SU1200934A1 - Settler - Google Patents

Abstract

A SEPARANT, including a cylindrical housing, a tangential pipe for supplying the initial fluid, a catchment system consisting of a tray with a weir, and a flow divider, characterized in that, in order to catch coarse fractions, reduce sludge moisture and improve working conditions, it is equipped with a coaxial shell, a conical diaphragm installed outside the shell with the possibility of vertical movement, and a dispersed fluid inlet assembly located inside the shell, with a flow divider located in -the lower part of the body. i (lu so

Description

The invention relates to water treatment and can be used for wastewater treatment of metallurgical enterprises, for example, gas purifiers of converters and other industries.

The aim of the invention is the capture of large fractions, reducing moisture sludge and improving working conditions.

In FIG. 1 presents a sedimentary tank, general view; in FIG. 2 — section A — A in FIG. 1.

The sump contains a housing 1 with a tangential pipe 2 for supplying the source liquid of the drainage system, consisting of a tray 3 for draining clarified water, a separation wall 4, separating the tray 3 from the inside of the sump, the inner coaxial shell 5, and a grab crane 6 with a slurry dewatering hopper 7. Radial overflow trays 8 are adjacent to the windows in the dividing wall 4. The drain pan is blocked by a stove 9.

Outside of the shell is a conical diaphragm 10, mounted with the possibility of vertical movement. Inside the shell 5 is placed the node 11 of the dispersed water inlet, which can be made in the form of a torus with a slit or in the form of several nozzles connected to an annular collector. The divider 12 is located in the lower conical part of the housing I and is a radial partition, for example, triangular or in the form of blades.

A clamshell valve 13 is installed above the sump. A fan 14 is provided for suctioning gas from the tray.

The sump works as follows.

The initial liquid enters the housing 1 through the tangential pipe 2. In the gap between the housing 1 and the shell 5, large particles and a part of the fine fraction fall out. Water rises, through the windows in the separation wall 4 enters the radial trays 8 and overflows through their sides, forming a significant surface area of the liquid phase, which favors the release of carbon monoxide from the water.

Carbon monoxide, together with air, is removed to the atmosphere by a fan 14. Water from the catchment tray 3 is fed for further purification.

_{5 The} divider 12 prevents the transfer of fluid rotation from the outer zone of the shell 5 to the inner zone, which significantly reduces the mass transfer between these zones. Due to this, water saturated with carbon monoxide does not get ¹⁰ from the outer zone into the shell. In addition, the operation of the clamshell crane is improved due to the exclusion of the effect of its twisting. The water supplied through the dispersed inlet assembly 11 creates a flow 15 opposite to the direction of diffusion of carbon monoxide, which completely prevents the latter from entering the room 6 of the clamshell crane 13.

At the same time, when water rises in the narrow part of the gap between the housing 1 and the diaphragm ²⁰ mine 10, the precipitating solid phase is classified, and the fine fraction that prevents dewatering of the sludge is washed and taken out to tray 3, from where the processed liquid is fed 25 for further cleaning. The placement of the divider 12 in the lower part of the casing and the ability to move the diaphragm in the vertical direction provide for the adjustment of the gap between the conical part of the casing and the lower end 30 of the diaphragm, which, in turn, allows you to create the ascending water velocity necessary for classification at a given water flow rate.

Classification of the precipitate is carried out to ensure its rapid dehydration in the hopper ^35.

A large fraction falling to the bottom of the sump is loaded with a clamshell crane 13 into the hopper 7, from where it is removed and taken out after dewatering.

The presence of a conical diaphragm allows you to reduce the gap between the conical part of the body and the lower end of the diaphragm and thereby reduce the flow of water supplied to the classification.

VNIIIPI Order 7892/4 Circulation 658 Subscription

Branch of the PPP "Patent", Uzhhorod, st. Project, 4

Claims (1)

Sump, including a cylindrical conical housing, a tangential pipe for supplying the initial liquid, a drainage system consisting of a tray with a spillway, and a flow divider, characterized in that, in order to capture large fractions, reduce sludge moisture and improve working conditions, it is equipped with a coaxial shell, conical a diaphragm mounted outside the shell with the possibility of vertical movement, and a dispersed fluid inlet assembly located inside the shell, while the flow divider is located in the lower body parts. >