RU152203U1 - MOBILE WATER INTAKE STATION - Google Patents

Abstract

A mobile water intake station containing technological equipment made with the possibility of mounting in a block box and hydraulic communication with a removable underwater water intake complex, technological equipment includes a buffer tank, a supply tank, a make-up tank, a vacuum tank, self-priming pumps and centrifugal pumps, while the buffer tank is connected to the pumps with self-priming main and backup pressure lines, and is connected to centrifugal pumps the main and backup consumer water lines y, self-priming pumps are connected to a removable underwater intake complex using the main and backup suction lines, the supply tank, the make-up tank and the vacuum tank are connected by a preparatory line, an electromagnetic valve is installed at the output of the make-up tank, and a liquid ring vacuum pump is installed at the output of the vacuum tank, the preparatory line is connected to the main and backup discharge lines through electromagnetic valves, the supply tank is connected by a make-up line to the main and reserve lines injection wells, buffer tank, the tank and consumable make-up tank connected to the bottom of the drainage line, the lines are equipped with shut-off and metering valve.

Description

The utility model relates to the field of water supply and can be used to draw fresh water from surface sources with subsequent supply of water for treatment or use for technical purposes.

During the construction of trunk pipelines, roads and railways, the development of oil and gas fields in remote regions of our country, it often becomes necessary to provide fresh water to drillers, builders and personnel from surface sources for the duration of the work.

A mobile electrified water intake facility is known in the form of a single pump mounted on a trailer with a suction pipe and devices for filling it with water before start-up, since the pump is designed to work using its suction height (A.S. Obrazovsky and others, edited by K. A. Mikhailova and AS Obrazovskogo, Water intake facilities for water supply from surface sources. - M.: Stroyizdat, 1976, pp. 235-236).

A disadvantage of the known structure is the lack of an insulated pavilion in its composition. To ensure stable operation of the structure, when operating in winter conditions, it must be placed in an insulated pavilion. During the operation of the facility, when water is taken from a surface source, it is possible that fish fry and juvenile fish will be caught, injured and killed in the water supply system, as reliable fish protection is not provided.

The task of creating a utility model:

- Development of a mobile water intake station, made in full factory readiness with use at remote sites in areas with different climatic conditions;

- ensuring the stable operation of the station in automatic mode;

- water supply of facilities as soon as possible;

- ensuring environmental safety without damaging nature during the operation of the station by preventing ingress, injury and death of fry and juvenile fish.

The technical result of creating a utility model is to increase the reliability and efficiency of a mobile water intake station.

The technical result is achieved by the fact that the mobile water intake station contains technological equipment configured to be mounted in a block box and hydraulically connected to a removable underwater water intake complex, the technological equipment includes a buffer tank, a supply tank, a make-up tank, a vacuum tank, self-priming pumps and centrifugal pumps, while the buffer tank is connected to the pumps with self-priming main and backup discharge lines, and is connected to centrifugal pumps of the main and by a backup water supply line to a consumer, self-priming pumps are connected to a removable underwater intake complex using the main and backup suction lines, a supply tank, a make-up tank, and a vacuum tank are connected by a preparatory line, an electromagnetic valve is installed at the outlet of the make-up tank, and an electromagnetic valve is installed at the outlet of the liquid ring vacuum pump, the preparatory line is connected to the main and backup discharge lines through electromagnetic valves, the flow tank is connected odpitochnoy line to the main and standby lines, injection wells, buffer tank, the tank and consumable make-up tank connected to the bottom of the drainage line, the lines are equipped with shut-off and metering valve.

In FIG. 1 schematically shows a mobile water intake station.

In FIG. 2 too, side view.

In FIG. 3 shows a diagram of a mobile water intake station.

The mobile water intake station (Fig. 1 and Fig. 2) contains a block box 1 mounted on a platform 2, made, for example, in the form of a sled, equipped with a coupling device 3, a removable ladder 4, a removable underwater intake complex 5 and a container for storing it ( in Fig. not shown).

The block box 1 (Fig. 1) contains the technological equipment located inside and the control system (not shown in Fig. 1).

