Patent ID: 9707505
Date: 2017-07-18
CPC Classifications: B01D

Claim:
1. A system for capturing polluting emissions, at an output of a particle emitter, wherein the system comprises: a duct comprising an outer surface and a fan, wherein the fan comprises rotation means comprising pulleys, a belt attached between the pulleys and an electric motor, the electric motor is mounted on the outer surface of the duct, wherein the fan is configured to drive the polluted emissions output from the particle emitter through the duct and into a liquefying mechanism; a liquefaction tank and the liquefying mechanism, wherein the liquefying mechanism is located inside of the liquefaction tank, wherein the duct is connected to the liquefying mechanism and conveys the pollutant emissions into the liquefying mechanism, the liquefaction tank contains water mixed with a degreasing liquid, the liquefaction tank further comprises a drain valve, a cooling system comprising a coil connected to the liquefaction tank and connected to a pump configured to recirculate the water mixed with the degreasing liquid, a plug configured to feed the water mixed with the degreasing liquid to the liquefaction tank, and an outlet duct on a top side of the liquefaction tank at an opposite end of the liquefaction tank from an end of the liquefaction tank where the duct enters the liquefaction tank; the liquefying mechanism comprises at least three cylindrical and concentric ducts, wherein the at least three ducts comprise walls having at least ten output holes, and a first duct of the at least three ducts has a diameter that is 1 cm smaller than a diameter of a second duct of the at least three ducts, and the diameter of the second duct is 1 cm smaller than a diameter of a third duct of the at least three ducts, and so on for each of the diameters of the at least three ducts, wherein each of the at least ten output holes of each of a corresponding duct of the at least three ducts has a diameter wherein a longitudinal sum of the diameters of the at least ten output holes is directly proportional to a respective diameter of the corresponding duct of the at least three ducts; the duct further comprises a far end and an opposite end, the far end comprises at least four brackets, and the opposite end comprises at least four brackets and a base that serves as a support between the liquefying mechanism and the liquefaction tank, wherein the at least four brackets at the far end and the at least four brackets at the opposite end are respectively distributed at equal angles relative to a center of the duct and are bases and separators for the at least three ducts; the duct further comprises a cover configured to seal a far end of the at least three ducts and a second cover configured to simultaneously seal an opposite end of the at least three ducts, the duct configured to pass the polluting emissions into the liquefying mechanism thereby contacting the water mixed with the degreasing liquid with the polluting emissions and causing a liquefaction of the polluting emissions for capture of particles in the polluting emissions in the liquefying mechanism, the liquefying mechanism configured to decant and separate the particles from the polluting emissions to a bottom of the liquefaction tank and resulting gases to the outlet duct; the system further comprises: the outlet duct connected to a compressor; the compressor, wherein the compressor is configured to compress and convey the resulting gases from the outlet duct to a safety valve; the safety valve, wherein the safety valve is configured to allow the passage of the resulting gases to the first storage tank; the first storage tank, wherein the first storage tank comprises a safety valve, a pressure meter, and a tap for removing the resulting gases stored in the storage tank.