I have an idea for instant torque: You would still have a pump pushing air through but you could also try connecting the exhaust holes to a vacuum chamber. By building up a ton of pressure (and the opposite on the other end) and simultaneously opening the valves of the pump and vacuum chamber, the turbine might be able to deliver instant torque with ideal materials. Then, you could open a second valve on the vacuum chamber or sever the connection to the vacuum chamber to allow for the air to exhaust freely after the vacuum has diminished. I know this would put a lot of stress on the materials but I think it would be cool to try something like this.
I remember doing it by hand, was essential to learning with the software in my opinion. If you ever want to start, use desighn spark mechanical to learn. It was way easier for me to learn on that, it's really easy to catch on. Other programs seemed impossible to learn on.
Hi, great work I have thought of something like this, but what I thought would make it run down to lower pressures would be to somehow hold the blades a bit out from center and allow steam out of the blades in true center where velocity is zero. Or allowing steam to run through most of the blades to center, then from center of remaining blades to exhaust to outside so these blades would act like a pump to move condensed steam back into heat source whilst maintaining a vacuum behind turbine.
Incredible!!! It really looks like the original thing!!! Better! Tesla Boundary Layer Turbine version X.ienergy 🙂 pronounced "Zee energy" 🤣 Hey..how big are the Runners???
@@iEnergySupply i recently heard that the efficiency goes way up when you supersize them, as in like 2 meters. U think carbon fiber could do that these days?
So in my design, the shaft extends to a generator and to a cetrifugal compressor. It also uses 3 tesla turbine configurations. One in the middle for the push, and one on each side doing the pull. Essentially the air goes from a full tank of air, through the middle turbine and out the sides, but on each side is a sealed turbine working as a pump. The air is taken from each pump and sucked through a cetrifugal compressor and putting the air into an empty tank for reuse. So not only is the force from the air spinning the shaft, but once the shaft spins it will create a vaccum at the pumps doing the pull. It needs to be manually started, but once it starts it just uses the same air back an forth to produce power. Obviously theres a series of valves and switches involved but thats for the private conversation 😅.
O yeah, I get what your saying, we actually have testing on the subject. what we are doing now is separating the stages to operate on different shafts. Here is a video of it. ruclips.net/video/TaReAg5E7Dw/видео.html
lmao, I just commented a similar idea I had before reading this. It sounds like you have a better idea of how this would work. I think it would be really cool to see this idea in action.
The real electrical power generator would be made by a spinning axial compressor forcing compressed air into a tesla turbine. The tesla turbine would be a nuclear reactor that due to the boundary layer would both heat and expel the air. Then a turbine would extract energy and power the axial compressor, then a power shaft similar to turboshaft engnies would convert the remaining energy to electricity. The air compressor would be water injected so that water becomes steam before it enters the tesla turbine reactor. The air after it makes electricity passes through a water reservoir to be cooled, cleaned and then re-enters the cycle.
I have an idea for instant torque:
You would still have a pump pushing air through but you could also try connecting the exhaust holes to a vacuum chamber. By building up a ton of pressure (and the opposite on the other end) and simultaneously opening the valves of the pump and vacuum chamber, the turbine might be able to deliver instant torque with ideal materials. Then, you could open a second valve on the vacuum chamber or sever the connection to the vacuum chamber to allow for the air to exhaust freely after the vacuum has diminished.
I know this would put a lot of stress on the materials but I think it would be cool to try something like this.
You got it! That's what we are up to!
Cant wait. I dont have cad software skills. All my blueprints and drawings are done by hand. 🤷🏻♂️
I remember doing it by hand, was essential to learning with the software in my opinion. If you ever want to start, use desighn spark mechanical to learn. It was way easier for me to learn on that, it's really easy to catch on. Other programs seemed impossible to learn on.
Hi, great work
I have thought of something like this, but what I thought would make it run down to lower pressures would be to somehow hold the blades a bit out from center and allow steam out of the blades in true center where velocity is zero.
Or allowing steam to run through most of the blades to center, then from center of remaining blades to exhaust to outside so these blades would act like a pump to move condensed steam back into heat source whilst maintaining a vacuum behind turbine.
Great suggestion!
Duhhhh on me🤣 I just read description- it iz the original !!!🙂
yep
Incredible!!! It really looks like the original thing!!! Better! Tesla Boundary Layer Turbine
version X.ienergy 🙂 pronounced "Zee energy" 🤣
Hey..how big are the Runners???
tesla built this turbine with 18 inch blades
@@iEnergySupply i recently heard that the efficiency goes way up when you supersize them, as in like 2 meters. U think carbon fiber could do that these days?
So in my design, the shaft extends to a generator and to a cetrifugal compressor. It also uses 3 tesla turbine configurations. One in the middle for the push, and one on each side doing the pull. Essentially the air goes from a full tank of air, through the middle turbine and out the sides, but on each side is a sealed turbine working as a pump. The air is taken from each pump and sucked through a cetrifugal compressor and putting the air into an empty tank for reuse. So not only is the force from the air spinning the shaft, but once the shaft spins it will create a vaccum at the pumps doing the pull. It needs to be manually started, but once it starts it just uses the same air back an forth to produce power. Obviously theres a series of valves and switches involved but thats for the private conversation 😅.
O yeah, I get what your saying, we actually have testing on the subject. what we are doing now is separating the stages to operate on different shafts. Here is a video of it. ruclips.net/video/TaReAg5E7Dw/видео.html
lmao, I just commented a similar idea I had before reading this. It sounds like you have a better idea of how this would work. I think it would be really cool to see this idea in action.
The real electrical power generator would be made by a spinning axial compressor forcing compressed air into a tesla turbine. The tesla turbine would be a nuclear reactor that due to the boundary layer would both heat and expel the air. Then a turbine would extract energy and power the axial compressor, then a power shaft similar to turboshaft engnies would convert the remaining energy to electricity. The air compressor would be water injected so that water becomes steam before it enters the tesla turbine reactor. The air after it makes electricity passes through a water reservoir to be cooled, cleaned and then re-enters the cycle.
We will see, I'm testing everything.
could you share the file? i shared the idea of the magnetic bearings...its fair hehehhe
I appreciate you sharing the videos. If you were to join the patreon, we have some lower level tiers that will eventually get the cad drawings.
@@iEnergySupply Shure i will, thank you
Are there actually holes in the blades?
absolutely.
How can i obtain the cad drawings?