SU1153225A1 - Cooling tower reservoir - Google Patents

Abstract

1. RESERVOIR COOLED, containing a vertical cylindrical body with an inclined bottom, a settling chamber, an element for trapping vyvesheink substances and a discharge pipe, characterized in that, in order to increase the efficiency of purification of cooled water from suspended substances, the tank is additionally equipped with an annular vertical partition with a slot mi in the upper part, forming in the gap with the body wall a dry filtration compartment installed in the latter with the formation of two sections of the radial section with partitions Trapping in suspended substances is placed in each section, below the element an exhaust pipe is additionally installed, equipped with a drainage pipe system, and the dry filtration compartment is equipped with vertical ends installed in the slot of the vertical partition, and closed - to the wall of the case. 2. The tank according to claim 1, distinguished (L is that, the element for catching suspended solids is made in the form of a layer of granular carbonate with the base of the load. 3. The tank according to claims 1 and 2, which is characterized by the fact that the upper edge a vertical ring overhaul of towns is located above the loading layer. CP 1C KD ate

Description

The invention relates to heat and power engineering, in particular, water purification from suspended substances and its stabilization, and can be used in fan and tower cooling towers of circulating water supply systems.

The purpose of the invention is to increase the efficiency of purification of cooled water from suspended substances.

FIG. 1 shows a cooling tower tank with a cooling tower body placed above, a longitudinal section; FIG. 2 shows a section A-A in FIG. TO

The cooling tower tank contains a vertical cylindrical body 1 with an inclined bottom 2, a settling chamber 3, an annular vertical partition 4 with slots 5 in the upper part. The partition 4 forms in the gap with the wall of the housing 1 a compartment 6 of dry filtration, in which radial partitions 9 are installed with the formation of two sections 7 and 8. In each of sections 7 and 8. element 10 is placed to trap suspended matter. The settling chamber 3 in the lower part is provided with a discharge pipe 11, in which perforations are provided, and below element 10, an exhaust pipe 12 is additionally installed with a drainage pipe system 13. The dry filtration compartment 6 is equipped with trays 14, open ends 1 "1 5 installed in the slot 5 of the vertical partition 4, and close it - facing 3 to the wall of the housing 1. The element 10 for trapping suspended solids is made in the form of a layer of granular carbonate-containing loading with a particle size of 2-5 mm and a height of 1.2-1.5 m, for example, from marble chips, shell rock from Known dolomite or Magnesium. The upper edge of the vertical annular partition 4 is located above the loading layer of the element 10. In addition, the discharge pipe 12 is connected to a pipeline 15 equipped with valves 16, 17 and a discharge pipe 18 to the consumer (not shown) of cooled and purified water. The pipe 12 is connected to the pipe 5 19, equipped with valves 20 and 21, and to the storage tank wash water (not shown). The cooling tower tank also contains a water supply pipe 22 with a valve 23, a pipe-fitting 24 with a valve 25 connected to a discharge pipe 12. A tower 27 with a cooling tower with inlet windows 28 is located above the tank on supporting columns 26. Drip eliminator 29, water distribution device 30 connected to pipeline 22, sprinkler 31 are placed inside the housing 27. In the upper part of housing 2 there is a fan 32 located above the inlet end of the central shaft 33. In the dry filtration compartment, a fixture 34 is provided to maintain the level mark 35.

The cooling tower tank works as follows.

Heated circulating water with a concentration of suspended substances of the order of 20-50 mg / l enters the cooling tower through conduit 22 (valves 16, 17 and 23 are open, and valves 20, 21 and 25 are closed), where it is evenly distributed by means of a water distribution device 30 over the area of the irrigator 31, which creates a developed surface of contact with air sucked in by the fan 32 through the inlet ports 28. In this case, the circulating water is additionally contaminated by drinking from the air, particles of biological fouling, washed away from the irrigator by corrosion products and zveshennymi substances from water otduvaets some portion of carbon dioxide and it is almost completely saturated with oxygen from the air. Pass irrigator 31, cooled, but enriched with suspension and loss of stable properties. The circulating water in the form of rain falls into the tower of the cooling tower, creating a water curtain of dust-laden airflow.

