UA150797U - Technological complex of ash enrichment in thermal power plants - Google Patents

Abstract

The technological complex of ash enrichment in thermal power plants which includes devices for forming the raw material flow and its supply to separation with the release of useful components and tails of enrichment, which differs in that a raw material in the place of storage in the form of an unbound bulk mass is connected by a transport path with a feeder dispenser, which is connected by a transport path with a cyclone, an exhaust pipe of which is connected to a receiving hopper for storing pozzolan particles, and the cone part of a cyclone made with the possibility of forming tails, connected by a transport path to a pneumatic separator, connected by one transport path to the receiving hopper for pozzolan particles, and another transport path to the cyclone, in which the exhaust pipe is connected to the receiving hopper for pozzolan, and the conical part of the cyclone, by forming tails, is connected to a magnetic-gravity separator, made with the possibility of forming three technological flows: weakly magnetic, magnetic products, as well as a flow of coal with sand, while the technological flow of coal with sand is connected by a transport path with the electric separator made with the possibility of obtaining technological flows of coal and tailings of enrichment.

Description

The useful model belongs to the field of mineral enrichment and can be used to obtain concentrates from the ash components of thermal power plants. In particular, the useful model belongs to the technological complex, which represents a single chain of devices that allow the enrichment of ash of thermal power plants, obtained directly after burning coal or during the development of man-made deposits - ash and slag storages. The useful model is intended for deep processing of raw materials with the selection of useful components, the volume and quality of which is economically justified for the manufacturer.

A well-known technological complex for the extraction of useful elements from ash drifts of thermal power plants, which includes a serially connected receiving device, a magnetic separator, a mixer, a granulator, an electromelting device, a hammer crusher, leaching devices, filtering devices, an extraction device, a sulfation device |V.N Okhotyn ., Medvedev V. I,.,

Lainer Yu. A., Levitskaya T. D., Chaika E. A. Complex processing of ashes from coal combustion with extraction of valuable components // Znergeticheskoe stroitelstvo. - 1994, Mo. 7, pp. 67-691.

During the operation of the complex, magnetic separation, mixing with lime, granulation and electrosmelting of the magnetic product to obtain a metal product and slag, crushing of slag, its leaching with sulfuric acid, filtration and successive selection of concentrates of rare and rare earth elements by extraction are carried out.

The disadvantage of this flow line is the low extraction of valuable components and significant losses of associated metals from ash removals of thermal power plants.

A significant drawback of the known technical solution is that the technology implemented by the apparatus chain provides a narrow range of useful components that are extracted from the ash. This leads to significant losses of marketable products and, accordingly, low profitability of thermal power plant ash processing technology and a long payback period.

The design of the technological complex for the extraction of useful components from the ashes of thermal power plants is well-known. The complex consists of a receiving device, an electrostatic separator, receivers of conductive products, semiconductor and non-conductive products, a magnetic separator, a mixer, a granulator, electromelting devices, a hammer crusher, leaching devices, filtering devices, an extraction device, a sulfation device.

З The output ash of thermal power plants enters the reception apparatus, after which it is sent to an electrostatic separator with receivers of conductive, semi-conductive and non-conductive fractions. The lead product, depleted of valuable components, is removed from the process. The semiconductor product is sent to a magnetic separator to separate the raw material into magnetic and non-magnetic products. The magnetic product is mixed with lime in the mixer, granulated in the granulator and enters the electrosmelting apparatus, after which metal products and slag are separated. The slag is crushed in a hammer crusher and leached in a leaching apparatus, the leached solution is filtered through a filter to form a solution and a cake. Scandium oxide is extracted from the solution in the extraction apparatus and aluminum sulfate is released. After filtration, the cake enters the sulfation apparatus with further processing in the leaching apparatus and the filtration apparatus to obtain a solution containing a concentrate of rare, rare earth elements and a silicate-gypsum product for obtaining building materials.

The non-magnetic product is sent to coagulant production. The outlet of the receiver of the non-conductive fraction is connected to the leaching apparatus and the filtering apparatus, in which a solution of rare earth elements and a cake containing gallium concentrate is formed (Patent ky2340402 SI.

The disadvantage of the well-known complex is that the chain of devices involves a complex technology of processing ash of thermal power plants. The specified technology involves the use of chemical processes that require special implementation conditions related to compliance with environmental standards of the industrial region.

In addition, the chain of devices that implements the technology is focused on the specific physical, mechanical and chemical properties of the ash of thermal power plants, which significantly narrows the field of application of the technological complex.

The disadvantage of this chain of devices is the low extraction of only one valuable component (gallium) from the ash deposits of thermal power plants.

