SU1733712A1 - Multistage steam-ejector vacuum pump - Google Patents

Abstract

The invention relates to vacuum technology and improves the performance of a multi-stage steam ejector vacuum pump by increasing the stability of its operation when the parameters of the system deviate from their calculated values and allow the created vacuum to be controlled by adjusting the flow rate of the condensate being sprayed. The invention also makes it possible to reduce the size and material consumption of the capacitors included in the pump. Spraying condensate in the working volume with co x | U Fl 4

Description

of the condenser 2, directly in front of the entrance using the sprayer 3, allows the gas-vapor mixture coming from the ejector 1 to be brought to a saturated state, which increases the heat transfer coefficient between the gas-vapor mixture and the cooling surface of the condenser 2. Controlling the amount of condensate fed to the condenser 2 of the pressure tank 5, can be carried out depending on the readings of the pressure sensor 10 or the temperature sensor 9. That allows maintaining the residual pressure edelennoy value or its minimum value of 2 n, respectively. f ly-2-yl.

The invention relates to vacuum technology, in particular, to ejector vacuum pumps.

The aim of the invention is to improve the performance of a multi-stage steam ejector vacuum sys- tem by increasing the stability of operation when the system parameters deviate from the calculated values and provide the possibility of controlling the created vacuum.

FIG. 1 is a diagram of a steam ejector vacuum pump with a condensate sprayer located in the pipeline before entering the surface condenser; Fig. 2 - the same, with the condensate sprayer located in the working space of the condenser.

A multistage steam ejector vacuum pump contains steam jet ejectors 1, a surface condenser 2 located between the tector stages of a condenser condenser 3, located in the inlet pipe of the condenser (figure 1) or in the working volume of the condenser 2 (figure 2) barometric well 4, pressure tank 5. pump 6 , piping 7. valve 8 temperature sensor 9 located at the outlet of the condenser, and pressure sensor 10 located at the inlet of the pumped medium to the ejector stage 1, the output of which is connected to the inlet of the cond nsator 2

Multistage steam ejector vacuum pump operates as follows.

The nominal flow rate of cooling water through the surface condenser 2 and the nominal flow rate of the working steam entering the ejector stages 1 is established. The valve 8 provides the necessary flow rate of condensate water supplied to the sprayer 3. If necessary, a constant residual pressure should be obtained. pressure sensor 10, and if necessary to ensure the minimum residual pressure - according to the sensor

temperature 9, recording the deviation of the temperature of the vapor – gas mixture from the surface condenser from the predetermined value (the dew point temperature at the initial moisture content of the vapor – gas mixture) from the surface condenser.

When using the invention, the gas-vapor mixture in the whole working volume of the surface condenser is in

Due to this, a high heat transfer coefficient is provided on the entire area of the heat exchanging surface, whereas in the prototype a considerable area of the heat exchanging surface, namely in the cooling zone of the superheated gas-vapor mixture to the dew point, is much lower. This reduces the size and material intensity of the condenser. .

Claims (3)

Claim 1. A multi-stage steam ejector vacuum pump comprising at least two series-connected steam jet ejectors and at least one surface condenser mounted between the ejectors and equipped with a barometric tank for draining condensate, characterized in that to improve performance by increasing the stability of work when the system parameters deviate from the calculated values and to enable the depth of the created vacuum, the pump is equipped with a pressure sensor mounted on the ejector located in front of the condenser, a temperature sensor installed at the outlet of the condenser, a condensate spray and the condensate supply system, which includes a water pump, a pressure tank, a control valve and connecting pipes, the water pump being connected pipelines with a barometric well and a pressure tank, and a regulating valve is installed on the pipeline connecting the pressure tank and the condensate dispenser 2. The pump of claim 1, wherein 3. Pump pop 1, different the fact that the spray condensate is set to 50 topics. that the condensate dispenser is installed before entering the condenser. in the condenser working space.  - four /