SU1088748A1 - Installation for vacuum deaeration of water - Google Patents

Abstract

INSTALLATION OF VACUUM WATER DEAERATION, containing a degasser with water and gas supply and outlet connections, a nozzle, a sprayer, a level regulator, a vacuum pump, an airtight container in communication with the atmosphere and having a vertical pipe that is different in order to increase the deaeration efficiency water and reliability in the installation, a sealed container is attached to the walls of the degasser with the formation of a sealed Kalera under it, it is equipped with a thermal jacket located around the nozzle, and a sleeve-shaped spreader, mustache The coil is coaxially in the middle part / degasser under the nozzle, while the vertical pipe is installed along the axis of the degasser, the sealed chamber is equipped with a heater and communicates with a heat jacket that communicates with the sprinkler. Crt c

Description

The invention relates to a technique for the degassing of water and can be used to remove dissolved gases, in particular oxygen, from water in the oil, energy, food and other sectors of the industry. A known installation of vacuum deaeration of water, containing a degasser with nozzles for supplying water and discharging water and gas, a nozzle, a sprayer, a water level regulator, a vacuum pump, and a hermetic container ij. The disadvantage of this installation is low operational quality when operating in winter conditions. When the temperature of the fresh water is lowered, liquid films on the rings can freeze, ice build-up, blockage of the nozzle and, consequently, deterioration of the installation performance. In addition, the internal walls of the degasser may freeze due to the fact that the water flow rate in it is insignificant and is only 10-14 mm / s. It is also possible that water freezes, for example, when forced to stop a water-evaporating pump, in which even the presence of thermal insulation does not save. The purpose of the invention is to increase the efficiency of water deaeration and reliability of the installation. This goal is achieved by installing a vacuum de-aeration of water containing a degasser with water inlet and outlet pipes for water and gas, a nozzle, a sprinkler, a level regulator, a vacuum pump, a pressure receptacle connected to the atmosphere and having a vertical pipe an airtight container attached to the walls a degasser with the formation of an airtight chamber under it, equipped with a thermal jacket, placed in the socket of the nozzle, and a sleeve-type spreader, installed coaxially on mid-days, parts of the degasser under the nozzle, while tikalna pipe degasser is installed on the axis of the sealed chamber provided with a heater and communicated with a heat jacket, which communicates with the spray. The drawing shows the installation of vacuum deaeration of water. The installation contains a degasser 1, having a water inlet nozzle 2, a sprinkler 3, nozzle 4 (upper and lower), nozzles 5 for water evacuation and b for gas exhaust, regulator 7 level, sensor 8 lower limit level vacuum pump 9, which creates a vacuum degasser 1, pump 10, pumping out water from the degasser, pipe 11 connected to an airtight container 12. Capacity 12 has a pipe 13 connected to the atmosphere or to the drain pipe 14, visor 15, preventing 11 drops of water from the nozzle from entering the pipe 4, mounted coaxially inside the core Ator rastekatel sleeve 16, shirt 17, sealed chamber 18c mounted therein -nagrevatelem 19 and connected to y17 jacketed pipe 20. To reduce heat loss degasser may lists you provided with thermal insulation 21. The device operates as follows. The source water through the water inlet nozzle 2 enters the chamber 18, where it is heated in winter with the help of a heater 19 powered by electricity, steam or from any other heat transfer medium. The water in the chamber 18 is heated through the pipeline 20 to the shirt 17, which is made on the outer side of the degasser 1 in the area of the nozzle 4. After the shirt 17 has passed, water enters the sprinkler 3 and from there to the lower nozzle 4. The stack through the nozzle is water the vacuum created in the degasser 1 by the vacuum pump 9 is freed from gases dissolved in it and, falling on the convex part of the spreading device 16, enters the gap S between the wall of the body of the degasser 1 and the spreading valve 16. The area of the gap is designed to provide a certain speed water freeze necessary for operation without freezing. The exit from the gaps, water through, for example, the bump stops, is directed upwards into the main mass of water, providing a certain amount of water {10-15 minutes for the drain pump). The deaerated water through the pipe 5 by the pump 10 is supplied to the consumer, and the sucked gases are removed from the degasser 1 through the pipe by the vacuum pump 9. For regulating the water level in the degasser 1, a level regulator 7 is provided that keeps the water level within certain limits and the sensor 8 is lower the limit level, which stops the pump 10 abnormally, pumping out water from the degassing valve 1. When the water level in the degasser is abnormally elevated, pipe 1 allows you to drain the water from the vacuum apparatus unhindered, as its lower end It was put under the water level in the hermetic vessel 12 communicated by conduit 13 with the atmosphere; to which the drain pipe 14 can be attached. Above the upper cut of the pipe 11 is installed a visor 15.

In order to reduce heat loss in winter and to save energy, the heater and degasser can be equipped with heat insulations.

The proposed installation will improve the safety of work in the winter, as this will make it possible to ensure the flow of water in the degasser when leaving the pump from the pump 10, which, if there is a heater 19, will prevent the water from freezing in it.

In the absence of water pumping, its level rises and water through pipes 11 and 14 is drained from the degasser. The pipe 14 can be connected to the suction pipe of a pump nozzle (not shown) that supplies water to the degasser 1 through the pipe 2, which will ensure that the pump 10 will circulate water during heating and heat it up with the heater 19.

Creating a convex part of the spreading device 16 above the water level of a certain cavity, protected from splashing liquid flowing from the nozzle 4, allows a level 7 regulator to be placed in it, which will provide better working conditions, since water drops falling from above on the level 7 regulator buoy introduce errors in the gauge readings.

In addition, the supply of heated water to the pad 4 increases the efficiency of the de-aeration process itself, since the higher the temperature of the water to be deaerated, the less dissolved gas remains in it (at a given vacuum).

0 If, however, the degree of removal of dissolved oxygen from water is set, then the residual pressure generated by the vacuum pump 9 can be increased. This will allow refusing the expensive and capricious mechanical vacuum pump of the NVZ type and replace it with a simpler and easier to handle water ring vacuum pump, consume less electricity.

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The invention allows to improve the performance and reliability of the installation in winter conditions, the efficiency of the water deaeration process, as well as improve the operation of the automation system and the entire vacuum deaeration installation as a whole.

Claims (1)

INSTALLATION OF VACUUM DEAERATION OF WATER, containing a degasser with nozzles for supplying water and discharging water and gas, a nozzle, a sprayer, a level regulator, a vacuum pump, a sealed container connected to the atmosphere and having a vertical pipe, characterized in that, in order to increase the efficiency of deaeration of water and reliability of the installation, the sealed container is attached to the walls of the degasser with the formation of a sealed chamber under it lennym coaxially in the middle of a degasser · nozzle, and the vertical pipe is installed on the axis of the degasser, sealed chamber provided with a heater and communicated with a heat jacket, which communicates with the spray. (L s Er eo m eo