RU64529U1 - INSTALLATION FOR THE COLLECTION AND ISSUE OF HOLLOW MICROSPHERES - Google Patents

Abstract

The utility model relates to equipment for collecting microspheres from the water surface of ash dumps of coal-fired thermal power plants. The essence of the technical solution consists in the use of a system for collecting and separating hollow microspheres, comprising a receiver mounted on 4 racks, a pulp pump and a raw microsphere loading unit interconnected by pipelines. The developed design of the receiving device allows you to achieve a technical result, which is expressed: 1. in the removal of hydraulic resistance associated with the loss of pressure when the flow of pulp runs onto an obstacle (no thresholds, valves), as a result of which the productivity of the installation increases. 2. in averaging the concentration of pulp, due to the circulation of the pulp stream, which contributes to the elimination of "traffic jams" and the stable operation of the pump.

Description

The utility model relates to equipment for the extraction of hollow microspheres from ash and slag pulp and can be used to clean ponds and ash dumps from floating ash (microspheres). It is known that after burning coal in the furnaces of the state district power station, ashes in the form of ash and slag water pulp are pumped to ash dumps, where microspheres (hollow ceramic particles), due to their low density, float to the surface. Microspheres can be separated from water using special means and, after drying and classification, are used as fillers for paints, resins, polymers, etc.

A utility model No. 26056 of the Russian Federation is known (published on October 11, 2002), containing a floating fence with a device for pulling it, an overflow type intake device made in the form of a collection container with an open top, equipped with a trash basket connected by pipelines to receiving containers for accumulation hollow microspheres, characterized in that the upper open part of the collection container is equipped with an overflow threshold immersed in water so that it is at the water-microsphere interface, and the receiving ones tanks for the accumulation and dehydration of hollow microspheres are made of filter material.

The disadvantage of this model is the presence of an overflow threshold, which creates additional hydraulic resistance, which impedes the movement of the pulp stream and reduces productivity, in addition, the manufacture of receiving containers from filter material requires additional costs for the manufacture of special receiving containers.

An analogue to the proposed utility model is an apparatus for isolating hollow microspheres (Utility Model No. 43789 of the Russian Federation, published 03.03.2003). The installation comprises a receiving device, made in the form of a rectangular-shaped container mounted on 4 racks, one of the side walls of which is made with the possibility of vertical movement, and the bottom includes a section made in the form of a hemisphere.

The disadvantages of this model include the complexity of the design of the receiving device; this applies to the side wall with the possibility of vertical movement, which during operation must be fixed in a certain position since the thickness of the microsphere layer is constantly changing. This leads to uneven pulp flow and pump shutdown.

The objective of the utility model is to increase (productivity) the installation of the collection and production of crude microspheres.

This problem is solved by the installation for collecting and allocating hollow microspheres, containing a receiving device mounted on 4 racks, a pulp pump and a raw microsphere loading unit,

interconnected by pipelines, characterized in that the receiving device is made in the form of a stepped bottom, the upper stage of which is facing the pulp inlet, and the lower one is towards the pulp outlet, bounded on three sides by vertical side walls, with a cylindrical hole made in the wall opposite to the pulp an axis parallel to the plane of the upper stage, and the receiving device is immersed in water so that the upper generatrix of the hole coincides with the plane of this stage and the phase boundary water-microsphere ".

In FIG. the installation is presented, consisting of a receiving device with a pipe (1), a pump (2) and a wet microsphere loading unit (3) and pipelines a, b, s.

Installation works as follows.

The receiving device is installed on 4 racks on the bottom of the reservoir so that the interface “water-microsphere” is in the plane of the upper stage and the upper forming hole (when setting the phase boundary above the upper stage, water mainly enters the pump, below it mostly air). Next, the suction and discharge pipelines are connected to the pump. The end of the suction pipe is connected to the nozzle of the receiving device. The discharge pipe from the pump is connected to the wet microsphere loading unit. A layer of floating microspheres is bonded and pulled to the receiving device. The pump turns on. The pulp (water-microsphere mixture) is pumped from the receiving device through the suction and discharge pipelines to the wet microsphere loading unit.

The technical result is expressed:

1. in the removal of hydraulic resistance associated with the loss of pressure when the flow of pulp runs onto an obstacle (lack of thresholds, valves), as a result of which the productivity of the installation increases.

2. by averaging the pulp concentration, due to the circulation of the pulp stream in the second stage, which contributes to the elimination of “plugs” and stable operation of the pump.

3. the presence of the second stage, is a kind of buffer that eliminates flow disruption and contributes to the stable operation of the pump.

The proposed utility model eliminates shutdowns, pump downtime due to 'traffic jams', as a result, plant productivity increases by 20-30%. The proposed utility model was tested at the Serov State District Power Plant of the city of Serov, Sverdlovsk Region.

Claims (1)

Installation for collecting and isolating hollow microspheres, comprising a receiving device mounted on four racks, a pulp pump, a wet microsphere loading unit interconnected by pipelines, characterized in that the receiving device is made in the form of a stepped bottom, the upper stage of which is facing the pulp inlet and the lower one to the pulp exit, bounded on three sides by vertical side walls, with a cylindrical hole with an axis parallel to the wall opposite to the pulp plane of the upper stage, wherein the receiving device is immersed in water so that the upper generatrix hole coincides with the plane of the interface stage and phase "water-microsphere".