SU1734853A1 - Device for concentrating non-metallic bulk material, preferentially fuel - Google Patents

Abstract

Invention m. used in the building materials industry in the preparation of fuel before feeding it into a rotary kiln for combustion. SUMMARY OF THE INVENTION: The device comprises a multi-rod electromagnet 4 with a 5 rm in the upper part and pole pieces 6. The upper part, the latter, is made with a hyperbolic profile, and the lower beak-like shape with a linear increase in the interpolar distance from the load point to the unloading zone. In the lower part of the device there is a conveyor 10 coupled with a rotary kiln 2. 2 Il. .

Description

1

3 1734853

The invention relates to a device-100 mm, length up to one meter and more

you for the enrichment of non-metallic materials, and more specifically for the preparation of fuel before being fed to the combustion in a rotary kiln, and can be used in the building materials industry.

The purpose of the invention is to improve the accuracy of fuel density separation.

Figure 1 is a schematic representation of a device for enriching fuel in a rotary kiln composition for

burning cement clinker; fig 2 -, and the subsequent selection of magnetic

view A in figure 1 with

The device 1 for enrichment of fuel is connected to the furnace 2 and the grinding unit 3, respectively, and is made in the form of a multi-core electromagnet 4 with a 5-rm and pole pieces 6, the upper part of which has a hyperbolic profile and a bottom-shaped profile with a linear increase in the inter-pole distance of 7 from the loading point to the unloading zone. The excitation coils 8 are wound in such a way that they alternate the poles in the adjacent tips 6, the loading is carried out through the feeders 9. A magneto-polarizing fluid is placed in the interpolar gap, which hangs free layer when the voltage is applied to the electrically / romatiC device in the lower part is equipped with a conveyor 10, which is coupled with a rotary kiln 2,

The device works as follows.

The feeder is located above the narrow part of the chambers where the particles of the highest density should fall out. Therefore, as shown in Fig. 2, the conveyor belt moves to the right or left, with groups of different fractions. In all channels, all the channels fall onto the conveyor belt so that heavier fractions fall out in the narrower part of the inter-pole distance; fraction density decreases as the distance between poles broadens.

fluids from a mixture using a magnetic field with

Taking into account the chemical composition of the raw materials and the low-calorie fuel 20, the mineral part of the fuel, ash to clinker, which is possible for the additive, is determined without deteriorating its quality.

Preliminary by laboratory 25 For this type of fuel, the required grain size of grinding, at which the maximum opening of the grain occurs, which provides further flexible regulation of the chemical composition of the fuel.

Next, a correspondence is established between the density of the separated fractions.

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When mag-1 electromagnets are disconnected, the whale fluid will drain from the poles at a specific location into a collection tank. -

When electromagnets are turned on, the liquid easily fills the gap. In the described embodiment, the magnetic fluid hangs in gaps of width up to

and their chemical composition and, respectively, and the heat of combustion with simultaneous selection of the required heat of combustion and chemical composition of solid fuel, taking into account the source of raw materials - this enterprise.

After pre-grinding, low grade fuel is passed through.

40- through a layer of magnetically polarizable liquid in a magnetic field. Particles whose specific gravity exceeds the effective specific gravity of the magnetically-charged liquid,

4 $ is calculated because the interpolar distance has a linear increase in the length of the fluid layer from the loading point to the unloading zone, and i its effective weight, respectively

50 is reduced, and all particles are gradually falling across the conveyor to the discharge zone.

Magnetic liquids — colloidal solutions of particles of magnetic filler (usually magnetite with a particle size of 50–100 A) in

more

The material to be separated is partially un-. s-c-agitic fluid with a reduction of entrainment on one side contribute to the beak-like poles, providing a large reverse magnetic field gradient and, accordingly, a magnetic force that returns the magnetic fluid to the interpolar gap from the surface of the particles to be divided

In addition, it is easy to regenerate the magnetic fluid by flushing particles from

fluids from a mixture using a magnetic field with

Taking into account the chemical composition of the raw materials and low-calorie fuel, it is possible to determine the mineral component of the fuel — ash to the clinker — without reducing its quality.

Pre-laboratory method For this type of fuel, the required fineness of grinding, at which the maximum opening of the grain occurs, which provides further flexible regulation of the chemical composition of the fuel.

Next, a correspondence is established between the density of the separated fractions.

