I guess my suggestions that a magnetic interaction generates the force has hit infertile ground. An example of such a device is an electric motor. The efficiency of these is pretty good and would not need to exhaust much heat energy.
I do not think there is any type of gas heating cycle available that does better than the Carnot cycle in conversion from heat to mechanical energy. There would be absolutely no way to hide this fact with a running motor with load. The exhaust heat would be obvious. We should concentrate upon a mechanism that is efficient instead of the old systems that we are familiar with. I have a feeling that there is some form of transformer action taking place within the cylinder that generates a large time changing current on each drive pulse. This current then induces an opposing current within the piston to produce force in a manner similar to an electric motor. The high voltage is a technique that both induces the current flow, which is directed by the axial magnetic field and radial electric field, and also teases the gas mixture to generate LENR effects that enhance the process. Dave -----Original Message----- From: Eric Walker <[email protected]> To: vortex-l <[email protected]> Sent: Sun, Aug 12, 2012 7:13 pm Subject: Re: [Vo]:the Coil Le Aug 12, 2012 à 4:08 PM, Alan Fletcher <[email protected]> a écrit : >> For the Papp engine, R and n are constant >> > So as a variable > > PV = T > But T = t(spark) + t(LENR) > So PV = Ts + Tl >> >> If P (one bar) is held constant then V varies directly with entropy. > > We also know that when the cylinder moves we go from V0 to V1 > We don't know if the pressure stays constant. We also don't know if n stays constant. Eric
