RU2240293C1 - Installation for thermal dehydration of liquid mixtures - Google Patents

Abstract

FIELD: thermal dehydration of sewage and a waste treatment of alcohol production.

SUBSTANCE: the invention presents an installation for thermal dehydration of mixed fluids and is dealt with thermal dehydration of sewage or mixed fluids and may be used for thermal dehydration of sewage and a waste treatment of alcohol production. The installation consists of a cylindrical body, a heating chamber and a discharge window. The cylindrical body is supplied the upper and lower bases and a supporting axial pipe, on which there are at least a pair of plates bent along a helix line. The internal surfaces of the plates form a screw-type channel and their external surfaces form the heating chamber. At that on the upper helical surface of each pair there are holes. The upper base of the body is supplied with a charging window. On the side surface of the body at a level of the screw-type channel there are discharge windows, and at a level of the last coil - a window for the hot air feeding. The lower base of the body is on vibrators, and the size of holes on each upper helical surface is increasing in direction to the lower base. At that the size of holes does not exceed the size of particles the solid phase. The lower helical surfaces and the external surface of the body are fettled with a thermoinsulating layer. Steepness of the helical surface is increasing in direction to the base of the body. The technical effect - increased productivity, degree of purification, efficiency of the installation operation and its performance index, quality of the alcohol production waste drying, decreased costs and power consumption.

EFFECT: increased productivity, degree of purification, efficiency and performance index of the installation operation, quality of the alcohol production waste drying, decreased costs and power consumption.

5 cl, 1 dwg

Description

The invention relates to installations for thermal dehydration of wastewater or liquid mixtures and can be used for the treatment of waste from alcohol production.

A device for cleaning wastewater is known, including a housing, inside which a screw and pipelines are installed for supplying the initial liquid and discharging sludge (see AS USSR No. 1068400, IPC ⁷ C 02 F 11/12, publ. 23.01.84, )

The disadvantages of this device are the design complexity, low productivity and insufficient degree of purification.

Closest to the claimed technical solution is a thermogravity sludge compactor containing a cylindrical body, a heating chamber and an exhaust window (see AS USSR No. 1118623, IPC ⁷ , C 02 F 11/12, publ. 10/15/84).

The disadvantages of the prototype are low productivity, efficiency and degree of purification, high energy intensity of the process.

The objective of the proposed technical solution is to increase productivity, increase the degree of purification, reduce cost, energy intensity and increase the efficiency of the installation.

The technical result consists in high cleaning efficiency and quality of drying of waste from alcohol production.

This technical problem is achieved by the fact that in the known installation for thermal dehydration of liquid mixtures, consisting of a cylindrical body, a heating chamber and an unloading window, according to the invention, the cylindrical body is equipped with upper and lower bases and a support axial pipe on which at least a couple plates bent along a helix, the inner surfaces of which form a helical channel, and the outer surfaces form a heating chamber, while on the upper helical surface of each pair us holes, the upper base housing is provided with a loading box, wherein on the shell side at the level of the screw channel formed drain box, and at last winding - the window for hot air.

The lower base of the casing is mounted on the vibrators, and the size of the holes on each upper screw surface increases towards the lower base, and the size of the holes does not exceed the particle size of the solid phase.

The lower screw surfaces and the outer surface of the casing are lined with a heat-insulating layer. The steepness of the helical surface increases towards the base of the housing.

This design will improve productivity, purification, reduce cost, energy consumption, increase the efficiency of the installation.

The essence of the device is illustrated in the drawing, which shows a General view of the installation in section.

The installation consists of a hollow cylindrical body 1 with upper 2 and lower 3 bases, an axial support pipe 4, a pair of plates, upper 5 and lower 6, curved along a helical line, the inner surfaces of which form a helical channel 7. Outer screw surfaces 5 and 6, the housing 1 and the support axial tube 4 form a heating chamber 8. On the upper screw surface 5 of each pair of plates holes 9 are made, the dimensions of which increase on each turn towards the lower base 3. On the upper base 2 of the housing 1, a loading window 10 is made. the drain surface of the housing 1, at the level of the screw channel 7, drain windows 11 are made, and at the level of the last turn above the upper screw surface 5, an unloading window 12 and a pipe 13 for supplying hot air to the heating chamber 8 are made.

The lower base 3 of the housing 1 is mounted on vibration mounts 14. The housing 1 on the outside and the lower screw surfaces 6 are lined with a heat-insulating layer 15.

The device operates as follows.

The source material (liquid mixture) enters the cylindrical body 1 through the loading window 10 on the upper screw surface 5, on which the holes 9 are made, and on each turn their size increases towards the lower base 3, but does not exceed the particle size of the solid phase. Through these holes, the liquid phase, under the action of gravity, enters the channel 7, formed by a pair of plates curved along a helical line, and is discharged through the drain windows 11.

Towards the movement of the liquid mixture, hot air enters through the nozzle 13. Hot air, passing through the heating chamber 8 above the surface of the liquid mixture, dries it. To reduce heat loss with the liquid phase, the lower helical surface 6 is covered with a heat-insulating layer 15, and to maintain the temperature of the hot air inside the chamber 8, the housing 1 is also lined with the heat-insulating layer 15 from the outside.

The dehydrated and dried material is discharged through the discharge window 12. To improve the filtration process, the lower base 3 of the housing 1 is mounted on vibration mounts 14, which are driven by an independent vibrator (not shown in the drawing). The steepness of the helical surface 5 increases towards the lower base 3 to improve the degree of cleaning and moving the mixture, because resistance to movement of the material increases.

Using the proposed installation for thermal dehydration of liquid mixtures in comparison with the prototype will increase productivity, purification, reduce cost, energy consumption, increase the efficiency of the installation.

Claims (5)

1. Installation for thermal dehydration of liquid mixtures, consisting of a cylindrical body, a heating chamber and an unloading window, characterized in that the cylindrical body is equipped with upper and lower bases and a support axial pipe, on which at least a pair of plates bent along a helical lines, the inner surfaces of which form a helical channel, and the outer surfaces form a heating chamber, while holes are made on the upper helical surface of each pair, and the upper base of the housing is provided with but the loading window, and on the side surface of the housing at the level of the screw channel, drain windows are made and at the level of the last turn a pipe for supplying hot air is made. 2. Installation according to claim 1, characterized in that the housing base is mounted on vibrators. 3. Installation according to claim 1, characterized in that the size of the holes on each upper helical surface increases towards the lower base, and the size of the holes does not exceed the size of the particles of the solid phase. 4. Installation according to claim 1, characterized in that the lower screw surfaces and the outer surface of the housing are lined with a heat-insulating layer. 5. Installation according to claim 1, characterized in that the steepness of the helical surface increases towards the lower base of the housing.