SU1257363A1 - Heat-supply system - Google Patents

Description

112

The invention relates to heat and power engineering and can be used in district heating systems.

The purpose of the invention is to increase reliability by reducing pressure during hydraulic shocks.

The drawing is a schematic diagram of the heat supply system.

The heat supply system contains a damper tank 1, connected by a water volume 2 to the return pipeline 3 of the supply water in front of the pump 4, and in gas volume 5 to the discharge pipe 6 equipped with a safety valve 7, after which the injector 8 is installed, the receiving chamber 9 of which is connected to the water volume 2 damping tank 1 with an additional line Yu equipped with a relief valve 11 „

The heat supply system also contains a heater 12 and a heat consumer 13, and the damper tank 1 is connected by a line 14, equipped with a level controller 15, to a gas cylinder 16. The relief valve 11 is equipped with a pulse sensor 17 connected to a pump 4 "

The system works as follows. The reflected hydraulic pressure wave through the return pipeline 3 propagates in the water volume 2 of the tank 1 o. In the tank 1, the pressure wave is damped: its amplitude decreases and the period increases. This process is accompanied by the displacement of water from volume 2 and the compression of a gaseous medium, such as carbon dioxide, in the gas volume 5.

When the pressure reaches the trigger setting value, the discharge valve 11 opens automatically and water is discharged from the water volume 2 under the pressure of carbon dioxide in the volume 5. At the same time, the water pressure in the volume 2 may decrease or increase depending on the magnitude of the water hammer.

When the pressure reaches the setting value of the safety valve 7, the safety valve 7 opens automatically. At the same time, gas and water are discharged simultaneously

VNIIPI Order 4902/34 Circulation 649 Subscription

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injector 8. In the latter case, an increase in the rate of flow of water from the water volume 2 through the discharge valve 11 is achieved due to the injecting effect achieved in the injector 8. The flow of gas from the volume 5 contributes to an increase in the damping capacity of the tank 1 in the water displaced from the volume 2.

With a sudden stop (during de-energizing) of the network pumps 4, a control signal is sent to the sensor i7 and the valve 11 opens with the c-throw, which results in an increase in the speed of the system.

. When the water pressure in the return pipe 3 decreases to the specified values, the safety valve 7 and the waste 11 automatically close, and the water level in the tank 1 is automatically set by the regulator 15, which controls the supply of carbon dioxide from the cylinder 16 to volume 5.

The calculations of the system subject to the fact that with the diameter of the tank 1 equal to 1.3-2 diameters of the protected return pipeline 3, the height of the gas volume 5 equal to 2-3 heights of the water volume 2, and if the safety valve 7 and waste 11 are properly set up, a combined automatic damping and collapse of a water hammer equivalent to the total water pressure in the inlet and outlet pipelines (Rdin kgf / cm), up to the pressure value

laziness that does not exceed the maximum allowable (6 kgf / cm2) by the condition of reliable operation of consumers 13 heat to the return pipelines 3 operating in the operating mode at pressure

1.5-3 kgf / cm. t

Thus, the heat supply system provides damping of hydraulic shocks and a decrease in the amplitude of pressure waves by displacing water into the tank; an increase in the period of wave leakage up to a time sufficient for the operation of the safety valves; collapse of pressure waves by discharging water from the tank; accelerating the collapse and damping of the pressure wave by discharging water and gas from the tank through the injector.

Claims (1)

HEAT SUPPLY SYSTEM, containing a damper tank connected by a water volume to the return pipe of the mains water in front of the pump, and gas to a discharge pipe equipped with a safety valve, characterized in that ·, in order to increase reliability by reducing pressure during hydraulic shocks, in the discharge pipe after the safety valve, an injector is additionally installed, the receiving chamber of which is connected to the water volume of the damper tank by an additional line,. equipped with a relief valve. 257363 1 12