DE752566C - Electrostatic precipitator with successive spray charging and spray discharge-free separation of the suspended particles in the course of the gas flow - Google Patents

Description

Electrostatic precipitator with successive spraying in the course of the gas flow Charging and spray-discharge-free deposition of suspended particles The invention relates to an electrostatic precipitator in which, in a manner known per se, in the course of the gas flow a sparkling one. Charging. the suspended particles a spray discharge-free separation follows. According to the invention, the arrangement is made so that several spraying Charging and spray-free deposition fields in lengths of about double The voltage spacing of the electrodes of the spray fields immediately follow one another and in connection with this, the voltage spacing of the deposition fields about 5o to 6o% the voltage distance between the spray fields. This arrangement achieves that when the same voltage is applied to the high-voltage electrodes, the charging and deposition fields in both field groups up to almost the same flashover voltage approached and in the deposition fields with a substantial, z. B. 300 to 500% higher field strength than in the spraying charge fields can. Furthermore, the multiple results in immediate succession from Charging and separation have a particularly good filter effect because the charged Suspended particles are immediately deposited in the subsequent deposition field and as a result, the dust-space charges, which often cause disturbances, disappear to be brought. After the dust space charge, which interferes with the spray effect, in one Deposition field has been eliminated, the dust still present in the gas can be in the The next spray field is properly recharged and thus fed to the deposition will.

The arrangement according to the invention differs from the known Electrostatic precipitators with spatially and temporally separate charging and separation are not only because several charging and separation zones follow one another directly, but also by maintaining certain field lengths and voltage distances. the Invention also has nothing to do with a known proposal, accordingly the charging the suspended particles exclusively through spraying parts of the high-voltage electrodes a capacitor field is to take place. In this case, too, the immediate one is missing Sequence of several spray and deposition fields while maintaining certain Field lengths and voltage distances.

The drawing shows some examples of how the Invention can be carried out.

In the example according to Fig. I, i are the spray electrodes and 2 are the opposing polarity electrodes of the spray fields, while the non-spraying high-voltage electrodes the capacitor fields connected downstream in the course of the gas flow with 4. and their Counter electrodes are denoted by 3. The electrodes i and 4 are connected to the same Tension laid. The counter electrodes not connected to high voltage: 2 and 3 of the The spray and the deposition fields are known per se as trap chamber electrodes, z. B. in the form of hollow boxes, with dust collecting slots, which alternate sit on a continuous mounting rail or bar 5.

It is essential that the voltage spacing b of the electrodes in the deposition fields is only a fraction, namely about 50 to 60% of the voltage spacing a of the electrodes in the spray fields, and that the length c of the spraying and non-spraying zones is about double of the voltage distance a in the spray fields. In the embodiment according to Fig. 2, the counter-electrodes 6, 7 of the spray and deposition fields, which are not connected to high voltage, consist of strips or plates that are provided with webs transversely to the gas direction, the height of which is about half the distance between these webs. Such trap space electrodes provided with webs are known per se. In the present case, the use of such bar electrodes ensures that a field strength of about 200 to 3000 volts / cm is not exceeded at the bottom of each electrode, i.e. at the base of the bars, while the field strength at the outer edges of the bars facing the high-voltage electrodes is about 5,000 to 100,000 volts / cm. A higher field strength is desired at the outer edges of the electrode webs in order to keep the web edges clean. This phenomenon is undesirable on the actual precipitation surface, but inside the trapping areas, since the dust should stick here and slip into the collecting area from time to time.

From Fig. 3 it can be seen that the non-spraying counter-electrodes 8 the spray and separation fields can consist of plates or sheets, the transverse to the direction of the gas flow in order to create the various voltage gaps are kinked or folded accordingly in both fields. This way of execution has special features for the production of electrostatic precipitators of the type under consideration here Advantages.

Claims (1)

PATENT CLAIM: Electrostatic precipitator with subsequent spraying charge and spray-discharge-free separation of the suspended particles in the course of the gas flow, characterized in that several spray and separation fields are arranged in lengths of about twice the voltage spacing (a) of the spray fields directly behind one another and in connection with this the voltage spacing (b ) of the electrodes of the deposition fields is about 5o to 6o% of the voltage distance (a) of the spray fields. In order to differentiate the subject matter of the invention from the prior art, the following publications were taken into account in the granting procedure: German patent specifications No. 282 310, 534 473 Austrian patent specification No. 133 465 USA.-patent specification No. 1 912 053.