RU2007109365A - METHOD OF INTENSIVE AERATION AND WATER DEGASATION AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (7)

1. The method of intensive aeration and degassing of water is implemented in the module of intensive aeration and degassing (MIA), in which the increase in the speed of aeration and degassing is repeatedly created by using traditional water-air ejectors in which liquid jets flowing out at a high speed (~ 25 m / s) of the nozzle head, is ejected surrounding gas and create a vacuum in the receiving chamber (PC), which promotes the desorption of CO _2. 2. The method according to claim 1, characterized in that in the MIA there is a process of microbubble formation, which occurs during the cavitation process by pushing water-air jets with reactor water, in addition, the process of collapse of microbubbles occurs simultaneously with the disinfection of water, because during the collapse (collapse) of bubbles, an extreme temperature of ≈1000 ° С arises and the spores of fungi and bacteria that are in the center of collapse are destroyed; moreover, an intensive process of turbulent diffusion with the formation of solid particles (coagulation) occurs in the collision of water jets with reactor water, which sediment and periodically discharged into a septic tank or sump. 3. The method according to claim 1, characterized in that the MIA creates an active mixture and increases the contact area of two media - air and water due to the disintegration of the water-air throttling jets from the nozzle nozzle of the ejector into small dispersion particles, which contributes to the process of emission of harmful odorous odors and removing them from the water by evacuating the tank reactor using exhaust ventilation. 4. A non-reagent water purification device MIA, containing a hydrocyclone, an ejector section, ejectors E1 and E2, a fan, a reactor tank, which is a rectangular tank, in the upper part of which there is an ejector section in which ejectors E1 and E2, a fan are installed. 5. The device according to claim 4, characterized in that the bottom of the reactor tank is located at an angle α to the largest vertical wall of the reactor tank. 6. The device according to claim 4, characterized in that the air space above the water level in the reactor tank must be at least t = 0.2 m, which is supported by level sensors, in addition, the location of the cut-off exit of the mixing chamber (CC) ejectors E1 and E2 above the water level in the reactor tank should be at least h = 0.5 m. 7. The device according to claim 4, characterized in that it can be equipped with an ozonizer.