SU1125004A1 - Thermal degasser - Google Patents

Abstract

THERMAL DEGASER, which contains a tank with a spring and the outlet pipe located below, heating means and a device for cooling degassed water with cooling water inlet and outlet pipes, is (in order to simplify its design and intensify the process of mass exchange, It is made with flanging and is equipped with a partition, which forms a cavity with it, and the cooling water supply pipe is placed at the screen ottora and is equipped with a tangential nozzle.

Description

The invention relates to devices for obtaining and storing activated thermal degassing of water and can be used in agriculture to stimulate plant growth and increase animal productivity, as well as in medicine for the prevention of colds and other diseases, in power engineering, microbiology, food industry, chemistry. The closest to the invention in technical essence and the achieved result is a thermal degasser containing a container with a lid and a discharge pipe located at the bottom, heating means and a device for cooling degassed water with connections for supplying and discharging cooling water. The cooling device is complete in the form of a snake-like heat exchanger Cl) However, the coil heat exchanger is characterized by high resistance to the cooling water passing through it, which increases the energy intensity of the process of obtaining activated water. In addition, the coil heat exchanger complicates the design. ) The purpose of the invention is to simplify the design of the degasser and intensify the mass exchange process by turbulizing cooling water. The goal is achieved by the fact that it is located in a thermal degasser containing a container with crinkles. bottom outlet pipe, heating means and device for cooling degassed water with cooling water inlet and outlet connections, the lid is made with flanging and equipped with a partition, forming a cavity with it, and the branch pipe for cooling water is located at the flange of the rivet and is equipped with a tangential nozzle . The drawing shows a thermal degasser. The degasser contains a tank 1 with a crinkle 2, flanging (sides) 3 and a discharge pipe 4, heating means 5 and a device for cooling degassed water in the form of overlapping cover 2 with formation of cavity 6 for cooling the water of the partition 7 with a tangent nozzle 8, placed at the flange 3 cover 2 and attached to the pipe 9 for the supply of cooling water Decontaminator also contains the pipe 10 outlet of cooling water. The partition 7, as well as krppka 2, has the form of a disk. They are fixed at a distance from each other by means of flanging 3 with the formation of cavity 6 for cooling water. Thus, the elements 2, 3 and 7 directly form a cavity 6 and ensure the buoyancy of the device, which in this case performs two functions: a floating cover and a heat exchanger. The operation of the degasser is as follows. The tap water is poured into the tank 1 without crinkle 2. Means 5 with heating heats the water to 70-100 ° C. In this case, according to Henry-Dalton's law, the solubility of gases in water decreases with decreasing temperature and with decreasing their partial pressure above the solution. Thus, heating the water to boiling results in a decrease in the content of gases dissolved in it by approximately two times. Such degassed water has a marked biological activity when it is cooled to the consumption temperature (on the order of) in sealed conditions (in a closed container). Therefore, the degassed water heated to 70-100 ° C is immediately covered with a crush and, in this form, cooling is started by supplying cooling water to the pipe 9. In this case, the water receives a certain direction - from the periphery to the center, where the nozzle 10 of the cooling water outlet is located. The directional flow through the nozzles turbulizes the flow of cooling water, and thereby improves the mass transfer, which allows, at the same head, to reduce the power consumption of the device. The lower power consumption of the proposed device is determined by comparison with the known fact that the pressure loss essentially depends on the diameter of the pipelines (the smaller the diameter, the stronger the resistance and the greater the pressure loss). The passage of water in the plane compared to the spiral tube in the known device meets with incomparably less resistance. Significant in the economy of energy is the heat removal through the surface of the partition 7. Thus, the loss (energy costs) in the proposed unit 31125004. L

The performance is much lower than in the case of a single material and can (jaBecTHOM, and not limited to pressure. Be used more efficiently in the domestic water supply network, given its simple design. The proposed device is designed.

Claims (1)

"THERMAL DEGASATOR", containing a container with a lid and positioned " bottom outlet pipe, heating means and device for cooling degassed water with pipes for supplying and discharging cooling water, characterized in that, in order to simplify its design and intensify the mass transfer process, the lid is flanged and provided with a partition forming a cavity with it, and the cooling water supply pipe is located at the flanging of the cover and is provided with a tangential nozzle. 9 '