SU891587A1 - Unit for thermal disinfection of waste water - Google Patents

Description

(54) INSTALLATION FOR THERMAL DECONTAMINATION OF WASTEWATER.

The invention relates to a technique for the treatment and disinfection of wastewater and can be used in medicine (veterinary). A device is known that includes a crusher, an assembly tank, a heat exchanger, a jet device with a steam source, an extractor, pumps, process piping and a sewer outlet fl}. However, this device does not provide the necessary simplicity to regulate the start-up of the system G, the output to the operating mode, since it requires a sharp increase in the amount of steam or a reduction in the amount of waste liquid to start the system. In addition, in case of violation of the quantitative ratio of the heating and heated fluids, it is possible to drain the disinfected liquid into the sewage system with a temperature of more than 40 ° C, which is unacceptable according to the existing norms of SNiP-32-76. The increase in the amount of steam in the system when it is started up compared to the amount of steam required for the operating mode requires sources of steam supply of considerable power, which, for example, are practically absent in medicine due to the fact that only in medical institutions of disinfection purposes residual steam obtained for other needs. The purpose of the invention is to increase the efficiency of use of the plant by reducing steam consumption at start-up. The goal is achieved in that the installation is equipped with an additional tank with a bubbler attached to the steam source and two pipelines connecting the said

tank with heat exchanger and sewer outlet

The drawing shows the installation diagram.

The installation includes a crusher 1, a collection tank 2, a pump 3, a heat exchanger 4, a pump 5, an inkjet unit 6, a holding vessel 7e, an additional capacity 8, a sewer outlet 9, a source 10 of steam. Crusher 1 is connected to tank 2. The lower part of tank 2 is connected by means of pump 3 to heated zone 11 of heat exchanger 4 connected through pump 5 to jet apparatus 6 which is connected to soaker 7. Heater zone 12 of heat exchanger 4 is connected to soak 7 and through valve 13 with a sewer outlet 9, and through a valve 14 with a capacity B, the lower part of a container 8 through a valve 15 with a second-stage pump 5 and through a valve 16 with a steam source 10 connected through a valve 17 with a jet apparatus 6, the device works following about azom

Wastewater with organic inclusions comes through the pipelines to crusher 1, where the organic particles are crushed to 4-6 mm. From the crusher, the waste water source1 enters the tank 2 to accumulate wastewater.

To start the installation, additional tank 8 is poured with tap water (during long-term operation of the system, the residual amount of heated decontaminated waste water is drained into this tank for the next day), which is heated to a mass of 4–5 bari by sparging. The liquid from the tank 8 by the pumps 5 of the second stage is supplied to the nozzle of the jet apparatus under a pressure of 4-5 bar. Under the action of the vacuum created by the jet, heated to 9Cf C liquid, from the source 10 of steam into the chamber of the jet apparatus enters a steam-and-nacelle having a temperature of 140-160 ° C and heats the liquid up to 120 ° C. femininity.

In the flow under pressure, heating-dispersed inclusions and inactivation of microorganisms occur. Then the disinfected waste water from the control device 7 enters the heating

zone 12 of the heat exchanger 4, where it is cooled to 40 s by a counter flow of waste water. Cooled to 40 ° C, the decontaminated waste water through the valve 13 enters the sewage 9. If the temperature exceeds 40 ° C, the valve automatically switches (valve 13 closes, valve 14

opens) and the waste water enters the tank 8 in which it is. is accumulated for use by the subsequent launch of the system. The temperature of the heated waste

water in the heated zone 11 of the heat exchanger 4 is twisted from 10-15 to 90-95 ° C and the liquid enters the second stage pumps 5, after which the valve 15 closes, the start mode is set to this and it goes to work in the operating mode, where the first stage wastewater is a heat exchanger 4, and the second stage is heated

on - jet apparatus 6, In operating mode, steam consumption is only for heating the waste water to 120 s in the jet apparatus 6,

In the intended device, the process

Claims (1)

spraying the liquid with steam is carried out by unevenly supplying the residual amount of steam in small portions, which makes it possible to accumulate the necessary amount of technical energy to start the system, does not require process adjustment, which, e, simplifies it. Invention Formula A plant for thermal disinfection of wastewater containing a collection tank, a heat exchanger, a jet device with a steam source, a holding tank, as well as pumps, process piping and a drainage outlet, characterized in that, in order to increase the efficiency of use by reducing steam consumption during the . it is equipped with an additional a container with a bubbler attached to the steam source and two pipelines connecting the additional tank to the heat exchanger and the sewer outlet. Information sources, taken into account in the examination . Author's certificate of the USSR No. 602184, cl. A 61 L 3/00, 1976. LD ////////////////////