In this case, part of the total water flow enters sections 7 and 8 of the dry filtration compartment, and the remaining amount of water goes into settling chamber 3. The presence of two isolated sections 7 and 8 in the dry filtration compartment allows the element 10 to be washed without stopping the cooling tower. Since the air flow is most intensively washed away from the contaminants in the peripheral part of the cooling tower in the entrance windows, placing the dry filtrating compartment with the element 10 for trapping suspended solids also on the periphery of the tower of the cooling tower makes it possible to catch most of the suspended substances in the water, preventing their penetration air deep into the cooling tower. in the operation mode of the cooling tower in the settling chamber 3, the water level is set corresponding to the location of the upper edge of the annular vertical partition 4 and the trays 14 built into it. In the dry filtration compartment 6, the water level at 35. is supported by the device 34 in the middle of the height of the element for collecting suspended substances by automatic adjustment of the degree of opening for the engines 23 during the filter cycle. This provides a mode of dry filtration of water in which the steam loading space is communicated with a mosferoy that causes no dead zones in the film loading and movement of the water regime of grains App ki. At the same time, as a result of the intensification of the separation process, the removal of suspended substances from water is carried out with high efficiency. The use of carbonate-containing loading element 10 in the dry filtering mode increases the stabilization efficiency by eliminating stagnant loading zones, intensifying the diffusion of carbon dioxide compounds in the film layer of water to carbonate loading particles, and thereby accelerating heterogeneous interactions on its surface. In the settling chamber 3, large mechanical inclusions are separated from the water, which settle on the inclined bottom 2 and slide along it to the discharge pipe 11, and the partially clarified water enters the dry filtration compartment 6 by a uniform horizontal flow through the upper edge of the partition 4, and also through the open ends of the trays 14, which ensures uniform distribution and collection of water in the dry filtration compartment. At the same time, the flow of water in the form of rain with an intensity of typically 612 m / h at the surface of the elements 10 prevents the formation of films on it from contaminants and ensures their washing and efficient transfer of contaminants to the underlying layers of the load, thereby increasing its capacity and the length of the filter cycle by an average of 40%. At the same time, the water flowing from the top down to the fractions of the carbonate-containing granular charge of the element 5 to 10 to catch suspended substances is almost completely freed from suspended substances and simultaneously stabilized. Therefore, placing the sensor of the device 34 in the upper part of the element 10 is impractical because it reduces the volume of loading operating in the dry filtration mode, which reduces the efficiency of water purification from suspended solids and stabilization by element 10 for average conditions by 1015%. It is also impractical to install the sensor of the device 34 against the outflow pipe 12, since this reduces the volume of water in the dry filtration compartment 6 and causes a breakdown of the vacuum in the pumps pumping the circulating water for which the cooling tower tank very often serves as a receiving tank. After loading the element 10 to catch suspended solids, water evenly over the entire area of the dry filtration compartment 6 enters the drainage pipes 13, which do not create much resistance to the movement of water flow and thus slightly increase the water level in the dry filtration compartment 6 controlled by the device 34 to maintain water level in the middle of the height of the element to trap suspended matter. This provides a longer filter cycle time compared to the large drainage drainage with which brightening filters are often equipped. Then, the water stream flows successively through pipe 12 and pipeline 15, and through pipe 18 is diverted to production. Installing a discharge pipe 12 under the element 10 for trapping suspended solids in different vertical planes with a perforated pipe 11, and placing the partition 4 between these pipes increases the effect of removing the suspended substances by 5-10% due to deeper water purification from suspended substances with small hydraulic size. In the process of filtering, suspended solids are retained in the granular charge and gradually become contaminated. As a result, the filtration rate decreases and pressure losses increase.

The washing of the granular load of sections 7 and 6b is performed separately without stopping the operation of the cooling tower in the manner described.

At the end of the 4-motorcycle, when the water level begins to exceed the level controlled by the sensor 34, stop water production, for example, from section 7, close the valve 16 and open the valves 20 and 25, while the valves 23 and 17 remain open, the valve 21 closed. The clarified water from the wash water storage tank through the pipeline t5 is fed back through the drainage pipes 13 into the granular loading of the sediment 10 of section 7 and the rising flow rushes upward to the trays 14. This leads to intensive loosening and expansion of the load which ensures efficient washing of it from contamination. The used wash water with contaminated B1 flows through trays 14 into the settling tank 3, from which the same amount of contaminated wash water with previously precipitated sediment simultaneously discharges second tube 11 and then along conduit 24 August storage of washing water, thereby the degree of filling of the cooling tower water tank is not changed.

During rinsing, section 7 8 is operating in four-slot mode. Since the duration of the washing is 5-10 minutes, the short-term filtration of water through the load in section 8 in the forced mode does not lead to a noticeable deterioration in the quality of cleaning and stabilized treatment of the water entering the production. J-

Then, the section 7 is washed and the section 7 is switched to the filtering mode. To do this, close the valves 20 and 17, and the valves 16 and 21 open (the valve 25 remains open). After flushing the load in section 8, during 5-10 minutes, valves 21 and 25 are closed and valve 17 is opened.

The frequency of granular loadings depends on the quality of the additional water, the operating conditions of the circulating water supply system and the degree of use of atmospheric air. For averages, the time between puffs is 10–12 hours. During this time, contaminated sludge water with sludge is discharged from the cooling tower tank into the storage tank, completely settled and reused in it to flush the granular load in the tank, and the sludge from the storage tank is removed for processing together with other precipitates of the enterprise. G /

Claims (3)

1. The RESERVOIR OF THE COOLING Tower, containing a vertical cylindrical body with an inclined bottom, a settling chamber, an element for trapping suspended solids and a discharge pipe, characterized in that, in order to improve the efficiency of purification of chilled water from suspended solids, the tank is additionally equipped with an annular vertical partition with slots in the upper part, forming in the gap with the wall of the casing a dry filtration compartment installed in the latter with the formation of two sections of radial partitions, and the element to catch anija suspended solids in each section are arranged below the element additionally mounted outlet tube provided with a system of drainage pipes and filtration the dry compartment is provided with trays, open-ended slots defined in the vertical walls and closed - adjacent to the wall of housing _l. 3 2. The tank under item 1, characterized in that the element for trapping suspended solids is made in the form of a layer of granular carbonate-containing load. 3. The reservoir according to paragraphs. 1 and 2, characterized in that the upper edge of the vertical annular septum is placed above the loading layer.