discoveries have already been made; that the big breakthroughs require massive teams and millions in funding. There are so many paths that are only unexplored because we've convinced ourselves there's nothing to be found.

cheers mate

lol - cheers mate

Others claim to break Betz, the claims may not stack up, though one shouldn't diss them for the claim... (usually it is the logic of how to measure which gets broken / altered without due regard). Who we are not worthy of are all the great minds (not all academics and some may even be functionally illiterate) and tinkerers (again not all illiterate and not afew may even be academics - there is practicality all around us ); we never hear about most. KZbin selects some - few- to become superheros of sorts. Graham Flowers down in the comments - taking umbrage yesterday - claims to break Betz too - he too may be as mad as a bag of kittens, lol, we only know if we test it out (with measurements) PC Fans are a very easy way to test at scale, sadly not everything scales well (Reynolds numbers and vicidity) though with 3d printers,pla and "tinkercad" (or OnShape) readily available we all get to play if we like to.

@@ThinkingandTinkering Thank you for sharing this information with us! There is oh so much information about how we can do things that will help us improve our lives but the best of this information is hidden away from the public so we are chained to the power meter so the rich can keep getting richer off our hard work! If we could use the wind and the solar energy to power our homes. Then we would be able to break the ⛓️ chains and get another hand from pulling out parts our hard earned $$$! Here in the United States the energy costs have more than doubled in the last few years!

Build a donutspere around the cone. With the top hole facing to the sky

@@grahamflowers - thankyou Graham, I appreciate your humor. and good wishes. - At first glance is did appear as if you had Ill feelings towards Mr Betz... (affecting an air of annoyance can be termed "umbrage" - even merely casting shade... - all good..) (No harm in people seeing your creations for themselves, let people see your creations for themselves, it all helps the algorithm (though you can post the links directly into comments - they may not get moderated out as you are not marketing a competing product.)

nice

or you could try - i can think of criticism to what you are arguing - one being as it exits the blower it has more energy than the energy it would have when it hits the turbine - number 3 - i did that!

My thinking too. The assumptions for the Betz don't allow for the air to exit to the side after passing through the actuator.

Likely because the surface area of the turbine is greater than the surface area of the rotor blades. The difference a multiplication of the effective wind velocity far greater than the actual wind speed, due to compression.

I figured the wind exiting a conventional turbine is slower but in the same direction, in this case the wind direction changes from forward to lateral. But maybe I'm just repeating these ideas in a different way haha

@@samuellantela7248 No, that's an interesting idea as well. If Betz limit is based on wind speed vs propeller speed then it would make sense that changing the direction would allow you to reduce wind speed to zero, capturing closer to 100% of the kinetic energy in it.

Exactly my thoughts.

cheers mate

Would need a model for small-scale turbines, or a turbine/blade design of known performance given known size and construction, but yes that'd give a method to calibrate the flywheel measurement system

cheers mate

It has to. It looks like the calculator he used is assuming an even distribution of mass. His flywheel is going to have way more energy than that with all the mass at the edges.

@@jefffriedman6942 Correct

@@jefffriedman6942 His flywheel will have less actually. Moment of inertia increases as you move the weight distribution towards the circumference.

@@whatelseison8970 ... @2:42 shows the formula. If moment of inertia increases, the energy increases. This is just common sense broheim. Consider two spinning figure skaters with the same energy, one with their arms out and the other in, the one with their arms out is going to be spinning slower. IE his wheel doesn't have to spin as fast to have the same energy as a wheel that had equal weight distribution.

it does - i chose the worst possible case

i don't know - try it and let me know

Put some storage medium near the top of the spout and capture the maximum amount.

Air water go hand in 👌 hand

Stack them decrease exit hole force water in center of next rotor,one goes out disconnect one put in straight pipe tell one broken is fixed

@Michael Hansen Hi Michael, Some simple energy maths may help you decide if roof water really makes sense. First some assumptions: I’m basing this on an annual rainfall of 2.4m which is at the extreme upper limit for rainfall, pretty much anywhere in Europe or North America: secondly, I’m assuming a two storey house of 250m² (2,600ft²) with a roof of 125m² and a vertical drop from gutter to turbine of 5m. Now the maths. The total volume of water falling on the roof in a year is 125 x 2.4 = 300m³ = 300,000 litres with a mass of 300,000kg. This water has a total gravitational potential energy [E=m.g.h] equal to its mass 300,000 x g (~10) x 5, the vertical head. E = ~15,000,000 J. At 100% efficiency that amounts to about 4.2 kW.h (units) of electricity per year! Where I live that’s about a dollar fifty from the grid. For reasons, which I’ll go into in another post if you want me to, I am very doubtful if you could convert even 30% of that to electrical power, but even if you did and you got 5,000,000 J out, that works out to a continuous power supply of about 0.158 Watts (158 milliWatts). And to do that you’ve got to make a system that can extract efficient levels of energy from both a light rain and a downpour. We can go into the difficulty of that, too, if you want to. Remember, too, the rainfall I used was about as wet as it gets unless you live in a famously wet place. It’s my opinion that roof water is really not worth pursuing as an energy source. A 200W solar panel puts out 5,040,000J in just 7 hours of sunshine, and you could fit 50 - 60 of them on that same roof.

interesting mate thank you for the ideas

yes it will

good point mate - thank you for mentioning it

go for it

cheers

Wouldn't that increase the mass, making even more stored energy, making the efficiency number higher? The rotational speed is already fixed by measurement.

@@threeMetreJim Rotational Moment of inertia already figures the mass into the unit. I=integral sum of mr².Mass times the square of its radius from the center of rotation.

@@Vibe77Guy So two flywheels on the same shaft don't add up? E1+E2 != Etotal? Hard to believe.

@@threeMetreJim What's hard to believe is that you reached that conclusion.

@@Vibe77Guy I'm dumb, walk me through the correct way.

yes - the error i made were in favour of the betz limit

my bad - i linked tot he right video at the end of this video

cheers mate

corrected mate

?

I've thought the same thing. Sadly I think I will have to buy a 3d printer, because he does generously offer the files to print our own.

It's totally possible to get a reasonable 3d printer for under $200 (USD) now. If you tinker with this kind of thing a lot, it's well worth it, and with free files and inexpensive filament, you'll probably break even on costs buying kits of this sort of thing within 3 or 4 prints of moderate complexity.

A 3D printer is helpful but not essential.With some ingenuity and time you can create most things.

You could just get a printer Elizabeth - i do give the prints files away

@@ThinkingandTinkering I can't afford one. I don't have a decent computer, and live in an RV so no space.

it's not flat

@@ThinkingandTinkering good! I shoulda had faith haha.

there are loads of them mate - just copy one if you want one

that also means more resistance, so I assume it should be kept at small as possible (but not any smaller)

build one

​​​@@ThinkingandTinkering Thanks. Another idea to do Betz limit research is to affix hawt blades on the front of it.

​​@@alexd7466 I'm dot sure, maybe a 30 to 45 degree, curved cone, but it's height needs experimentation. Could be a flop anyway, but the data would be of value.

build one

do it

Hmm , I know of some clothes washing machines with that design

He's planning on using it in a Darwin turbine so it will be installed vertical

go for it

@@ThinkingandTinkering It's on my projects notebook since a while, but your blade/turbine design looks very promising to give a try with it

build one and do it

nope - just the area of the circle as that is the column of air hitting it and so the source of the kinetic energy

@@ThinkingandTinkering ok. I'm guessing the total area on the vertical blades is probably small, so it shouldn't muck up the calculation :)