SU1105425A1 - Bend section of pneumatic conveyer pipeline - Google Patents

Abstract

ROTARY PLOT pneumotransport pipelines comprising a curved pipe and mounted on the outer wall of the device for deflecting the flow of fuel mixture, characterized in that, in order to reduce power consumption, the device for deflecting the fuel mixture flow composed of radiused profiles, each of which is fixed at one end tangentially to the inner surface of the bent nozzle, and the free end is directed in the direction of movement of the mixture. (L

Description

The invention relates to the pneumatic transportation of bulk material through pipelines with curved sections and can be used in grain processing plants.

A rotary section of a pneumatic conveying pipeline is known, which contains a bent nozzle and a device mounted on its outer wall for deflecting the flow of the air mixture 1.

The disadvantage of this device is high energy consumption, due to the fact that an additional air supply to the bent nozzle is used to divert the flow, while the energy of the carrier gas is used inefficiently.

The purpose of the invention is to reduce energy consumption.

The goal is achieved by the fact that in the rotary section of the pneumatic conveying pipeline containing a bent nozzle and a device installed on its outer wall to deflect the flow of the air mixture, the latter consists of radially curved profiles, each of which is fixed at one end tangentially to the inner surface of the bent nozzle and free end directed in the direction of the movement of the mixture.

FIG. Figure 1 shows the turning section of a perforated pipeline, a longitudinal section; in fig. 2 is a diagram of the installation, the pa which is carried out tests we offer (HF) device.

11 () 1 ors; the pneumatic transport section of the pipeline includes a bent nozzle 1 and a device for deflecting the flow mounted on its outer wall, consisting of profiles 2 bent along the radius, each of which is fixed by one end tangent to the inner the surface of the bent nozzle, and the free end is directed in the direction of movement of the mixture.

Testing of this device is carried out on an installation that contains rotary sections 1 with profiles 2 installed on its inner surface, mounted between horizontal 3 and vertical 4 sections, discharger 5, blower mask 6 and air receiver 7. Curvature radius of 400 mm curved section square (the number of curved sections and their geometric characteristics may be different).

To create a multijet flow, profiles are used that are installed on the external wall of the material pipeline at an angle of 15-30 ° to the tangent external wall. The distance between the profiles during the transportation of wheat is 100 mm.

The device works as follows.

By means of a feeding device, for example a pneumatic receiver 7 of the tee type, the bulk material is continuously fed into the air flow of the pipeline and is moved.

 When moving the air mixture on the rotary section 1, create a multi-jet movement of the air mixture by repeatedly deflecting the flow from the external wall of the pipeline through the profiles 2.

Comparative results of laboratory tests are summarized in table.

Analysis of the results shows that the installation of profiles contributes to a decrease in air velocity during transport, an increase in concentration and, as a consequence, an increase in productivity. The short time of contact of individual particles with the surface, variable relative to the axis of the curvilinear section, the direction of flow reduces the force of external friction of particles with the surface of the profile. In the area between the profiles, there is an intense interaction between the particles and the air flow, which ensures the restoration of the velocity of the particles after it falls upon interaction with the profile. Formed by profiles that have a smaller radius of rounding in comparison with the external radius of the knee, the jets evenly distribute particles over the cross section of the pipeline.

The creation of a jet motion allows particles to be held in a velocity flow.

Uniform dispersion of particles over the cross section eliminates interaction between them, provides better transfer of energy of the flow to particles and their necessary speed, prevents the accumulation of particles leading to destabilization of the transportation process.

Increasing the use of flow energy in curved sections allows, at lower speeds and, therefore, energy, to provide the necessary transport reliability.

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Claims (1)

A ROTARY SECTION OF A PNEUMATIC PIPELINE, comprising a curved pipe and a device for deflecting the air mixture, mounted on its outer wall, characterized in that, in order to reduce energy consumption, the device for deflecting the flow of the air mixture consists of radially curved profiles, each of which is fixed at one end with one tangential end to the inner surface of the curved pipe, and the free end is directed towards the movement of the mixture. (Riga. Ί SU „., 1105425