Patent ID: 7214031

Claim:
A method to maximize the utilization of Kinetic energy in very-high velocity fluids to improve the efficiency of processing one or multiple fluid substances simultaneously and continuously comprising the steps of: a. providing a first-stage impellor within a first-stage impellor housing, within a centrifugal pump; b. pumping a first stream of process fluid through an internal first passage means thence through a first nozzle means attached to a first reaction chamber means; said first reaction chamber means being installed within a first receptacle within the periphery of said first impellor housing; c. simultaneously pumping a second stream of said process fluid utilizing said first impellor means within said first impellor housing of said centrifugal pump through a first external passage means thence through a second nozzle means into said first reaction chamber means; said second nozzle means being situated within the opposite end of said first reaction chamber means from said first nozzle means; said first and said second streams of process fluid entering said first reaction chamber means through said first and said second nozzles at very high velocity from virtually opposite directions; d. enabling said fluid streams impacting against each other in a common plane at a divergent angle approximating 10 degrees, thereby causing optimum use of said kinetic energy in said two colliding, incoming fluid streams while simultaneously serving the purpose of offsetting said incoming streams of process fluid one from the other to cause said streams to effectively deflect each other away from an exit means from said first reaction chamber means; said deflection of said process fluid mitigating escape of said process fluid from said first reaction chamber means prior to said process fluid experiencing optimum utilization of said contained kinetic energy within said first reaction chamber means; said colliding streams of process fluid now experiencing high-velocity, inter-particle collisions, deagglomeration, shear and the like together with high-velocity shearing impacts with the interior surfaces of the ribbed ceramic lining means of said first reaction chamber means; e. enabling the high-velocity fluid to pass through said exit means from said first reaction chamber means into fluid conduit means leading to a first diffuser means; f. discharging the high-velocity fluid to a successive stage of the same configuration for further processing or discharging the fluid through an outlet.