DE3900026C2 - Vortex chamber - Google Patents

Description

The invention relates to a swirl chamber with a gas inlet in a lower area for a gaseous Me dium, a solid inlet arranged above it, a Outlet in an upper area for the solid particles carrying gas and with a concentrator in the top ren area of the vortex chamber for stacking Solids.

A swirl chamber of this type is, for example, in the German patent application DE 37 07 625 described. The vortex chamber according to this script points in its above a concentrator, the effect of which is zip is based on an electrical field. Hit it electrically charged particles, especially dust Particles from the exhaust air on a precipitation electrode off, agglomerate, fall back into the fluidized bed and are carried out with the dry product. A disadvantage of this swirl chamber is the high energy consumption that by electrically charging the particles using egg electrical field arises. Still requires such a system a significant constructive Effort and is therefore only conditional in existing systems can be retrofitted.

With the lecture "Operating experience with the vortex Layer system Gneisenau "by V. Asche in" House of Tech nik lecture publications ", volume 484, pages 13-16, In 1983, it continues to be known in a vortex chamber to burn a mixture of coal, lime and ash. The solids are about half with the Smoke gases through the overhead, in their cross  cut tapered exhaust vent from the fluidized bed oven led out. With this arrangement, it works especially unfavorable that the solids only short Time remains in the vortex chamber and partly with elaborate return devices in the vertebrae again chamber must be introduced. This is how the works Plant relatively uneconomical.

The German patent DE 24 08 649 describes one Vortex chamber of a combustion plant at which the Geschwin density of the Ga flowing to an overhead outlet ses is greatly increased by means of a nozzle. Right away after passing through the nozzle, the gas bounces with it cracked particles against a concave towards the nozzle curved separators and are therefore with high Ge speed distracted downwards. A disadvantage of this Arrangement affects the acceleration of the gas telbar before exiting through an exhaust opening where due to the reaction only very briefly and therefore incompletely can run continuously.

With the German Offenlegungsschrift DE 27 53 173 a device for separating substances in a we fluidized bed given by vortex formation. In doing so the ascending particles within the vortex chamber ra dial out into an area of lower flow headed for speed. The separation is connected with this media of different densities, the heavier Me dium sinks down in an outer cylinder while doing so is structurally separated from the rising flow. There this has an effect on the device described, that the heavier medium descends for a reaction with the light medium is not available stands.

The invention is based, a vortex came mer of the type mentioned in such a way that the residence time of the solids without enlarging the building volume of the swirl chamber increased so that a reaction improvement is to be achieved.

This object is achieved in that the concentrator is arranged above the outlet and as a roof-like conical surface tapering towards the top che or is designed accordingly as a truncated cone.

It is advantageous that in the case of the vortex chamber the concentrator does not get gas is flowing and thus an area with low gas flows mung forms. The upward flowing, finely divided festival Gas particles that carry particles therefore accumulate within of the concentrator, so that there the desired Aneinan storage of solids occurs. The solids stick loose together and then sink due to their weight Magnification down in the swirl chamber. Zer they fall back into individual particles in the lower area, which is then carried up again by the gas flow the. Part of the solid particles is always over the Outlet led to the outside, while the rest in Concentrator enriches, sticks together and again like explains sinking down. Through this working principle there is a shear flow between the solid part Chen and the gas, which causes the reaction rate speed increased. The swirl chamber according to the invention works therefore better than the vortex chambers described above, the one with an external feedback, an electrical Field or an acceleration of the flow and then working separation using a separator because in it a longer dwell time of the solid particles is reached and the shear flow occurring the reak tion improved. In addition, the training of the  Concentrator as a cone or truncated cone with extremely ge realizing little effort and leads to a we significant improvement in the functioning of a vortex mer. The swirl chamber according to the invention, which due to their mode of operation as reverse flow whirlers that could be used as a reactor for the implementation of chemical reactions, but also as Dryer or as a combustion chamber for a furnace.

The swirl chamber according to the invention is optimally dimensioned, if the truncated cone has a diameter ratio D / d of Has 1 / 0.1 to 1 / 0.5 and its outer surface opposite the Horizontal with an angle α of 30-60 degrees increases. If the vortex chamber differed significantly loads must work, then it is advantageous if according to one embodiment of the invention the inlet for the gaseous medium to enter a reason load quantity is designed and if it is above this Inlets a second gas inlet to initiate one additional amount of gas. This configuration leads considerable energy savings at high loads, since the pressure drops due to the additional gas inlet are significantly less than if the entire gas flow entered the swirl chamber through one and the same inlet would have to. Furthermore, this configuration can unwanted sound generation at high load avoided will. The distribution of the gas flow results in an improved heavy metal in flue gas cleaning separation because of the lower area of the swirl chamber entered partial flow through increased water injection enables a particularly high separation performance and the residual current introduced above to a normal one Separation performance leads, so that the sum of both Ab cutting performance is higher than with known vortex in which the entire gas flow in the lower area is initiated.  

