SU727936A1 - Jet arrangement for protecting pipeline from hydraulic shocks - Google Patents

Description

wires from water hammer, longitudinal section; in fig. 2 is a section A.-A in FIG. 1.

The device includes a supply diffuator-confused nozzle 1 with an inlet section 2, transitions with an extended section 3 and a smooth curvilinear wall 4, an interstock chamber 5 and a receiving diffg fuzz-confused nozzle 6 with a transitional expanded section 7, an output 10 section of smooth and curvilinear nozzle 6 wall 9. The areas of inlet 2 and outlet 8 sections, as a rule, are equal to the cross-sectional area of the pipeline.

Device for protection against hydraulic-15 blows works as follows.

Under normal flow conditions in the pipeline, the liquid flows out of the jet from the feed nozzle 1 and is directed to the secondary nozzle 6 through the interstock chamber 5 20 5. The jet velocity is chosen so that the required overpressure is provided in the intersublock chamber. In the event of a hydraulic shock, under the action of a back pressure wave, a return jet arises in the receiving tip, which moves in the opposite direction to the direct jet flowing out of the iodine nozzle. As a result, all the energy of the hydraulic shock is expended on the interaction of the jets 30 in the inter-nozzle chamber and the excess pressure does not propagate through the feed nozzle into the piping system. An intersoil chamber may, for example, communicate with a reservoir (not shown in the drawing), where the liquid is withdrawn under the action of the excess pressure that occurs in it during a water hammer.

The liquid flow through the jet actuator during normal operation depends on its hydraulic resistance, i.e. from unseparated flow in the feeding and receiving nozzles.

The existing calculation methods do not reliably determine the curvilinear boundary separating the main flow region from the separated flow region, and therefore the wall profile of the proposed device can be determined, for example, in the following way.

In the hydraulic separation channel, which is a modeling device, they create the necessary initial and boundary conditions, which are conditions of uniqueness, while respecting the geometric, kinematic and dynamic conditions. The flow pattern in the simulator is photographed in polarized light with steady state flow and a fixed pressure drop. According to the photograph, m is collected Qualistic of tear-off and main currents. The visualized averaged boundary of the main and separated flows, along which the velocity gradient is zero, is replaced by a solid wall.

The technical and economic effect of the implementation of the Invention is achieved by reducing the length and, therefore, the metal consumption of the device, as well as by reducing the energy loss on it. Thus, it has been found that with a pressure drop across the device, it is equal to 2.0 m of a level of liquid, its length in comparison with the length of the known device decreases from 7400 to 534 mm, i.e. by 2O60 mm or 1.38 times, moreover, pacxoj; through a device at a given fixed pressure drop due to a decrease in energy loss, increases by 6.3%.

Claims (1)

Invention Formula Jet device for protection of pipelines from water hammer, including successively installed feeding diffuser-confused nozzle with a smooth curvilinear wall, intercooler chamber with discharge channels and receiving diffuser-confused nozzle with a smooth curved wall, which is different in order to reduce the flow energy loss and reduce the length of the device, in it the transitional extended sections of the supply and receiving nozzles are located relative to the input section of the feeding nozzle at a distance corresponding to No more than 1.7 and 6.2 diameters of this input section, and the ratios of the areas of the transitional extended sections to the area of the input section of the feed nozzle are at least 1.8 and 1.1, respectively.