Fluid shockwave reactor

摘要

The present invention relates to a fluid shockwave reactor. The fluid shockwave reactor introduces laser resonance theory into the field of fluid physics. It consists of a shockwave resonance energy concentration device and at least one set of jet collision device. The shockwave resonance energy concentration device can enhance the shockwave strength produced during jet collisions; strengthen the ultrahigh pressure and cavitation effect of the shockwave field; it can also intensify physical and chemical effects on the processed materials. The fluid shockwave reactor can achieve ultrafine crushing on the fluid materials with lower energy consumption. Under certain technological conditions, the fluid shockwave reactor may also effectively catalytize the chemical reaction process on fluid materials.

主权项

1. A fluid shockwave reactor comprising:
a shockwave resonance energy concentration device comprising a chamber having a rigid spherical concave inner surface, and at least a pair of coaxial and opposite nozzles for injecting a fluid material into said chamber with an initial pressure, wherein said chamber comprises jet orifices passing through said rigid spherical concave inner surface for holding said nozzles and discharge ports passing through said rigid spherical concave inner surface for allowing said fluid material to be discharged from said chamber, wherein a sum of cross-sectional areas of said discharge ports is greater than a sum of cross-sectional areas of said nozzles, and wherein positions where said discharge ports are placed keep said fluid material inside said chamber when said fluid shockwave reactor is at work, wherein a mid-point between said pair of nozzles resides at a center of said rigid spherical concave surface thereby allowing two flows of said fluid material injected by said pair of nozzles to collide at said center of said rigid spherical concave surface, create shockwaves thereby allowing ultrafine crushing of said fluid material.