The removable underwater intake complex 5 (Fig. 1) consists of a collapsible water conduit 6 and a device for water intake fish protection float 7 with a load of 8 and a rope 9 attached to it.

Technological equipment (Fig. 3) contains a buffer tank 10, self-priming pumps 11, 12 and centrifugal pumps 13, 14. The buffer tank 10 is equipped with an analog pressure sensor 15, level sensors 16, 17 and overflow

branch pipe 18. The buffer tank 10 is connected to the self-priming pumps 11, 12 of the main 19 and standby 20 discharge lines, respectively. The buffer tank 10 is connected to centrifugal pumps 13, 14 of the main 21 and standby 22 water supply lines to the consumer, respectively. On the main 19 and standby 20 injection lines, pressure gauges 23, 24 and rotary butterfly valves with electric actuators 25, 26, respectively, are installed. The main 21 and reserve 22 water supply lines to the consumer consist of suction and discharge sections (not shown in Fig. 3), shutters 27, 28 are installed on the suction sections, respectively, and pressure gauges with digital outputs 29, 30, valves are installed on the discharge sections inverse 31, 32 and valves 33, 34, respectively. A shutter 35 is placed at the water outlet to the consumer. Self-priming pumps 11, 12 are connected to a removable underwater intake complex 5 using the main 36 and the backup 37 suction lines with rotary disk valves with electric actuators 38, 39, respectively, placed on them. The preparatory line 40 connects the consumable tank 41, the make-up tank 42, the vacuum tank 43. The consumable tank 41 is equipped with an overflow pipe 44, the make-up tank 42 is equipped with a float valve 45 and overflow pipe 46, the vacuum tank 43 is equipped with a level switch 47. At the output the make-up tank 42 is equipped with an electromagnetic valve 48, and a liquid ring vacuum pump 49 is installed at the outlet of the vacuum tank 43. The preparation line 40 is connected to the main 19 and standby 20 discharge lines through electromagnetic valves 50, 51 respectively venno. The supply tank 41 is connected by a make-up line 52 to the main 19 and the backup 20 discharge lines. The buffer tank 10, the supply tank 41 and the make-up tank 42 are tied at the bottom with a drainage line 53.

The lines are equipped with shutoff valves, which are switched on and off depending on the operating modes of the station, at the time of starting and stopping the station and during its maintenance.

Station mobile water works as follows.

Water from a surface source through an underwater device, a fish intake float-protecting device 7, is supplied with a self-priming pump 11 or 12 to a buffer tank 10, from where it is supplied to a consumer by a centrifugal pump 13 or 14.

Before starting the station into operation, it is necessary to fill the supply tank 41 with water from the automobile tank to the overflow pipe 44 connected to the drain line 53, after which the make-up tank 42 is successively filled with water from the supply tank 41 to the operating level controlled by the float valve 45, and a water ring vacuum pump 49. To fill the water ring vacuum pump 49, the solenoid valve 48 opens.

After filling the water ring vacuum pump 49 to a predetermined level, the water ring vacuum pump 49 is turned on, and at the same time, an electromagnetic valve 50 or 51 and a butterfly valve with an electric actuator 38 or 39, respectively, are opened. The liquid-ring vacuum pump 49 takes a predetermined volume of liquid from the make-up tank 42 and supplies the air-water mixture to the consumable tank 41.

During normal operation of the water ring vacuum pump 49, a vacuum is created on the main 36 or standby 37 suction lines and the water from the source begins to sequentially fill the main 36 or standby 37 suction line, the working cavity of the self-priming pump 11 or 12 and through the solenoid valve 50 or 51, respectively, the tank vacuum 43.

When the vacuum tank 43 reaches the set water level controlled by the level switch 47, the ring vacuum pump 49 is turned off, the electromagnetic valves 48, 50 or 51 are closed and the self-priming pump I or 12 is turned on, respectively, which supplies water from the surface source to the buffer tank 10, while the rotary butterfly valve 38 or 39, respectively, is open.

When the specified pressure is reached on the main 19 or standby 20 discharge lines, the contact closes on the manometer signaling 23 or 24, respectively, as a result of which the signal from the controller of the control system sends a signal to open the butterfly valve with an electric actuator 25 or 26, respectively, and the water begins to fill the buffer tank 10.

