SU1722627A1 - Method of sludge removal - Google Patents

Abstract

The invention relates to the transportation of metal-containing sludges of metallurgical aggregates (rolling and pipe rolling mills, continuous steel casting plants, etc.) to the units preparing these sludges for disposal. The purpose of the invention is to reduce capital and operational costs and improve the quality of cleaning. The essence of the method is the sequential transportation of the sludge by hydropod of the liquid along the path to the sump. The peculiarity of the method is that liquid is supplied discretely by jets into a closed moving volume alternately in adjacent areas at the moment of sludge loosening with a mechanical brush moved along the path. This technique makes it possible to create suspended pulp from sludge, easily moved along the path, and to reduce the consumption of liquid during cleaning. 2 Il.

Description

The invention relates to the transportation of metal-containing sludges of metallurgical aggregates (rolling and tube rolling mills, continuous casting plants for steel, continuous casting plants, etc.) to the aggregates for preparing these slimes for disposal.

The aim of the invention is to reduce capital and operating costs and improve cleaning quality.

This goal is achieved by the fact that fluid is jetted discretely into a closed moving volume formed in the path, alternately in adjacent areas at the moment of mechanical loosening of the sludge in this volume.

Discrete fluid supply into a closed moving volume in front of a metal brush allows you to create

a significant increase in the pressure generated by the pulp here compared to the conventional method of shl. This in turn provides greater speeds of movement of the concentrated pulp due to the occurrence of local slopes, with the result that a significant amount of sludge is transported by a small amount of liquid.

Discrete alternate water supply at the sludge disposal point saves the water used for flushing, and a significant slurry slurry concentration allows the sludge primary sedimentation tanks to be reduced tenfold and several times the slab of how. sedimentation tanks and water wash trays.

When organizing sludge removal in the traditional way in some cases

apply (in order to reduce water consumption) a discrete (in time) water supply to induce the movement of the pulp in the washout trays.

However, the water quickly spreads over the tray and the speed of the pulp does not increase significantly.

The delivery of fluid at the moment of mechanical loosening of the bottom sediment of the sludge in the path increases the efficiency of the process of sweeping away this sludge and, consequently, moving it along the path towards the primary clarifier. This is due to a sharp decrease in the volume weight of a portion of the sludge in the water.

The supply of liquid with the jets directed towards the moving surface of the brush gives the effect of soiling a part of the sludge, which makes the resulting concentrated pulp more mobile (easily movable).

Fig. 1 is a schematic diagram of the sludge removal process; in fig. 2 is a velocity distribution diagram of water and pulp vectors.

The method is carried out as follows.

Liquid is pumped into the closed moving volume 1 by a stream 2. At the same time, the closed volume 1 is filled with pulp formed by mixing the liquid with a scale, rotating brush 3 and jets 2. At the same time, a partial flow of pulp from volume 1 to the adjacent region of cavity 4 slime through the slit 5 with the formation of a layer of pulp. Moreover, the head Hi in the closed object 1 is greater than the head On, Due to the difference in head Hi and H2, the slope of the pulp surface increases, which favors the movement of the sludge in the form of a concentrated pulp.

The fluid supplied in the form of jets 2 into the closed movable volume 1 fills it, at the same time entraining particles of sludge accumulated on the bottom 6 of the removal path. At the same time, the rotating brush 3 rejects the formed pulp up and forward (along the way) the linear movement of the brush 3) and prevents the pulp (and water) from penetrating into the space 7 behind the brush 3. At the same time, the sectors of the speeds of the jets 2 forming as a result of the action of the rotating brush 3 and the difference in pressure

Hi and H2, acquire a fan-like character. Such a hydrodynamic pattern creates favorable conditions for the growth of sludge particles in a liquid. In turn

this allows a more concentrated pulp to be moved than with the traditional washout method.

Primer p. Sludge removal from machines continuous casting method

washout required the installation of washout trays with a maximum laying depth of up to 5 m (from the surface), construction of a primary scale sedimentation tank with a diameter of 30 m and a depth of 12.5 m.

To reduce the estimated cost of building and operating costs, the use of this

way. .

A slurry path was designed with a gradient of 0.005, with the result that the maximum depth of laying was equal to 3.2 m. This required a primary sedimentation tank of scale with a diameter of 28 m and a depth of 6.5 m.

For the period of operation, water was required to hydrate the scale with a flow rate of 0.6 thousand m / h.

To move the concentrated slurry slurry, a device is provided comprising a rotating brush mounted on

the carriage with the possibility of reciprocating movement along the path of sludge removal.

The application of the proposed method for descaling from continuous casting machines reduces capital and operating costs. FORUMAWLAH AND ISLANDS

The method of sludge removal is predominantly from the rolling mill, including the sequential creation of a liquid backwater along the length of the path for the hydrotransportation of the sludge into the sump, which, in order to reduce capital and operating costs and improving the quality of cleaning, the fluid is jetted discretely into a closed moving volume formed in the path, alternately in adjacent areas at the moment of mechanical loosening of the sludge in this volume.

ALSH

Claims (1)

Claim The method of sludge removal mainly from the rolling mill, including the sequential creation of a liquid back-up along the length of the path for hydrotransporting the sludge to the sump, which requires that, in order to reduce capital and operating costs and improve the quality of treatment, the liquid is supplied jets discretely into a closed moving volume formed in the tract, alternately in its adjacent areas at the time of mechanical loosening of the sludge in this volume. FIG. 2