The requirements for flue gas cleaning are that the flue gas temperature is still in the chimney must be above the dew point of the flue gas However, it is possible to achieve good desulfurization wants to introduce as much water as possible into the flue gas. Around To be able to meet both requirements is often heated the flue gas after leaving the vortex chamber before Chimney back up, but what a large-volume heat rope sher requires. Furthermore, it comes through the high what input into the vortex chamber often leads to caking in follow from below the dew point in which the vortex came following flue gas path.

The above disadvantages can be according to another Embodiment of the invention in a simple manner by egg NEN water inlet and a heat exchanger for heating of water through the gaseous medium to be introduced be avoided. This allows you to put more water in it Introduce flue gas as in systems that use cold Water work. Since the water only evaporates and The flue gas cools not needing to be heated first less so that it is not within the swirl chamber to falling below the dew point and thereby to caking is coming. The smoke also lies behind the swirl chamber gas temperature is still high enough to avoid the flue gas supply additional heating to the chimney. The Heating the water is easier with simple means range than that of the large-volume flue gas flow behind the vortex chamber. The preheated water he Targetable advantages also arise with a vertebra mer without dividing the gas flow into two partial flows.

The invention permits numerous embodiments. For there is a further clarification of their basic principle  of shown in the drawing and will be below write.

The drawing shows a swirl chamber 1 , which has an inlet 2 for a gaseous medium in the lower region. In this embodiment, the swirl chamber 1 is used to purify the flue gas, so that flue gas from a line 3 reaches the swirl chamber 1 via the inlet 2 . In front of the inlet 2 , the line 3 branches and leads with a branch to a gas inlet 4 located higher up. The lower inlet 2 is designed such that a base load quantity is always supplied to the swirl chamber 1 via it. Higher gas volumes pass through the second gas inlet 4 into the swirl chamber 1 .

Somewhat above the inlet 2 , a solids inlet 5 is provided, via which the swirl chamber 1 in this exemplary embodiment is supplied with calcium hydroxide and is fed from the outside by means of a dust separator filter. A water inlet 6 is arranged slightly below the solids inlet 5 . The water supplied via a line 7 is first heated in a heat exchanger 8 by the flue gas to a temperature of about -10 ° C to + 10 ° C around the water dew point of the flue gas before it is injected into the swirl chamber 1 .

For the invention is very important a concentrator 9 , which is arranged in the upper region of the swirl chamber 1 above egg nes outlet 10 and in this example, approximately from a widening Ke stump is formed. By this design, the trated by the gas flow guided upward particles to concentrate with 11 po sitionierten circular surface of the truncated cone out. They store each other so that they become heavier and sink against the gas flow in the belkammer 1 . This creates a shear flow between the gas and the solid particles. During the descent, the clumped particles disintegrate like the individual particles and then rise again. In addition, the solids loading in the outlet 10 is considerably reduced (that is to say over 40%), as a result of which the dust separation filter and the solids return are considerably relieved.

Claims (4)

1. Vortex chamber with a gas inlet in a lower loading area for a gaseous medium, a solids inlet arranged above it, an outlet in an upper loading area for the gas carrying the solid particles and with a concentrator in the upper area of the vortex chamber for the accumulation of solids, thereby characterized in that the concentrator ( 9 ) is arranged above the outlet ( 10 ) and is designed as a roof-like conical surface tapering towards the top or as a truncated cone. 2. swirl chamber according to claim 1, characterized in that the truncated cone has a diameter ratio D / d of Has 1 / 0.1 to 1 / 0.5 and its outer surface opposite the Horizontal with an angle α of 30-60 degrees increases. 3. Vortex chamber according to claim 1, characterized in that the inlet ( 2 ) is designed for the gaseous medium for a supply of a base load and that above this inlet ( 2 ) there is a second gas inlet ( 4 ) for introducing an additional amount of gas. 4. swirl chamber according to claim 1, characterized by a water inlet ( 6 ) and a heat exchanger ( 8 ) for heating the water by the gaseous medium to be introduced.