SU1599738A1 - Method and apparatus for determining extrapositive suction head of liquid reserve - Google Patents

Abstract

The invention relates to instrumentation engineering, in particular, to methods and devices for determining the excess liquid reserve, and can be used in liquid product systems and in refrigeration technology. The purpose of the invention is to simplify the definition, as well as to increase its accuracy and information content. A portion of the fluid from the pipeline is continuously passed through a heated tube whose temperature exceeds the boiling point of the fluid at the pressure in the pipeline. The temperatures of the fluid in the stream and in the zone of the vapor-liquid mixture are measured, from which the above-cavitational reserve of fluid is determined. The device contains a tube, the input and output parts of which are located in the same vertical section of the pipeline. The tube may be located both inside and outside the pipeline, depending on the nature of the fluid. A capillary-porous coating is applied to the inner surface of the tube. 3 il.

Description

The invention relates to instrumentation engineering, in particular to the determination of the excess liquid reserve, and can be used in liquid product systems and in refrigeration technology.

The aim of the invention is to simplify the definition as well as to increase its accuracy and information content.

Fig, 1 shows the device with the placement of the tube pipe twist; in fig. 2 - the same tube

placed inside the pipeline; in fig. 3 - the same on the inside of the top. A capillary-porous coating is placed on the tube.

The device contains a heat-insulated pipeline 1, the tube to which tube 2 is connected,

I is heated by a heat source whose temperature exceeds the boiling point of the liquid at pipeline pressure. In the pipeline 1 and in the zone 3 of the tube 2 are placed thermo

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1, elements 4 and 5 of the differential: thermal sensor 6 connected to the potentiometer 7. The tube 2 can be placed inside the pipeline and is covered with thermal insulation. The tube 2 may be connected to the pipeline at one end, the second end of the tube is silenced. A capillary-porous Q coating is placed on the inner surface of the tube.

Claims (4)

I The method is carried out as follows. During the operation of the pipeline, 1 part of the liquid is continuously jj: it is flowed by gravity through tube 2. Due to the heat supply from the outside medium (Fig. 1) or from the heater (Fig. 2), the liquid in the tube heats up to form a vapor-liquid mixture in which returns back to the pipeline. The circulation rate is set in proportion to the amount of heat supply to the tube. With the help of the thermocouples A and 5 thermocouples, the temperatures of the axial flow and the equilibrium saturation temperature of the liquid at the working pressure are measured (zone 3 of the vapor-liquid mixture of tube 2). The location of the inlet and outlet of the pipe-: ki (Fig. 1 and 2) in one I.TOM, the same perpendicular cross-section of the pipeline eliminates the influence of pressure differences along the length of the pipeline on the circulation of the liquid. When using a capillary-porous coating on the inner surface (Fig. 3), the circulating force is him to get married. FORM OF THE INVENTION 1. A method for determining the accumulative liquid reserve, including 1 20 25 thirty 35 j 0 five 0 five obtaining a vapor-liquid mixture of the same composition and determining the difference between the parameters of the fluid in the stream and in the mixture obtained, which, in order to simplify the determination and accuracy of informativity, part of the fluid flow is removed at the pressure of the pipe supply to a temperature that exceeds the boiling point at a given pressure, and return to the pipeline, and as the recorded parameters use the temperature of the liquid in the stream and in the zone of the vapor-liquid mixture.; -.,. - 2. A device for determining the superfluid liquid supply containing a pipeline and sensors for recording fluid parameters, characterized in that it additionally contains a heating source and a tube, the inlet and tube of which are connected to the pipeline and are located in the same perpendicular section pipe, the outer surface of the tube is in contact with a heat source, and a differential thermal sensor is used as a recording sensor, one of the sensitive elements of which is located in pipe line and the other in the tube. 3. The device according to claim 2, characterized in that the tube is located inside the pipeline, and the heating source is insulated by heat insulator. 4. The device according to claim 2, characterized in that one of the ends of the tube is plugged, and a capillary-porous coating is placed on its inner surface. Fia.Z Compiled by S. Kharlamov Editor T. Parfenova Tehred L. Oliynyk Proofreader p. Cherni Order 3138 Circulation 495 VNISh of the State Committee for Inventions and Discoveries at the USSR Committee on Scientific and Technical Information 113035, Moscow, Zh-35., 4/5, Raushsk nab. Production and Publishing Combine Patent, Uzhgorod, st. Gagarin, 101 Subscription