Patent ID: 8926842
Filing Date: 2015-01-06
Classification: B03D,C02F

Abstract:
1. A water treatment method, comprising: a pressurizing step in which a waste water to be treated is pressurized with a high pressure by a photo-oxidation pressurizing pump along with an ozone generated by an ozone generator; a photo-oxidation decomposition reaction step in which a pollutant of the pressurized waste water is decomposed based on a photo-oxidation reaction using a high pressure photo-oxidation decomposition reaction apparatus; an unreacted ozone first reuse step in which a high pressure reaction effluent from the high pressure photo-oxidation reaction apparatus is inputted into both a downstream gas-liquid separation flotation tub and an upstream second pretreatment floatation tub, and the floating substances and pollutants are removed from said second pretreatment floatation tub and said gas-liquid flotation tub based on a Dissolved Ozone/Air flotation (DOF) step; an unreacted ozone second reuse step in which a gas containing unreacted ozone collected at an upper side of the second pretreatment floatation tub and the gas-liquid separation floatation tub is pressurized along with a raw influent waste water supplied from a raw influent waste water storing tub using a floatation pretreatment pressurizing pump and subjecting the raw influent waste water and pressurized unreacted ozone from said second pretreatment floatation tub and said gas-liquid floatation tub to a first pretreatment floatation tub and the waste water of the first pretreatment floatation tub inputted from the raw influent waste water storing tub is treated in the first floatation tub based on the DOF step thereby removing floating substances and pollutants from said first floatation pretreatment tub; and an ozone decomposition step which decomposes a remaining unreacted ozone discharged from the first pretreatment flotation tub by an off-gas ozone removing apparatus, wherein said high pressure photo-oxidation decomposition reaction step comprises said pressure photo-oxidation decomposition reaction apparatus for performing a photo-oxidation decomposition reaction step with a high pressure, said decomposition reaction apparatus includes a tube type housing having a rectangular or circular cross section, and said housing is made of a stainless steel or titanium material, and a housing inlet is connected with the photo-oxidation pressurizing pump and a housing discharge port is connected with a treatment water feedback line and the gas-liquid separation floatation tub, and said decomposition reaction apparatus a crystal fixing unit is provided at an upper side of the housing for accommodating an ultraviolet ray lamp in the interior of the upper side of the housing and for fixing at least one U-shaped crystal tube, and said at least one crystal tube is installed in the housing in a longitudinal direction of the housing, and a photocatalyst coated supporter is filled in an inner space between the at least one crystal tube and the housing, wherein said photocatalyst coated supporter comprises a stainless steel wire or a titanium wire having a diameter of 0.1-5 mm is processed in a coil spring shape, said coil spring shape of the photocatalyst coated supporter is made in a hourglass shape, and the pitch of the spring is smaller than the diameter of the wire, and the pitch of the beginning and ending portions of the spring is near the neighboring pitch, so that the coil spring supporters are not overlapped with each other, and in a sanding work step, the surfaces of the wires are made by colliding sand or diamond sand with a high pressure air, and in a heat treatment step, the wire is coated and is heat-treated at below 800° C.