Are you thinking
Here is the quote you want. Post 167.
This example literally says that by Boyle's law, lower displacement raises Pbdc which can make same power as a higher displacement with lower Pbdc-- if everything else is the same.
So if I increase Pbdc, by reducing displacement, I get more power. This is justified by Boyle's law. So if I keep reducing displacement, I keep getting more power.
I'm not walking through this absurdity again.
This is why I'm mocking you.
You have beclowned yourself.
I'm seeing if I can model a cylinder in a program that is 0.25" to see what kind of insane power I get.
Ahhh, lets look at post #167 then, and dive right into how you are misinterpreting/ twisting 9th grade level math , trying your hardest to make it say something that it doesn't, shall we.
Look at the second line of that post (post 167) ,,what does it say,,, it says "
For a given set amount of air ,,,, say that amount of air needed to perfectly burn a given amount of fuel at stoichiometric ratio, if you put that amount of air in a smaller engine then;"
Maybe you missed the "
given amount of air " part because it wasn't conducive to your crazy, or because of your reading comprehension issue.
The quote of mine from post 167 above is 100% true, and it always will be. Not sure why you're having hard time with this.
Remember, we were discussing the topic of two different engines (a 5.3 and a 6.2) both operating at the
same power level during part throttle cruising. So that amount of air that is trapped, is the amount of air needed to burn a specified amount of fuel at stochiometric ratio.
This is the air trapped in the cylinder before compression (which is also before combustion, and I think you're confusing pressure at bottom dead center with combustion pressure).
If you take this set amount of air and stuff put it in a smaller cylinder, pressure will in fact go up. But what does that do to power, lets see (again using your own equations).
Oh that's right, nothing, because its the same amount of air that was needed to burn that given amount of fuel.
Its almost like I've mentioned that power comes from fuel before, and the power you make is depended only on the engines efficiencies and the amount of fuel it can burn,,,oh wait, that because i have said that before, even used your own equations to show that, but lets show those equations again because apparently you forgot.
and just in case you also forgot what all the non-boxed terms that aren't in both the fuel flowrate and power equations are then here you go,,, its efficiencies and fuel heating term.
So no where did i say that changing displacements changes power (in either direction, up or down), I've always said what is true, and that power is dependent on the engines efficiencies and how much fuel it can burn.
And to burn a given amount of fuel, which would equate to a given amount of power, you need a given amount of air, and if you change the cylinder volume that amount of air is in, then the pressure will most definitely change, but since its the same mas of air, just at a different pressure, it'll still burn the same amount of fuel/ make the same power.
If you want to make more power, the you need to trap more air (so you can burn more fuel).
So if you would like to jump subjects from two engine of different displacements that are making the same power at part throttle cruising (which has been the topic we were discussing) to the topic of full/ max power race stuff,,,I'm good with it. I've been a hot roder for decades, making more power is the fun part, one just has to understand the basics (which you are struggling with) in order to get that fun part.
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