DE824465C - Entry device for gaseous, liquid or granular material into a gaseous medium carried in a pipeline - Google Patents

Description

Entry device for gaseous, liquid or granular material in a gaseous medium carried in a pipeline The invention relates to on an entry device for gaseous, liquid or granular material into a Medium carried in a pipeline.

In particular, the entry device comes into consideration for the introduction of powdery material into a gas stream.

With pneumatic conveying devices, especially with pulverized coal combustion and many other processing and conveying processes for pulverulent material The task is that a gas stream, air, steam o. The like., Evenly and steadily can be loaded with a powdery material.

So far, injectors, conically shaped inlet nozzles, have been known for this purpose with fixed internals, etc. The disadvantages of these previously known entry sluices lie primarily in the fact that the ratio of the amount of gas to the amount of dust material to be entered is only allowed to move within narrow limits. In the case of particularly unfavorable Relationships between the amount of gas and the amount of material can result in high pressures of several atmospheres in the gas flow may be required. The above devices fail in many cases even in the case of powdery goods, which due to their high surface moisture to the Tend to cake together. All previously known devices for allocating dust in a gas stream is still the common disadvantage that through the feed shaft of the dust, fresh air is sometimes sucked in in a very considerable amount can. This fact is above all then undesirable when the dust density should have a certain size after mixing or if it is a Gas flow with a composition deviating from the composition of the false air acts. In all of these cases it is particularly important to use the inlet shaft for the powdery material has neither negative pressure nor positive pressure. A negative pressure on this point would result in false air being sucked in. An overpressure in the Air shaft for the powdery material would be the introduction of the powdery material make it extremely difficult, if not impossible.

In the case of the entry device according to the invention, in particular these deficiencies inherent in the known entry locks are eliminated.

Accordingly, the invention is primarily that below the inlet shaft for the gaseous, liquid or granular material in the pipeline for the gaseous medium an inclined surface splitting the gas flow into two partial flows is installed so that the upper part of the gas stream is split off at the upper end, the reunites behind the inclined surface with the lower partial gas flow. These Inclined surface can be set up adjustable, preferably in the form of a known throttle valve. It is best to keep the throttle outside to store the middle, but you can also train the flap in two parts, in which case each flap part X is adjustable for itself. One becomes the inclined surface or the flap or the flap parts with respect to the gas flow to be split in cross section as follows design that the resistance offered to the gas flow is as low as possible. In the end it is also important to ensure that the angle at which the gaseous medium Gaseous, liquid or granular material to be supplied is supplied to the respective Application is adapted. The inlet shaft is therefore preferably closed of the pipeline carrying the gaseous medium to assume an angle between 45 and go0 lies. It should be achieved that the gaseous medium the substance to be mixed in when it hits the inclined surface does not change a great deal of angle needs to be subject to its further path.

By the said inclined surface or by this inclined surface The adjustable flap is formed by the gaseous medium carried in the pipeline split into an upper and a lower substream. It is convenient that Carry out splitting of this gas flow so that the upper part of the flow opposite the lower partial flow makes up a smaller amount. The through the possibly narrow gap between the top of the flow cross-section and the leading edge The partial flow split off by the flap experiences relaxation behind the flap. the The size of this partial gas flow can be adjusted by changing the size of the gap that is behind the flap and especially in the intake shaft above result in the desired pressure conditions. In this way it is possible adjust the pressure conditions in the inlet shaft so that, if desired, over- or there is negative pressure. Above all, however, is the setting of the pressure ratios also possible in such a way that neither overpressure nor underpressure in the inlet shaft prevails.

The greater part of the incoming gas flow is at the leading edge the flap is split off downwards, its size is again compressed the gap between the tread edge of the flap and the lower part of the flow cross-section depends. The relaxation of this compressed partial flow only happens again in the flow cross-section behind the inlet shaft. The by the proportionately sudden relaxation occurring vortex formation in the flow cross-section behind the inlet shaft has a thoroughly desirable, intimate swirling of the gas flow with the partial gas flow now laden with dust.

