SU1347620A1 - Bed for investigating non-stationary thermohydraulic processes - Google Patents

Abstract

The invention can be used to study the heat transfer surface mode under hydrodynamic instability conditions and simulate emergency cooling of power plants. The purpose of the invention is to increase the reliability and durability of work by eliminating the influence of pulsations on the equipment of the stand. For this, the hydropulsator (GP) 4 is made with two output connections (P) 6, 7, the input of the experimental section (EI) 3 is connected to the output P 6, and through valve 8 to the input P5HP4, aP6i7 are interconnected after the EI. During the rotation of the spool GP from P 6, the oscillating flow passes through EI 3, and from P 7 - oscillating flow with it in antiphase. The flows are connected after the EC, which ensures the constancy of the total flow. If necessary, the opening of the valve 8 provides a constant component of the flow rate through the EC. 2 Il. (L oo 4 vj o o tPuit

Description

one

The invention relates to an experimental technique for studying the temperature regime of surface heat transfer in conditions of hydrodynamic instability and simulating emergency cooling of power plants,

The purpose of the invention is to increase the reliability and durability of work by eliminating the influence of pulsations on the equipment of the stand.

Figure 1 shows the scheme of the stand; in FIG. 2, a hydropulsator, a longitudinal section.

The stand contains a pump 1, a heat exchanger 2, an experimental section 3, a hydropulsator 4 with inlet 5 and outlet 6 and 7 nozzles and a valve 8. The hydropulsator 4 includes a housing 9 with a spool 10 connected to the shaft 11 of the electric motor 12, and a device 13 for regulating the through passage section. A booster system 14 is connected to the stand.

The stand works as follows.

The pump 1 supplies the coolant to the nozzle 5 of the hydropulsator 4 (valve 8 is closed). When the spool 10 rotates from the electric motor 12 in the pulsator 4, the flow is divided into two, oscillating in antiphase. From pipe 6, the oscillating flow passes through the experimental section 3 and is connected to the flow passing through pipe 7. Thus, the total flow through the circuit remains

constant. With the litter of the electric motor 12 and the device 13, the frequency and amplitude of the coolant oscillations can be changed from zero to the maximum desired heat.

In the event that a constant flow component is required through the experimental section 3, valve 8 is opened, which establishes the constant flow component through section 3.

Claims (1)

Invention Formula Stand for the study of non-stationary thermal-hydraulic processes, containing a pump, thermal hydraulic equipment, experimental site and a hydropulsator with inlet and outlet nozzles, distinguished by the fact that, in order to increase the reliability and durability of operation by eliminating the influence of pulsations for the stand equipment, the hydropulsator is made with two output channels dividing the flow into two oscillating in antiphase, the experimental section is connected to one of the output nozzles, the input nozzle of the hydropulsator is connected to the input of the experimental section through an additionally installed valve, outlet pipes of the hydropulsator are interconnected after the experimental site. TO VNIIPI Order 3389 Circulation 652 Subscription Random polygons pr-tie, Uzhgorod, st. Project, 4 FIG. 2 Subscription