SU1747184A1 - Mud settler - Google Patents

Abstract

Use: for trapping, sedimentation and removal of mechanical impurities in the process of operation of power equipment of boiler houses, thermal centers of buildings. Essence: a central pipe is installed in a gas turbine comprising a housing 1 with an inlet nozzle 2, made of the upper 4 and lower 5 nozzles installed with breaks equipped with plates 6 and 7. Adjustable slots are made in the lower nozzle 5 Outside the upper nozzle 4 there is a damper 8 flow. The heat carrier passes through the holes 9 of the soothing device 8 of the flow, smoothly spreads in the space between the housing 1 and the upper nozzle 4, reaches the generator of the main plate 6 and, changing its direction by 180. passes through the screen filter 10. Being released from large inclusions, the coolant enters the space of the upper nozzle 4 and moves upwards with the velocity of the laminar mode, i.e. small-scale sedimentation occurs here. 2 Il.

Description

The invention relates to power equipment of boiler houses, central heating units and subscriber inputs of buildings for capturing, precipitating and removing contaminants from a liquid.

The purpose of the invention is to increase the degree of purification of the liquid.

In FIG. G shows a mud sump, general view; in FIG. 2 is a section AA in FIG. 1.

The sump for cleaning liquids from contaminants contains a vertically located housing 1 with a side inlet 2 and an outlet 3 nozzles, a central pipe made of upper 4 and lower 5 nozzles installed with a gap and plates 6 and 7 rigidly fixed to them, a flow damper 8 with holes 9, the mesh filter 10. covered with a wire mesh 11, made with unregulated 13 and adjustable 14 slots located at the level of the corresponding slots 15 of the lower pipe 5, mounted to rotate relative relative to the vertical axis. The end face of the filter 10 has a gasket 12. The housing is made with a manhole 16. Cranes 17 for removing contaminants, a stopper 18 for draining sludge and air vent 19.

Mud works as follows.

The coolant entering the housing 1 through the lateral inlet pipe 2 receives a tangential turbulence and intense rotational motion. As a result of this, a centrifugal force arises, which ensures the removal of large contaminants from the stream and their concentration along the generatrix of the body (pollution is indicated by crosses). Large contaminants are removed through the manhole 16.

In order to mitigate the resulting radial, annular and circulating turbulences, a flow damper 8 is provided, which is an annular plate with holes 9 with a diameter of 5 = 10 mm. located in the space between the housing 1 and the upper pipe 4 of the Central pipe. .

The heat carrier, freed from large impurities of the fibrous type (tow, shavings, branches, tapes, etc.) pass through the openings 9 of the flow damper 8 and smoothly flows in the space between the housing 1 and the upper nozzle 4, reaching *. It forms the main plate 6 abruptly, almost by 180 g., changes direction, passes through the strainer 10 with slots 14 and 15 and enters the upper pipe 4 of the central pipe.

With a sharp change in the direction of the medium flow around the main plate 6, inertia forces arise, due to which sedimentation particles are deposited. Removing medium particles of contamination is carried out through taps 17.

In the process of operation of heat supply systems with open water, there is a significant increase in consumption for hot water supply in comparison with the calculated values.

Therefore, it is quite possible to remove already settled contaminants from the bottom of the case again into the network due to an unpredictable increase in the flow of coolant. In order to reduce the removal of settled dirt, an additional plate 7 is installed, in the cavity of which, on the lower pipe 5, slots are not provided.

The coolant, freed from large and medium impurities, enters the space of the upper nozzle 4 and moves from bottom to top with the speed of the laminar regime, as a result of which, due to the difference in gravitational and buoyancy forces, fine impurities are deposited. These contaminants are removed through plug 18.

Thus, an increase in the degree of purification of the medium is achieved due to the separate deposition of pollution particles of a different size, shape and origin, which eliminates the mutual influence of each other in the process of separation from the stream and, as a result, provides an increase in the efficiency of the mud collector.

To regulate the degree of purification of the environment from pollution during operation, for example, during the repair of the system or changes in the technological process, a throttling of the flow is provided by overlapping the slots 14 of the lower pipe 5 with slots 15 (the new position is shown by the dotted line 1 (e) of the strainer 10. In this case the flow rate of the medium decreases at the entrance to the cavity of the central pipe and, as a result, the degree of purification of the medium from pollution increases further.

For the periodic removal of air, steam and gas accumulations, an air vent 19 is provided.

An additional degree of purification of the medium from mechanical impurities in comparison with the known constructions of mud collectors is obtained due to the guaranteed stabilization of the medium flow during the stage-by-stage reduction of its flow rate by separate deposition of heterogeneous particles of contaminants, which eliminates the appearance of turbulent pulsations from the precipitating particles and their influence on the completeness of cleaning. In this case, the main cleaning factors are used alternately - centrifugal, inertial and gravitational forces, which contributes to an increase in the degree of purification and. as a result, an increase in the overall efficiency of the sump.

To reduce the removal of already settled contaminants, an additional plate is provided with no slots in the pipe 5 of the central pipe.

To periodically increase the degree of purification of the medium from pollution during operation, it is possible to throttle the flow of the medium by blocking the slots of the lower pipe with slots of the strainer by turning it around the vertical axis.

It is possible to use a sump in any sector of the national economy, both at the stage of designing new facilities, and instead of the typical sumps installed at existing facilities.

Claims (1)

Claim The sump containing a housing with inlet and outlet nozzles, a central pipe with plates and adjustable holes. Inner tube, with slots corresponding to the slots of the central pipe, and installed with the possibility of rotation relative to the vertical axis, characterized in that, in order to increase the degree of purification by separate deposition of dissimilar particles of contaminants, it is equipped with a flow damper, the central pipe is made of the upper and the lower nozzles installed with a gap, while adjustable slots are made in the lower nozzle, and the flow damper is installed outside the upper nozzle.