| 摘要 |
<p>The elimination of noxious gases is effected by additive exchange processes on elementary particles and electric charges of exhaust gas particles in a treatment process controlled by microprocessors, by the phasing of converted motor explosion waves + extra-subjectively produced ultrasonic waves + induced electrodynamic alternating fields in exhaust states with the effect of collision ionization and inductively coupled total plasma with charge neutralization; during total noxious gas transformation into non-poisonous natural material this leads to a reduction in the number of non-uniform exhaust gas processes and of varying efficiencies. The postcombustion of hydrocarbons and carbon monoxide presents no problem. The physical/energy process should above all lead to an extremely thorough elimination of NO-particles. The additive reactor process takes place after the motor in an annexed device, mainly consisting of a multi-stage reactor, designed for harmonic forces, US excitation, electromagnetic, electromechanical- and microelectronic components, whose system brings about a specific synergetic and dynamic elimination of noxious gases. This is due to the fact that combustion chemical energy potential differences of the energy carriers fed to the mechanical motor system are cancelled by positive entropy maximization in the exhaust gas with the aid of purely physical action quantities, without affecting proven criteria in the case of power machines with a rotating output shaft, with the free choice of fuel and without an increased consumption in the latter.</p> |