The proper supply and maintenance of a powdery material in or with the flowing gaseous medium depends above all on the ratio the amount of material to the amount of gas and the speed and pressure conditions in the gas-carrying cross-section. Especially with this in mind, it depends on the Given the circumstances, it is advisable to use the inlet duct for the gaseous medium To be supplied goods to be arranged perpendicular or inclined to the main flow direction. Attempts have come to fruition. that it is particularly advantageous, the inclination of the inlet shaft. based on the flow axis of the gaseous medium, to be carried out between 45 and go0. iei lower speeds, i.e. relatively smaller amounts of gas it is advisable to choose a smaller angle between the flap and the flow axis.

The choice of the axis of rotation of the flap mainly depends on the amount of gas the speed in the flow cross-section and the gas pressure. At high pressures and at high speeds it is advisable to move the pivot point further up and to move closer to the inlet shaft. This results when the flap is rotated the desired uneven widening of the gaps at the leading and trailing edges the flap.

Especially if the pressure and flow conditions change during change of operation, it is advantageous to make the flap in several parts in order to to be able to adjust the individual flap parts independently. That's how you are then be able to adjust the size of the column at the leading edge or the trailing edge the inclined surface to be set separately.

If value is placed on the fact that the Pressure conditions in the inlet shaft should be kept constant, for example between o mm and - 5 mm water column, one can use this pressure to become an automatic one Make use of the regulation of the gap width at the leading edge. The upper flap part and if necessary, the lower flap part can also be considered automatic can be adjusted to achieve certain pressure conditions.

The flow cross-section of the pipeline for the gaseous medium can be designed circular. For structural reasons, it is often advisable to to make this flow cross-section square or rectangular. This flow cross-section but can also have any other form. The sloping surface, the flap or the flap parts can consist of flat sheet metal.

, Xlall chimney also the cross-section, seen in the direction of your i) deer axis, Drop-shaped o. the like. To make the gaseous through the installation of these parts Medium as low a resistance as possible. The one at the entry device Any technical effects resulting from the invention are described above in connection with the registration of a powdery good in a flowing, gaseous medium. The advantages of the device according to the invention but also arise accordingly in cases in which a liquid or gaseous Well to be introduced into a flowing, gaseous medium. If that to be entered If it is in a gaseous state, the device according to the invention is special then of importance if per se in the inlet shaft and in the gaseous Medium-carrying pipeline different pressures prevail, which then with 11 ilfe the arrangement according to the invention can be compensated. Behaves similarly If it is a question of a liquid good, it is a gaseous one. \ le (liulll to be mixed in as evenly as possible.

In the drawing is an embodiment of the invention in longitudinal section schematically xviedergegel) en.

I) he in the housing t guided gas flow, which in the direction of the llfeiles 2 arrives, is at the leading edge 3 of the flap 4 in the upper and lower partial flow split up. The good to be mixed shown by arrow 5 falls through the Inlet shaft 6 in the upper partial flow. Due to the turbulence with the one at the trailing edge 7 of the flap 4 exiting lower partial flow takes place the desired uniform Mixing of the powdery material with the incoming gas flow.

The gap widths created by the leading edge 3 and the trailing edge 7 of the flap 4 are formed by rotating the flap 4 about its pivot point S, the position of which can be selected depending on the given conditions, adjustable. The dust-gas mixture, represented by arrow 9, is passed on through the housing 10. The flap 4 can also consist of the two flap parts 4a and Ab, which are separated can be adjusted to pivot about the axis S.

PATENT APPROACH: I. Feed device for gaseous, liquid or granular material in a gaseous medium guided in a pipeline, thereby characterized in that below the inlet shaft for the gaseous, liquid or Granular material in the pipeline for the gaseous medium one the gas flow in two Partial streams splitting sloping surface is installed so that at the upper end of the upper Partial gas flow is split off, which is behind the inclined surface with the lower Partial gas stream reunited.

Claims (1)

2. Entry device according to claim I, characterized in that the inclined surface is adjustable or designed as a throttle valve. 3. Entry device according to claim 2, characterized in that the throttle valve is mounted off-center. 4. Entry device according to claims I to 3, characterized in that that the flap is designed in two parts, and that each flap part is adjustable for itself is. 5. Entry device according to claims I to 4, characterized in that that the inclined surface or the flap or the flap parts have a profiled cross-section, seen in the direction of their axis of rotation have.