SU731056A1 - Method of reducing liquid temperature in centrifugal pump - Google Patents

Description

one

The invention relates to the field of pump construction.

There is a known method for reducing the temperature of a fluid in a centrifugal pump by increasing the flow rate of the fluid through the impeller during underload conditions 1J.

The disadvantage of this method is the need for a significant increase in fluid flow through the impeller during underload conditions with subsequent discharge of liquid from the pump discharge line, which leads to an increase in the power consumed by the pump, i.e., a decrease in efficiency.

The purpose of the invention is to increase efficiency.

This goal is achieved by the fact that when a pump shaft with an impeller seal is made, the flow rate of the fluid is increased by communicating the inner cavity of the impeller seal with a low pressure source.

The drawing shows a centrifugal pump that implements a method for reducing the temperature of a liquid at underload conditions, a general view.

The pump includes a housing 1, inside of which an impeller 3 with slit seals 4 and 5 is placed on the shaft 2. On the shaft 2 there is an impeller mount 6,

prevents leakage of the pumped liquid at operating conditions, and the seal 7, made, for example, in the form of an elastic cuff.

5 The internal cavity 8 of the impeller seal 6 is connected through a pipe 9 with a shut-off device 10 to a low pressure source (not shown), and the cavity 11 behind the impeller 3 is connected through a pipe 12 to an inlet 13 of the pump.

The method is implemented as follows.

When the pump is running, the input fluid

pipe 13 is fed into impeller 3 and

15 is then removed from the internal cavity of the housing 1 to the consumer (not shown).

Leakage of the working fluid is prevented by means of impeller seal 6, in the internal cavity 8 of which steam pressure is established at operating conditions.

In the nominal mode, the liquid in the pump is heated slightly. In this mode, the locking device 10 is closed.

25 As the flow through the pump decreases, its outlet temperature increases. To reduce the temperature of the fluid in the centrifugal pump in under-load modes, increase the flow rate

39 through the impeller and message

the inner cavity 8 of the impeller seal 6 by opening the locking device 10 with a low pressure source. Due to the pressure differential between the low pressure source and the cavity 8, the steam from the latter is pumped out. Since the heat required to form an additional amount of steam is removed from the liquid, which is in an immersion seal, the latter is cooled. By heat exchange, the fluid that is located in the other internal cavities of the pump is also cooled and, consequently, the temperature of the liquid is reduced on the pump outlet.

The circulation of fluid through conduit 12 improves heat transfer conditions.

The amount of steam evacuated from the bed 8, and consequently, the magnitude of the decrease in the temperature of the liquid in the centrifugal pump, is controlled by the locking device 10.

The described method in comparison with the known allows with the same reduction

fluid temperatures in a centrifugal pump to significantly reduce the flow rate of the bypass fluid, to reduce the power consumed by the pump, i.e., to increase the cost-effectiveness of pump operation under underload conditions.

Formula and 3 about b and e and

A method of reducing the temperature of a fluid in a zeiteturized pump by increasing the flow rate of the fluid through the impeller at underload conditions, characterized in that, in order to improve the efficiency, .

Sources of information received at the moment of learning and exertizis 1. Pateit USA M 3370542, cl. 415--47, 1968.

Claims (1)

Claim A method of lowering the temperature of a liquid in a centrifugal pump by increasing the flow rate of the fluid through the impeller in underload modes, characterized in that in order to increase the cost-effectiveness, when the pump shaft is made with impeller seal, the flow rate of the fluid is increased by communicating the internal cavity of the impeller seal with a low pressure source.