SU961733A1 - Method of pumping solution in multieffect evaporation plant by air-lift - Google Patents

Description

The invention relates to evaporation technology and can be applied in evaporation plants in which the differential pressure of the secondary vapor between the bodies does not allow the solution to flow freely from the body to the body.

In modern multi-unit film evaporators, the solution from the body to the body is pumped using pumps 1.

This method has a significant disadvantage in the case of a significant change in the amount of the solution entering the evaporation, since with a given operation mode, the pump capacity varies within small limits.

Evaporator units are known in which the pumping of the solution between the hulls is carried out according to the airlift principle using continuous supply of heating steam to the solution 2.

There is a known method of pumping the solution from the housing to the evaporator housing by an airlift, in which the solution passes through the hydraulic valve and into one of its branches, through the ejector, the heating steam from the previous housing 3 is continuously supplied.

With this method of pumping a solution, a decrease in its concentration occurs due to condensation of a part of the injected steam and an increase in the consumption of heating steam to evaporate excess water from the solution in the next housing. The clogging of the ejector nozzle leads to a malfunction of the installation.

ten

The purpose of the invention is to reduce the consumption of heating steam in the evaporator.

The goal is achieved by the fact that according to the pumping method

15 of a solution in a multi-unit evaporator using an airlift that includes creating a differential pressure of secondary steam between the bodies, passing the solution through a hydraulic

20, the shutter and the supply of heating steam into it, the supply of heating steam into the solution is performed periodically with a drop in the pressure difference between the housings, and the solution is heated

25 by superficial contact with the heating steam.

To heat the solution above its boiling point, in the previous building the heat exchanger has an evaporator. The height of the heat exchanger is chosen depending on the mode of operation of the plant. In case of a drop in the pressure difference of the secondary steam between the buildings, the heating steam is supplied to the solution to increase the efficiency of the airlift before it enters the heat exchanger.

The drawing shows schematically a film evaporator installation.

The installation includes film evaporators 1.2, heat exchanger 3 ejector 4, hydraulic shutter 5, valve 6 for supplying steam to the ejector, valve 7 for supplying steam to the heat exchanger, sensor 8 (upper level indicator), sensor 9 (lower level indicator;.

The scheme works as follows.

When the installation is operated in evaporators 1 and 2, the specified differential pressure of the secondary vapor is maintained and is balanced by the liquid column in the hydraulic gate 5 and the heat exchanger 3, while its level does not reach the sensor 9. With partial opening of the valve 7 by heating the solution in the heat exchanger 3, the solution boils at the exit of the heat exchanger when the pressure in the right branch of the hydraulic gate 5 decreases. Under the action of a denser non-boiling solution in the left branch of the hydraulic gate boiling in the right th branch hydraulic seal less dense, solution flows into the evaporator 2. In case of a slight difference in reducing the vapor pressure in the evaporators 1 and 2 and 9 to achieve solution sensor valve 7 is fully opened and the steam in the heat exchanger 3 is increased. This provides a more intense vaporization in the solution layer and a decrease in its density, which leads to an increase in the flow rate of the solution through the airlift.

When reaching the solution in the evaporator 1 sensor 8 in the case

a significant decrease in the vapor pressure difference in the housings or an increase in the amount of solution entering the evaporation opens valve b and the heating steam from the evaporator 1 enters the ejector 4. Mixing the vapor with the solution provides a significant decrease in the solution density in the right branch of the hydraulic gate and a decrease the level of the solution in the evaporator 1. When the solution 9 of the solution reaches 9, the valve 6 closes and the steam supply to the solution stops.

The use of the present invention in the scheme of a multi-stage film evaporator allows one to reduce the power consumption for pumping the solution, to increase the uniformity of the irrigation of the buildings with a solution with a variable extraction of the extra steam from the evaporator, which will increase its performance.

Claims (3)

1. US patent number 3356125, cl. 159-49, 1964. 2. USSR Author's Certificate No. 292338, CL-. At 01 D 1/06. 3. The patent of Sweden No. 181396, cl. 12a, 2, 1962 (prototype).