SU874098A1 - Degassing device - Google Patents

Description

(54) DEGASER

Claims (1)

The invention relates to the field of inorganic chemistry, namely, to technologists and instrumental design of water conditioning processes for domestic drinking and industrial water supplies, and can be used in xoaHflcTBHHo-raiTbeBbix cleaning systems & amps, as well as for the treatment of aggressive gases. The closest to the proposed is a vacuum bubble degdzatrr comprising tsilivdrnchesky body feeding waste zhtsakost conduit having in its composition and hydrogen sulfide, and other contaminants shiteli, vodorazbrtzgivayuschee ustroystyo, rub boprovod air inlet, removable Barbate entrainment separator, a conduit for withdrawing otrabotaynoy waste liquid, The safety membrane of the GAZ device, the disadvantage of this device is the inability to increase oxidative sweat to atmospheric air and regulate killing of the kinetics of the degassing process. The purpose of the invention is to increase the productivity and simplify the process by increasing the oxidative potential of atmospheric oxygen and adjusting the kinetics of the degassing process. The goal is achieved by the fact that in the device, comprising a housing, a pipeline and a pipeline for supplying waste liquid, a pipeline for supplying atmospheric air, a drop-breaker reflector, a degasser housing is filled in the form of a confuser system and cylindrical sections and equipped with electrodes installed in the upper part of the housing, between which is a reflector. On the chart, the proposed degasser, longitudinal.,. The device consists of a short circuit of a pressure pipe I for supplying a stand-up liquid for degassing, a mixer 2, into which primary atmospheric air, confuser 4, d of fuser 5, cylindrical hen 6, which has 8 fixed vessel 7 for collecting degassed liquid, branch pipe 8 of outlet to a sewage collector with an annular orifice Yu, 9i {) of the fusor 11 with a cylindrical nozzle 12, in which the reflector 13 is located along the nozzle axis between two electrodes 14 and 15 connected to a high voltage source 16. The gases Cfa, Hg5 and others released in the cylindrical nozzle after the degassing process are vented to the atmosphere through the deflector 17. The degasser works as follows. Sewage liquid from the discharge pipe I enters the mixer 2, into which primary atmospheric air is sucked through the openings 3. The resulting mixture of waste liquid and atmospheric air enters the confuser (ejector mixer) 4, in which the flow rates increase, and then the mixture enters the pressure diffuser 5 and from it into the cylindrical nozzles 6. From the nozzle 6, the mixture is further enriched in secondary air sucked through the collar hole H is fed into the confuser 9, the diffuser 1-1 of the degasser, and then into the 1-hole nozzle 12. An air-enriched mixture stream hits the bottom of the reflector 13 located in olosti cylindrical nozzle 12, thus there is a corrosive gas separation process as a result of their enrichment atosfernogo air, due to the fact that the partial pressure of gases removed by, e.g. agilis. , 2. and others in atmospheric air close to zero. In order to intensify the degassing process and reduce the toxicity of exhaust gases and their disinfection (assuming that the balneological wastewater is degassed), atmospheric air enriched with toxic gases is additionally treated in the environment of strong oxidizers created as a result of ionization of atmospheric oxygen in the space between the 14 n ring electrodes. 15, which are connected to a constant, alternating, or pulsed high voltage source. In the space between the electrodes 14 and 15, a high-voltage electric field with a voltage of 2 O - 100 kV / cm is created, resulting in a rapid separation of electrons and the formation that leads to the appearance of ionization of air oxygen. Moreover, 02 is converted in the space between the electrodes into a positive 84 oxygen ion O, a negative oxygen ion O 1 and a positive ion of molecular oxygen O5. oxygen oxide 0 hydroxyl radical and, as a result of the interaction of the obtained ions, the formation of the end product of chemical interaction - ozone is possible d. Each of the listed components has strong oxidizing properties, significantly exceeding the oxidizing properties of ozone. As a result, exposure to strong oxidizing agents Tipksirichnye gases under the influence of water vapor is converted into acid And 2.50 and others in small quantities. The stack down along the walls of the fusor 1-1 of the acid degasser, diluted with water, enters the discharge tank 7 of the degassed liquid, without significantly affecting the pH of the effluent. In addition, in the space between the electrodes 14 and 15, the waste fluid in an aerosol state, being exposed to strong oxidizing agents, is decontaminated, and then drains into the bone of the degassed fluid 7. Atmospheric air, after removing toxic gases from it, enters the deflector 17 and then in atmosphere. The implementation of a degasser housing made of geometric hollow bodies, consisting of a confuser, a diffuser and a cylinder, makes it possible to actively influence the flows of the overflowing waste-liquid mixture to regulate the degassing process by means of directional control of the velocities and pressures in the moving mixture flow. Thus, the use of the proposed degasser allows to significantly intensify the degassing process, bringing the concentration of corrosive gases to 10,000 mg / l CO2. and O, 2-O, 4 mg / n H2.5 to carry out a complete disinfection of wastewater and gases released into the atmosphere without their additional treatment; to ensure an increase in the productivity of the installation by 10-15%; significantly reduce the concentration of toxic substances released into the atmosphere and into water bodies. The formula is a degenerator and a degasser comprising a housing, a pipeline, a supply of waste liquid, a pipeline for supplying atmospheric air, and a reflector differing in that. that, in order to increase productivity and simplify the process by increasing the oxidative potential of atmospheric air and adjusting V5X) of the kinetics of the degassing process, the body of the degasser is in the form of a systolic luminescentator, e) fueors and tschshvvdricheskih sites and supplied 6 Slate lrshpmnu flaksvfa Cm tKirwwl vizoko, but for example, 986 poses by electrodes, with which a reflector is placed. Sources of information taken into account in the examination I. I. I. Zhukov et al. Sewage of industrial enterprises. M ,, 1969, p. 56-57, 374.