Magnetic liquids — colloidal solutions of particles of magnetic filler (usually magnetite with a particle size of 50–100 A) in

ten

IS

51734853

a liquid carrier (usually kerosene or water) with a surface-active substance (surfactant) that prevents coagulation of the particles of the magnetic filler upon approach. Such a liquid is stable in the field of gravity and in strong inhomogeneous magnetic fields; it does not require excessively large magnetic forces for operation, unlike paramagnetic true liquids.

The principle by which density separation is carried out is the quasi-desire for a magnetic fluid placed in a non-uniform magnetic field. In such a fluid, a non-magnetic body experiences excessive pressure, pushes Him into the region where the field is smaller, i.e. the non-magnetic body behaves in this case as diamagnetically.

During operation of the device, the initial fuel enters the magnetic fluid, where the heaviest particles fall onto the conveyor near the loading point, and the lighter particles float across the surface of the liquid in the direction of expansion of the interpolar distance and fall onto the conveyor where the weight of the particle begins to exceed. The effective weight of the magnetic fluid.

- Thus, in different parts of the transporter, particles of different densities of 1 across the width of the conveyor belt fall out.

The removal of fractions of enriched fuel entering the kiln is carried out from the conveyor using, for example, a longitudinal partition

2Q

25

30 | f

35

force on the height of the gap, which improves the accuracy of separation.

The kuvoobraznaya shape pole tips contributes to the retention of magnetic fluid in the interpolar gap Changing the excitation current allows you to adjust the density of fractions and, accordingly, the composition and amount of fuel enriched, and a multi-rod separator provides the desired performance of the enrichment device,

The device uses a correlation between the chemical composition of the fractions of this type of fuel and their density, determined as a result of separation in a magnetically polarized liquid placed in a non-uniform magnetic field,

This makes it possible to isolate the enriched fuel of the required chemical composition and use it as an independent technical fuel for the production of cement.

Thus, the device provides the possibility of increasing the productivity of furnaces at the same consumption of solid fuel by increasing the heat content of the latter, the formula of the invention

A device for enrichment of a nonmetallic bulk material, mainly fuel, containing an electromagnet with a magnetically polarized liquid located in interpolar space and a conveyor located under the electromagnet, characterized in that, in order to improve the accuracy of the separation in density,

at the end of the conveyor separating the technical part of the top of the pole pieces

the electromagnet has a hyperbolic profile, and the bottom has a beak-like profile, with the interpolar distance along the length of the pole tips increasing

fuel oil and waste separation. The latter are used in related industries, in particular as a filler for road surfaces.

The hyperbolic shape of the poles is secured from $ 4 to the loading zone.

bakes an ejector condition

0

S

five

0 | f

five

force on the height of the gap, which improves the accuracy of separation.

The kuvoobrazna form of pole pieces contributes to the retention of magnetic fluid in the interpolar gap. Changing the excitation current allows you to adjust the density of the separated fractions and, accordingly, the composition and amount of fuel supplied to the enrichment, and the multi-rod separator provides the desired performance of the enrichment device,

The device uses a correlation between the chemical composition of the fractions of this type of fuel and their density, determined as a result of separation in a magnetically polarized liquid placed in a non-uniform magnetic field,

This makes it possible to isolate the enriched fuel of the required chemical composition and use it as an independent technical fuel for the production of cement.

Thus, the device provides the possibility of increasing the productivity of furnaces at the same consumption of solid fuel by increasing the heat content of the latter, the formula of the invention

A device for enrichment of a nonmetallic bulk material, mainly fuel, containing an electromagnet with a magnetically polarized liquid located in interpolar space and a conveyor located under the electromagnet, characterized in that, in order to improve the accuracy of the separation in density,

hot.

Type A

1

7 / B

Claims (1)

Thus, the device provides an opportunity to increase the productivity of furnaces at the same rate of solid fuel by increasing the heat content of the latter, claims The device for enriching non-metallic bulk material, mainly fuel, containing an electromagnet located in the inter-polar the space is a magnetically polarizing liquid and a conveyor placed under the electromagnet, distinguished by the fact that, in order to increase the accuracy of density separation, 40 the upper part of the pole the end of the electromagnet has a hyperbolic profile, and the lower one is beak-shaped, and the pole distance along the length of the pole pieces increases — 45 from the loading zone to the unloading one.