After filling the buffer tank 10 to a predetermined level, controlled by an analog pressure sensor 15, the centrifugal pump 13 or 14 is turned on, supplying water to the consumer, while the shutters 27 or 28, 33 or 34, respectively, and 35 should be open.

When the level in the buffer tank 10, controlled by the level sensor 16, drops to the specified minimum level H _{min, the} centrifugal pump 13 or 14 turns off, which supplies water to the consumer. When filling the buffer tank 10, controlled by the level sensor 17, to the specified maximum level H _{max, the} self-priming pump 11 or 12 is turned off, which supplies water to the buffer tank 10.

The pressure developed by centrifugal pumps 13, 14 is controlled by pressure gauges with digital outputs 29, 30, respectively.

Check valves 31, 32 prevent the circulation of water in a circle, which is formed by the main 21 and reserve 22 water supply lines to the consumer, on which centrifugal pumps 13, 14 are located, respectively.

The buffer tank 10, the supply tank 41 and the make-up tank 42 are equipped with overflow pipes 18, 44 and 46, respectively, and are tied in the lower part with a drainage line 53.

The make-up line 52 ensures that the supply tank 10 is filled with water when the station starts up again.

Management and control of the station is carried out using a control system (Fig. Not shown).

The electrical equipment of the station can operate both from the network and from an autonomous power source.

Block 1 is designed to protect process equipment and control systems from external influences and to ensure comfortable conditions during the maintenance of the station.

Platform 2, made, for example, in the form of a sled, equipped with a coupling device 3, provides the possibility of prompt transportation of the station from one object to another by means of a trailer to wheeled or tracked vehicles. A mobile water intake station can be delivered to remote facilities where there are no alternative water sources other than surface ones, and it is impossible to provide water supply in another way.

A removable underwater intake complex 5, the assembly elements of which include a collapsible water conduit 6 and a fish-intake float protection device 7 with a load 8 and a rope 9 attached to it, are placed in a container (not shown) for transportation or storage and placed inside the station.

The presence of a water intake fish-protecting float device 7 ensures environmental safety without harming the nature of the operation of the station by preventing ingress, injury and death of fry, and young fish in the water supply system when taking water from a surface source.

The device water intake fish protection float 7 with a load of 8 and a cable 9 attached to it have positive buoyancy and anchor fixation, which provide a stationary position of the device water intake fish protection float 7 at a given elevation from the bottom of the water source.

All equipment of the station is automated and does not require the constant presence of staff. The task of the staff includes a periodic visual inspection of the process equipment.

The mobile water intake station is fully operational, does not require foundations and capital construction, as well as additional building structures on the shore.

In the manufacture of the station in the factory, the technological equipment is mounted in a block box, for which it is bolted to the supports welded to the base of the block box. All technological equipment is connected in a common technological chain through flange and threaded connections. When carrying out installation work at the station’s operating site, the flange of the removable underwater intake complex is attached to the flange of the suction line and fastened with bolted connections.

Thus, using the proposed mobile water intake station, a stable supply of water to the consumer from surface sources is ensured as soon as possible at remote sites in areas with different climatic conditions, without harming the environment.

Claims (1)

A mobile water intake station containing technological equipment made with the possibility of mounting in a block box and hydraulic communication with a removable underwater water intake complex, technological equipment includes a buffer tank, a supply tank, a make-up tank, a vacuum tank, self-priming pumps and centrifugal pumps, while the buffer tank is connected to the pumps with self-priming main and backup pressure lines, and is connected to centrifugal pumps the main and backup consumer water lines y, self-priming pumps are connected to a removable underwater intake complex using the main and backup suction lines, the supply tank, the make-up tank and the vacuum tank are connected by a preparatory line, an electromagnetic valve is installed at the output of the make-up tank, and a liquid ring vacuum pump is installed at the output of the vacuum tank, the preparatory line is connected to the main and backup discharge lines through electromagnetic valves, the supply tank is connected by a make-up line to the main and reserve lines injection wells, buffer tank, the tank and consumable make-up tank connected to the bottom of the drainage line, the lines are equipped with shut-off and metering valve.

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