A technological complex for processing ash of thermal power plants was chosen as the closest analogue. The technological complex consists of a receiving hopper, floating machines, classifiers, and magnetic and electrostatic separation devices, leaching devices, filters and dryers.

The technological complex works as follows. The initial ash removal of thermal power plants enters the reception apparatus, after that it is sent to flotation, where xenospheres are transferred to the foam product, and the chamber product is sent to classification on sieves, and then to magnetic separation successively in weak and strong magnetic fields.

After magnetic separation, the material is successively filtered and dried, then it enters electrostatic separation, where the conductive product is separated, and the semiconducting and non-conducting products are sent to leaching, after which it is dehydrated by filtration and drying (Patent KO2393020 SI.

The disadvantage of the known technical solution is the need to use technological processes of flotation and leaching, which require the mandatory use of treatment facilities that ensure the prevention of environmental pollution, which negatively affects the cost of products.

In addition, the known chain of devices provides only the selective extraction of a part of useful components, as a result of which the implementation of the technological complex is associated with significant losses in the tailings of the enrichment process.

The implementation of this complex is associated with significant costs for solving the tasks of ensuring normative indicators of the ecology of the industrial region.

The applied complex cannot be implemented in a mobile form, which requires the construction of production lines directly at the place of processing of man-made raw materials.

The basis of the useful model is the task of improving the complex of ash enrichment of thermal power plants, due to the implementation of a single chain of technological devices that ensure the sequential enrichment of the raw material flow into useful components due to the regulated impact on the raw material of centrifugal forces, directed pneumatic flow, as well as magnetic and gravitational forces fields

The task is solved due to the fact that the technological complex of ash enrichment of thermal power plants includes devices for extraction of raw materials, its grinding and separation according to the specified granulometric composition, the supply of raw materials for separation with the selection of useful components and enrichment tails.

According to the useful model, the raw material in the place of storage is in the form of an unbound loose mass, connected by a transport path with a feeder-dispenser. The feeder-dispenser is connected to the cyclone by a transport path. The exhaust pipe of which is connected to the receiving hopper for

From the composition of pozzolanic particles. The conical part of the cyclone is made with the possibility of forming tails. The conical part of the cyclone is connected by a conveying path to a pneumatic separator, connected by one conveying path to a receiving hopper for pozzolan particles. Another transport path of the pneumatic separator is connected to the cyclone, in which the exhaust pipe is connected to the receiving hopper for pozzolan.

The conical part of the cyclone, which forms tails, is connected to a magnetic-gravity separator.

The magnetic-gravity separator is made with the possibility of forming three technological flows: weakly magnetic products, magnetic products and a flow of coal with sand.

The technological flow of coal and sand is connected by a transport path with an electric separator, made with the possibility of obtaining a technological flow containing conditioned coal and tailings of enrichment - sand.

The technical result of the use of a useful model is that: - the technological complex ensures the production of the main useful components in a commercial form with a low cost of the process; - the possibility of processing and enrichment of all types of ash of thermal power plants is provided, regardless of their physical and mechanical properties and chemical properties; - a high level of extraction of components and waste-free production of commercial products is ensured; - technological devices maximally fully extract useful components sequentially as raw materials are processed to form conditioned commercial products; - the technological complex can be carried out in a wide range of productivity and geometric parameters of the apparatus chain; - the technological complex ensures a reduction of the negative impact on the ecology of the region, thanks to the maximally complete processing of the ash of thermal power plants; - the technological complex has a low energy intensity with a high depth of processing of raw materials.

The technological complex is represented by a diagram of a chain of devices for obtaining finished goods.

The technological complex of ash enrichment of thermal power plants includes feeder-doser 1, which is connected by a transport path with cyclone 2, the exhaust pipe of which is connected to the receiving hopper C for storage of pozzolan particles. The conical part of the cyclone 2 is made with the possibility of forming tails 4. The conical part of the cyclone 2 is connected by a conveying path to the pneumatic separator 5, connected by one conveying path to the receiving hopper for pozzolan particles 3. The other conveying path of the pneumatic separator 5 is connected to the cyclone b, in which the exhaust pipe is connected to the receiving hopper C for pozzolan. The conical part of the cyclone b, which forms the tails 7, is connected to the magnetic-gravity separator 8.

The magnetic-gravity separator 8 is made with the possibility of forming three technological streams: weakly magnetic 9, magnetic 10 products, as well as stream 11 of coal with sand.

Transport flow 11 of coal with sand is connected to the electric separator 12, made with the possibility of forming flows of conditioned coal 13 and enrichment tails - sand 14.

The technological complex is implemented as follows.

