These things really are toys...
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Re: These things really are toys...
Yes, runaway from an "ideal" viewpoint. However, from a real viewpoint, as mass increases, so does leak potential and need for more heat input (per time). My basic premise is that any increase in charge mass (initial or during operation) will tend to increase engine pressure resulting in more output per cycle (rpm) AND more rpm. This reminds me of the SE throttling scheme where an external charge tank varies charge pressure to cold space vs old world throttling via source input. This idea was late in SE development, overlooked for decades. A later variable charge pressure scheme was simply a moveable "wall" similar some early submarines.
Re: These things really are toys...
Wouldn't some of the difference between observed and theoretical volume be due to the inertial masses of the pistons/rods and angular momentum change of the flywheel? Two of these are getting accelerated from a standstill at TDC at 2500rpm. The third has significant mass. Those will apply a force against the gas volume. On the upside, the increased pressure will cause a temperature rise (or more likely a reduced temperature drop) as the motion towards TDC of the power piston increases the internal volume of the engine.
The alcohol flame is hot, but the key issue is how long the flame gets to transfer energy through the hot end wall over what size of surface area relative to swept volume. This is why Shane Pomeroy is getting peak power around 350rpm with is Mk3 and Mk4 engines - more time to get the working fluid hot. The toytown aspect of small model engines is the relatively slow heat transfer rate of borosilicate glass and its smooth surface. OK with tiny volumes but to run a bike you need more cubes for useful power, so Andy Ross went to the trouble and expense of making slotted surfaces to increase surface area.
Re: These things really are toys...
Apologies for the typo:
"as the motion towards TDC of the power piston increases the internal volume of the engine."
Should be BDC of course.
"as the motion towards TDC of the power piston increases the internal volume of the engine."
Should be BDC of course.
Re: These things really are toys...
All of the expansion testing I do is with a free piston at near static conditions. So there is essentially no effect from any forces other than buffer pressure.Wouldn't some of the difference between observed and theoretical volume be due to the inertial masses of the pistons/rods and angular momentum change of the flywheel? Two of these are getting accelerated from a standstill at TDC at 2500rpm. The third has significant mass. Those will apply a force against the gas volume. On the upside, the increased pressure will cause a temperature rise (or more likely a reduced temperature drop) as the motion towards TDC of the power piston increases the internal volume of the engine.
In the small high temp models it seems that heat goes in more than fast enough. It's getting the heat out that becomes the real bottleneck.The alcohol flame is hot, but the key issue is how long the flame gets to transfer energy through the hot end wall over what size of surface area relative to swept volume. This is why Shane Pomeroy is getting peak power around 350rpm with is Mk3 and Mk4 engines - more time to get the working fluid hot. The toytown aspect of small model engines is the relatively slow heat transfer rate of borosilicate glass and its smooth surface. OK with tiny volumes but to run a bike you need more cubes for useful power, so Andy Ross went to the trouble and expense of making slotted surfaces to increase surface area.
Re: These things really are toys...
Even free pistons have mass that has to be accelerated against their inertia. That increases pressure, and pressure compresses the working fluid. How much does your piston weigh? We could do a simple calc (ignoring small adiabatic effects).
Agree. It's when you try to scale up the toy size the problems start, because area only increases by the square as volume increases by the cube.
Re: These things really are toys...
I agree. But my epoxy engine is nearly reaching ideal gas law expansion and is fighting a vertical piston while doing so.Even free pistons have mass that has to be accelerated against their inertia. That increases pressure, and pressure compresses the working fluid. How much does your piston weigh? We could do a simple calc (ignoring small adiabatic effects).
The small model that was the subject of this thread is nowhere near ideal and yet the piston is laying horizontally.