RU85505U1 - WATER SUPPLY SYSTEM OF POPULAR ITEMS - Google Patents

Abstract

1. The water supply system of settlements, containing a complex of water intake structures, a pumping station for the first rise of water with pumping units, the pressure pipe of which is connected to the pipeline for water to enter the filtration tank, characterized in that the pumping units are installed low-power and low-pressure, and the axis of the pressure pipe placed above the geodetic mark of the location of the pipeline for water to enter the filtration tank and the difference between them is not more than one atmospheric the detection. ! 2. The system according to claim 1, characterized in that the geodetic elevation of the placement of pumping units is below the water level in the intake structure and the difference between them is not more than 0.3-0.5 atm. ! 3. The system according to claims 1 and 2, characterized in that the difference between the water level mark in the water intake structure and the geodetic mark of the location of the pipeline for the water to enter the filtration tank is not more than 1.5 atm to push the gravity of the water from the pressure pipe.

Description

The utility model relates to the field of water supply to cities and towns with the aim of saving energy and saving energy resources during operation of the pumping units of the pumping station of the first rise of water and can be used when pumping water to consumers.

The well-known water supply system of settlements according to the patent of the Russian Federation №2321 706, class. EB03 7/04, publ. April 10, 2008, contains an annular water supply network, divided into zones that are interconnected by water conduits connected to zone pumping stations, which are made in the form of a combination of groups of low-pressure and high-pressure pumps with pressure pipelines installed in parallel.

However, due to wear and tear during long-term operation (more than 30 years), the service life of pumps between maintenance with the replacement of individual units is reduced (compared to the passport regulation) by 1.5-2 times, resulting in increased maintenance and repair costs.

The disadvantage of the analogue is that the change in energy consumption during the day for each zone pumping station is not an effective measure to reduce electricity costs, which are up to 1.4 MW per year.

According to the well-known event for energy saving by choosing the pumps of the pumping station of the first rise of water according to the patent of Ukraine for utility model No. 29741, class EB03 7/00, publ. On January 25, 2008, the boundary characteristics of each pump are first determined and their joint operation at maximum and minimum speeds and the points of their intersection with the boundary characteristics of the actual daily working field of the water supply system determine the actual daily working field of their joint work and refine the choice of pumps. Thus, the choice of the optimal pump is carried out by measuring the operation of a standard pump using a flow meter and pressure gauge.

The disadvantage of the analogue is the actual excess of the energy consumption of the selected pump compared to its passport standards, the characteristics of which are deviating and for this reason the energy costs are much higher and the energy resource is not saved.

Known water supply system according to the patent of the Russian Federation for utility model No. 39149, class. EB03 7/00, publ. July 20, 2004 contains a water intake device that is filled with water from a natural source and a pumping station for the first rise of water, while a central flow meter is installed at the outlet of the pressure pipe, and consumer meters are installed at the points of connection to the branches of the pressure pipe. The outputs of the flowmeters are connected to the corresponding inputs of the controllers.

The disadvantage of the analogue is the increase in electricity consumption by the pumps of the pumping station for lifting water to different levels of buildings, while the water supply does not change from 400 to 1480 m ³ / h and energy saving is not realized and there is no reliable supply of water to the city.

The well-known water supply system for large settlements according to the information catalog “Water Horizons” of the Oblvodokanal Utility Enterprise of the Zaporizhzhya Regional Council, 2006 contains a group water supply system that is provided with Dnieper water from the Kakhovsky main canal, from which water is drawn into the complex of water intake structures, and since the water velocity in the channel is 0.8-1 m / s., the channel works as a primary sump, which allows you to take almost clean water and using the pumping station of the first ema water feeding it to the treatment plant, i.e. into a container for filtering water and beyond.

During the period of maximum water consumption, two or three high-pressure pumping units of type D, grade 300D-70, with an electric motor with a capacity of 200 kW / h, operate at a pumping station of the first water rise, while the energy consumption per day is 11,000 kW, and the electricity consumption in winter for a month is 200 thousand kW

This well-known water supply system is taken as a prototype.

The disadvantage of the prototype is as follows:

- increased energy consumption of the water supply system only at a small distance of 11 km from the Kakhovskoye main canal to the first treatment plant in the form of a filtration tank raises Ukrainian electricity tariffs for consumers, thereby not saving energy resources, they are catching up with European energy costs, besides using powerful pumping units of the 300D-70 brand, the water pressure at the outlet of the pumping station is 70 m, which is significantly large and unnecessary and lead to rupture of steel pipes and a breakdown in Akum in pumping units that are energy intensive. The technical result that is achieved using the utility model:

- the ability to reduce the total energy consumption at the pumping station of the first water lift for six months of 2008 from 1091864 kW to 138257 kW by replacing high-pressure pump units of the 300D-70 brand with electric motors of 200 kW / h for low-power and low-pressure pump units of the O-42G brand with a power of electric motors of 75 kW / h and a pressure of 8-10 m of water. columns, which are manufactured at the Kirovograd plant of hydraulic machines "Sahgidromash", and the pump units of the O-42G brand are made with a system for automatically controlling the speed of electric motors 75 kW / h, corresponding to the consumed load, and the annual energy saving is 1560 thousand kW / year.

The utility model is based on the task of improving the water supply system of settlements for the purpose of energy saving by introducing and implementing the installation of low-power and low-pressure pump units of the O-42G brand with an electric motor power of 75 kW / h at the pump station for the first rise of water, while the difference in geodetic is fully used marks, i.e. the difference between the mark 25.59 of the placement of the axis of the pressure pipeline of the pumping units and the geodetic mark of 23.75 of the location of the pipeline for water to enter the filtration tank, as a result of which the water from the intake structure to the filtration tank flows by gravity (equal to 0.3-0, 5 atm), which is then pushed as it were by a small pressure from 8 m to 10 m of water (i.e. 1 atm) of the O-42G brand pump unit with a low energy consumption of 75 kWh / h, thereby during the operation of the pumping station for the first water rise a large amount of elec energy and energy savings.

