Great analysis! Funny thing, they admit the light will be spread out over a huge area, but for some reason claim the intensity over that area would be useful for power generation.
Wow in the live stream you kinda got stressed and didn't get my point 😂, well sorry for that let me explain if you have time to reply the pls do so Batteries and fly wheel they are not connected in series the are connected in parallel to a step up transformer which is then connected to let's say a 133kv sub station alright Both batteries and fly wheel both are connected to the same transfer transformers. Now batteries are not there to provide the frequency level stabilization (they can if you want but let's forget that part) Batteries connected to the inverter which increases the power output when it detects the fly wheel slowing down it's not sending the power to the flywheel it's just sending the power to the grid (it can detect in microseconds) the fly wheel provides the reference frequency instead of the grid And how do you maintain the flywheel frequency? You may ask. once up and running it will consume very little power to keep itself at a steady state rpm as we only need a relatively light weight flywheel And reason you can get away with a tiny fly wheel compared to a 100+ton TURBINE because inverters are just that fast to produce power on demand restoring the supply and demand equilibrium the flywheel is only there to provide the reference frequency that's it , with which the inverters create SVPWM signal Now is there anything that you feel like might not make this work? Our reference cost is that of a peaker plant (1GW)
![เปิด อาณาจักร หมื่นล้าน "สาระตั้ม" l [Nickynachat]](http://i.ytimg.com/vi/3XE0nPF4YkQ/mqdefault.jpg)
Great analysis! Funny thing, they admit the light will be spread out over a huge area, but for some reason claim the intensity over that area would be useful for power generation.
Yes, exactly
Finally 😂 u understood 😂😂
👍
Wow in the live stream you kinda got stressed and didn't get my point 😂, well sorry for that let me explain if you have time to reply the pls do so
Batteries and fly wheel they are not connected in series the are connected in parallel to a step up transformer which is then connected to let's say a 133kv sub station alright
Both batteries and fly wheel both are connected to the same transfer transformers.
Now batteries are not there to provide the frequency level stabilization (they can if you want but let's forget that part)
Batteries connected to the inverter which increases the power output when it detects the fly wheel slowing down it's not sending the power to the flywheel it's just sending the power to the grid (it can detect in microseconds) the fly wheel provides the reference frequency instead of the grid
And how do you maintain the flywheel frequency? You may ask. once up and running it will consume very little power to keep itself at a steady state rpm as we only need a relatively light weight flywheel
And reason you can get away with a tiny fly wheel compared to a 100+ton TURBINE because inverters are just that fast to produce power on demand restoring the supply and demand equilibrium the flywheel is only there to provide the reference frequency that's it , with which the inverters create SVPWM signal
Now is there anything that you feel like might not make this work?
Our reference cost is that of a peaker plant (1GW)
👍
You should have talked about why these kids today have the brain damage. Hint: phones and internet.
its not the source