DE470109C - Extraction chimney with built-in electrical dedusting device and coverable chimney opening - Google Patents

Description

Extraction chimney with built-in electrical dedusting device and coverable chimney opening . B. Brüdenschlöten, from lignite briquette factories with built-in electrical dedusting device and coverable .Slot opening. The chimney cover was previously kept completely open while the chimney was in operation and only closed when the gas passing through the chimney was to be diverted or shut off. With such an open chimney it has been shown that the degree of cleaning of the electrical precipitation device, which is located under the chimney opening, depends to a large extent on the uniform distribution of the gas over the effective cross-section of the separation field. The uniform gas distribution is primarily endangered by the wind that affects the chimney outlet opening, which has a damming or sucking effect and causes vortices in the gas, which in turn have an unfavorable effect on the gas distribution in the chimney . To remedy this, according to the invention, the vent opening above the electrical precipitation field is provided with a device by means of which the vent opening can be kept closed except for a gap for the clean gas to escape during operation Vent the necessary. Maintaining tension for the passage of the gas, on the other hand, prevents gusts of wind from influencing the uniform gas distribution in the chimney and thus in the electrical precipitation field. In order to regulate the tension, the exit gap can be elongated and shortened. the cover plates can also be set up adjustable.

If you want to do something else, you will, under the opening that remains free the chimney cover and baffle or guide surfaces above the electrical precipitation field built into the chimney, keep the wind influences away and at the same time also have a distributive effect on the gases flowing out of the electric field.

The even gas distribution in the precipitation field is further promoted, even if roof-like guide surfaces are below the field at the point of the raw gas inlet be provided that a stretch in the! Enter gas space and enter Divide the gas flow in such a way that a part passes between the guide surfaces can rise immediately, while the other part only continues under the guide surfaces will before he. has the opportunity to flow upwards into the electrical field. These Gas distribution in the raw gas enables in connection with the Schlotabdeckuug and the Gas distribution in the clean gas that the same at all points of the electric field Flow conditions prevail and - local irregularities in the gas distribution and thus in the separation effect can be avoided). By li-level or lowering of the lower guide surfaces. eder by changing their mutual From the distance you can change the individual inflow cross center without difficulty and adapt to the respective conditions, In addition, the lower guide surfaces nor the benefit of having a. Part of the dust falling from the enclosure field, namely the part falling on the surfaces, of those moving on under the guide surfaces Raw gas partial flows are kept away and mixes are taken up again can. The roof-like shape also promotes the sliding of the precipitation in the rod anel room below the Rohaseintrtts. Similar to distribution devices, are by the way already known (cf. e.g. Stahl und Eisen "39. fahrg., 1919, xeft 49, Figures 34 and 35).

In the drawing, the invention is shown in one embodiment your. Vapor extraction sc111.ot of a lignite dryer in two longitudinal sections (Fig. i and 2).

The electrical precipitation field 2 is located in the vent i From: separation of the dust, which is divided into two parts by a partition 3 i. The raw gas enters the chimney below field 2 at 4. At the opening 4 are roof-like sheets 5, which the inlet cross-section in triangular and subdivide trapezoidal areas according to Fig. i and up to about below the partition 3 in the. Protrude gas space. The height of the sheets 5 and their mutual distance can be variable, so that the gas distribution can be regulated as desired. How much Baffles 5. Are built in, whether two or more, 'eats indifferently.

The chimney head is covered by flaps 6 except for a gap 7. The flaps -6 are rotatably mounted in hinges 8 and by counterweights 9 balanced in such a way that they are easily blown up in the event of a deflagration in the chimney can. The width of the gap 7 can be adjusted by means of adjustable plates on the flaps to be changed. Under your gap 7 there are two diagonally opposed to one another Baffles or baffles i i.

The way in which the cover (and the surfaces 5 and i i herd easily from the drawing.

Claims (1)

PATENT CLAIMS: i. Exhaust vent with built-in elec- tric dedusting device and coverable chimney opening, marked by a device by means of which the chimney opening during operation except for a given all adjustable gap closed; can be held. 2. Discharge vent according to claim i, there- characterized by the fact that above the elec- tnisclten Nedersehlagsfeld under the gap the chimney cover impact or guide surfaces (ii) are arranged. 3. Discharge vent according to claims i and 2 with roof-like guide surfaces in the gas , enters below the electrical low impact field, characterized in that the roof body only a distance in protrude into the gas space and Subdivide the incoming raw gas stream in such a way that that 4a part between the baffles .immediately climb to the top; can, rend. the other part - first under the: areas is continued before it is flows downwards. 4. Deduction Sehlot according to claims i to 3, characterized in that the on Gas inlet = orderly roof-like guide areas at altitude and opposite one another other are adjustable. 5, deduction amount according to the claims. to 3, by the fact that the electric field in the chimney accordingly the length & extension of the roof structure in Raw gas space through a vertical longitudinal wall is undivided.