The solution to this problem is provided by the water supply system of settlements, which contains a complex of water intake structures, a pumping station for the first rise of water with pumping units, the pressure pipe of which is connected to the pipeline for water to enter the filtration tank, due to the fact that, for the purpose of energy saving, pumping units installed low-power and low-pressure, for example, grade O-42G, and the axis of the pressure pipe has a mark of 25.59, which is located above the geodetic mark of 23.75, on which ene conduit for receiving water into the filtration tank and the difference between them is no greater than one atmospheric pressure, i.e., 25.59 + 8 m - 23.75 = 9.85 or 10 m or 1 atm.

For the gravity flow of water, the geodetic mark of 25.50, on which the pump units are located, is below the level of 29.85 of the water level in the intake structure and the difference between them is 29.85-25.50 = 4.35 or 5 m, which is not more than 0.3-0.5 atm., at which gravity of water is possible.

To implement a water supply system for settlements by pushing gravity of water, the difference between the level of 29.85 of the water level in the intake structure and the geodesic mark of 23.75 of the location of the pipeline for the flow of water into the filtration tank is 0.5 atm + 1 atm, i.e. no more than 1.5 atm., which is necessary for pushing the gravity of water from the pressure pipe of the pump unit brand O-42G.

The claimed water supply system of settlements is illustrated by the technical description and drawings, where:

Figure 1 - diagram of the water intake by the pumping station of the first rise of water from the Kakhovsky main canal,

Figure 2 - General view of the pumping unit brand O-42 g,

Figure 3 - electrical diagram of the parallel connection of 2 pumping units of the brand 0-42G.

Utility Model — Diagram of withdrawal of settled water 1 from the Kakhovskoy Main Canal 2 contains a complex of water intake structures 3 with a mark of 29.85 water levels and a fixed intake pipe 4 with a mark of 24.10 (see Figure 1).

Inside the pumping station 5 of the first water rise, low-power and low-pressure pumping units 6 of the O-42G brand are installed, which are located on a separate site of the pumping station 5 with a geodetic mark of 24.70 (see Figure 1, Figure 2).

Pump units 6 have a suction pipe 7 and a pressure pipe 8, and the geodetic mark of the placement of the axis 9 of the pump units 6 and the axis of the suction pipe 7 are the same, i.e., 25.50, which is incorporated in the design of the pump unit (see Fig. 1, FIG. 2).

The axis of the pressure pipe 8 has a mark of 25.59, which is located above the geodetic mark of 23.75, on which there is a pipe 10 for water to enter the filtration tank 11, which is a treatment plant and has microfilters 12 and a lower chamber 13 for water purification, the bottom which is located at the geodetic mark of 17.95 (see Fig. 1).

Microfilters 12 are made in the form of mesh drums (not shown) with the possibility of rotation. According to Figure 3, the electrical circuit for the parallel connection of 2 pump units 6 of the O-42G brand provides a control cabinet 14 in which frequency converters (not shown) are installed for electric motors 75 kW / h of pump units 6, in which the consumed electric current is controlled.

To implement a water supply system for populations of points by pushing gravity of water, at first the gravity of the water from channel 2 is carried out because the geodetic mark of 25.50 for the placement of pumping units 6 is lower than the mark of 29.85 for the water level in the intake structure 3 and the difference between them is 29.85-25 , 50 = 4.35 or 5 m, which is not more than 0.3-0.5 atm. (see Fig. 1).

Further, when the pressure of the pumping units 6 is equalized to 8 m, the difference between the marks 25.59 and 23.75 is not more than one atmospheric pressure, i.e. 25.59 + 8 m - 23.75 = 9.84 or 10 m or 1 atm.

As a result, water is pumped from the pressure pipe 8 to the filtration tank 11 because the difference between the water level mark 29.85 in the water intake structure 3 and the geodetic mark 23.75, on which the pipeline 10 for the water to enter the filtration tank 11 is 0.5 atm +1 atm, i.e. not more than 1.5 atm., thus pushing gravity and water backwater, which is supplied to the microfilters 12.

Pumping units 6 regulate the volume of water supply up to 2000 m ³ / h depending on the number of revolutions of the electric motors 75 kW / h, thereby saving energy when partially loaded.

The energy consumption for pumping 1000 m ^{3 of} water for the O-42G pumping unit is 37.5 kW / h.

The inventive water supply system of settlements allows saving energy by 7-10 times with the help of low-power and low-pressure pump units of the O-42G brand, which is an energy-saving measure and supply water with a reduced energy resource to the pumping station for the first water rise.

Claims (3)

1. The water supply system of settlements, containing a complex of water intake structures, a pumping station for the first rise of water with pumping units, the pressure pipe of which is connected to the pipeline for water to enter the filtration tank, characterized in that the pumping units are installed low-power and low-pressure, and the axis of the pressure pipe placed above the geodetic mark of the location of the pipeline for water to enter the filtration tank and the difference between them is not more than one atmospheric the detection. 2. The system according to claim 1, characterized in that the geodetic elevation of the placement of pumping units is below the water level in the intake structure and the difference between them is not more than 0.3-0.5 atm. 3. The system according to claims 1 and 2, characterized in that the difference between the water level mark in the intake structure and the geodetic mark of the location of the pipeline for the water to enter the filtration tank is not more than 1.5 atm to push the gravity of the water from the pressure pipe.