This disclosure relates generally to the field of chemical compound production and more specifically to an improved process and apparatus for using the extremely time-efficient, energy input-efficient, and therefore cost-efficient “collision physics” to achieve chemical compound production by means of the supersonic collision shockwave reaction mechanism.
For centuries, the conventional way of chemical reaction was based on mixing two or more chemicals in a stirring, blending or intermixing method with or without the addition of a liquid, often with the assistance of the input of heat, pressure and time, and sometimes further assisted by introducing a catalyst into the reaction. The objective was to cause the original respective bonding of a chemical A and a different chemical B to be loosened, thereby to allow one or more new compounds to be made as a result of a new pairing of A and B. If either or both of A and B are themselves compounds, then a new pairing of a number of variations of the components of A and B.