The technological complex is a chain of processing equipment that allows you to obtain a unique set of commercial products intended for the metallurgical, chemical and construction industries.

According to its composition, the equipment, depending on the design performance, can be manufactured in both stationary and mobile versions.

The stationary version is used in the case when high performance of the equipment is required, and the complex processes the ash deposits of several powerful thermal power plants.

Mobile technological complexes are used in the case when there are no high requirements for equipment productivity, and the production of products is carried out during a certain period of time at small ash storage facilities or thermal power plants.

For processing, raw materials are used in unbound loose form. If the ash has accumulated in the ash storage for a long period of time, then it is first disintegrated to the original granulometric composition. In addition, raw materials can be obtained directly after unloading from the furnaces of thermal power plants, after cooling to a given temperature.

As shown by studies of the material composition of coal ash of thermal power plants, the output

The raw material contains a number of useful components, which in their isolated form are a valuable product for a number of industries. Since these components have different physico-mechanical and chemical properties, the selection of one or another component is carried out under the influence of various fields, the implementation of which is carried out sequentially as a certain technological cycle is carried out.

Ash in unbound form enters the feeder-doser, from where it is dosed - into the external pneumatic separator-cyclone. The separation parameters are set by the speed of the flow entering the centrifugal separator, as well as the angular velocity of the particles inside the separator. Separation of particles occurs due to radial acceleration.

Fine particles at this stage of enrichment have the properties of pozzolan - a high-quality component, the use of which allows its use in the production of high-quality cements.

Pozzolanic particles are extracted from the cyclone through the vertical axial exhaust pipe and settle in the receiving hopper, equipped with air filtering means to prevent the dispersion of dispersed particles into the atmosphere.

Partially freed from pozzolan ash particles - the tails of the first stage of enrichment, are moved to the second stage of pneumatic separation.

A cyclone can be used as a pneumatic separator. The cyclone provides a complete and final separation of pozzolan particles from ash particles connected to each other.

As in the first stage of enrichment, particles with a large hydraulic size - enrichment tails - are moved to the bottom of the cyclone, and particles with a small hydraulic size, containing pozzolan, are moved in an upward flow along the vertical nozzle and are deposited in the receiving hopper.

The bottom part of the cyclone contains a significant volume of unburned coal, in addition, the tailings contain magnetically susceptible particles, with a significant mass fraction of a useful component that can be a raw material for the metallurgical industry.

Enrichment of tailings after pneumatic separation is carried out with the help of magneto-gravitational separation, in which these tails are exposed to a magnetic field and are divided into three technological streams under the action of gravity.

The first stream, obtained as a result of magnetic-gravity separation, contains the most rich product containing magnetically susceptible particles, which can be used as direct raw materials for the metallurgical industry.

The second flow, obtained as a result of magnetic-gravity separation, mainly contains weakly magnetically susceptible particles, which can be used in the metallurgical industry, but after the previous enrichment to obtain the appropriate concentrate.

The third flow, obtained as a result of magneto-gravitational separation, contains non-magnetically susceptible sand particles and coal particles.

Studies have shown that non-magnetic particles such as sand and coal particles can be successfully separated using electrical separation. The electric separator allows you to obtain unburned coal, which can be included in the circulation scheme for supplying it to the furnace of a thermal power plant.

The second product of electric separation is enrichment tails - sand-type mineral particles that can be used as a filler for the preparation of hardening mixtures in industrial and civil construction.

Studies have shown that the technological complex can be successfully implemented for the processing of ash of thermal power plants without restrictions on its physical, mechanical and chemical parameters.

Claims (1)

USEFUL MODEL FORMULA A technological complex for the enrichment of ash of thermal power plants, which includes devices for forming the flow of raw materials and their submission to separation with the selection of useful components and enrichment tails, which is distinguished by the fact that the raw materials in the place of storage in the form of an unbound bulk mass are connected by a transport path to a feeder - a dispenser, which is connected by a transport path to a cyclone, the exhaust pipe of which is connected to a receiving hopper for storing pozzolan particles, and the conical part of the cyclone, made with the possibility of forming tails, is connected by a transport path to a pneumatic separator connected by one transport path with a receiving hopper for pozzolan particles, and another conveying path with a cyclone, in which the exhaust pipe is connected to the receiving hopper for pozzolan, and the conical part of the cyclone forming the tails, Zo is connected to a magnetic-gravity separator, made with the possibility of forming three technological flows: weakly magnetic, magnetic products, as well as a flow of coal with sand, while the technological flow of coal with sand is connected by a transport path with an electric separator, made with the possibility of receiving technological flows of coal and enrichment tailings.