SU1530820A1 - Method of protecting centrifugal blower from performance disruption - Google Patents

Abstract

The invention relates to a hydraulic and aeronautical engineering and is intended to increase the reliability of the protection of the supercharger against disruption caused by cavitation, surging, etc., when pumping a medium with variable density. During the operation of the blower, the flow rate and density of the medium are measured, as well as the pressure drop across the injection and suction lines, then the pressure of the blower and time derivatives of flow and pressure are determined, their signs are compared and, if the latter coincide, they produce a signal for changing the operating mode supercharger. False actuation of protection is prevented, for example, while simultaneously changing the density of the medium and the resistance of the discharge line. 1 il.

Description

The invention relates to a hydraulic machinery industry and can be used to protect a centrifugal paddle from stalling caused by cavitation, surging or gas flow to the liquid.

The purpose of the invention is to increase the reliability of protection when working in environments with variable density.

The drawing shows a diagram of the device by which the blower is protected from stall, illustrating the proposed method.

A device for carrying out a method for protecting a centrifugal blower from stalling includes a pressure sensor I mounted on a pressure line 2 of a centrifugal pressure blower 3, a pressure sensor 4 mounted on a line 5

suction, flow meter 6, adder 7 with sensors 1 and 4, consistometer 8 for measuring the density of the medium, dividing block 9 for determining the ratio of differential pressure signals and density and calculating the pressure, blocks 10 and II for differentiating the signal respectively for pressure and feed , the multiplication unit 12, to the inputs of which Г, the differentiation units 10 and 11 are connected, and the output is connected to the comparison unit 13. From the output of the latter, a signal is sent to the executive body 14, for example a valve, which changes the characteristic of the pressure head - pipeline (not marked).

The way to protect the blower centrifugal disrupter is as follows.

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When centrifugal blower 3 is operated, the flow rate of the pumped medium is measured by flow meter 9, and sensors 1 and 4 measure the pressure on the suction line and discharge line 5 and 2, In adder 7, the pressure drop on the suction line 2 and 5 is determined. In addition, the density of the pumped medium is measured by means of a consistomer 8 and the signals from the latter and the adder 7 are fed to dividing unit 9, where a signal proportional to the pressure developed by the supercharger 3 is outputted.

In blocks 9 and 10, the signals are differentiated in terms of flow and head, respectively, and then the signs of the derived derivatives are compared, for example, by multiplying them in block 12 and comparing the result with zero in comparison block 13.

In the event of breakdown modes (cavitation, surging, gas breakthrough into liquid), the signs of the time derivatives of media consumption ;. and the head will match, which will be noted by the comparison unit 13, which generates the corresponding signal that controls the mode of operation of the supercharger 3,

Using head developed by supercharger 3, as a second

the characteristic parameter instead of the pressure drop eliminates false positives of the protection when the density of the pumped medium changes, for example, while reducing the density and increasing the resistance of the discharge line 2.

Claims (1)

Invention Formula A method of protecting a centrifugal blower from disrupting work, including measuring the flow rate of the pumped medium and the pressure drop on the discharge lines and suction of the blower, determining the time derivatives of the flow rate and the characteristic parameter depending on the measured pressure drop, comparing the signs of derivatives and when they match the signal output controlling the operation of the supercharger, characterized in that, in order to improve 1 reliability when operating on media with variable density, the latter are additionally measured w, m values of density and pressure drop calculated pressure value developed by the supercharger, and is used as a characteristic parameter of the said pressure value