DE487372C - Process for electrical gas cleaning - Google Patents

Description

Process for electrical gas cleaning In the usual processes the electrical gas cleaning, the source of electricity is directly connected to the electrode system connected to the separation apparatus. The electricity sources that practically used become, such as B. the transformer with mechanical rectifier, have relatively small inner. Resistance, so that the amperage of the discharge is essentially is determined by this itself.

Since one has to achieve favorable separation verbs: the tension must take as high as possible on the discharge path, so that it is only a little below that is the voltage that causes the spark or flashover, so it is almost impossible to operate a gas cleaning apparatus with a fixed voltage. Under conditions that are very common in practice, more cattle is constant adjustment the voltage required to avoid or eliminate flashovers and arcs.

The best way to overlook the relationships is by looking at the familiar voltage curve the discharge. For increasing current, this curve shows initially increasing voltage, which, however, falls more or less rapidly after reaching a maximum. Just if the voltage increases with the current, the discharge process is stable. Is the maximum voltage reached or would be exceeded for any reason the current grows arbitrarily high; the relevant part of the discharge is therefore unstable, it corresponds to flashovers and arcs.

According to the present invention, it should be used in electrical gas cleaning the discharge process used can be stabilized by limiting the current intensity, which the electricity source can supply at most.

For example, it gets into the power lines from the electricity source an appropriately selected ohmic switch at any point for the discharge path Resistance switched on.

Such a resistor, when appropriately sized, will cause the Reaching the critical voltage on the discharge line is no longer arbitrary causes high currents. Rather, the critical tension around a certain Amount can be exceeded without being unstable as above. will, d. H. the Discharge is stabilized for a certain voltage range.

The size of the required ohmic resistance = is by the Voltage curve and determined by the area for which stabilization is to take place. It is generally of the order of magnitude of the Z resistance of the discharge itself be.

The stabilization described does not only occur in relation to voltage fluctuations the Source of electricity, but also against fluctuations in the state of the discharge path even, as caused by fluctuations in the dust content of the raw gas will. As the dust content decreases, the critical voltage decreases the discharge, d. H. a fixed voltage can be caused by a fluctuation the dust content will be greater than the new critical voltage. It is obvious that also the resulting instability through. the specified means are eliminated can.

So the stabilization will cause the reversal of the discharge from the spray form into the rollover: or even no arc form, and that the deposition process is maintained even against fluctuations.

It has been suggested before to add ohmic resistance to the Insert lines from the power source to the gas purifier. You have this Resistance z. B. to protect the outflow organs, so against possible destruction by arcing. The amount of resistance required for this protection but is practically far below the size that makes it practically effective Stabilization is needed. Resistance has also been used as a voltage divider, to adjust the voltage on individual electrodes or groups of electrodes. The one connected in parallel to the discharge path can have a stabilizing effect But don't resist.

If more in line with the operation of an electrical gas cleaning system Alternating current is used, then according to the invention to stabilize the discharge inductive resistance can also be used. This inductive resistance must then be placed in the line between transformer and rectifier.

The well-known use of inductive resistance in the line between Rectifier and discharge path that suppress the alternating current components of the rectified current is used, the intended according to the invention do not have a stabilizing effect. The inductive resistance can affect this Do not limit the position of electricity consisting predominantly of direct current.

In the circuit proposed according to the invention, under certain circumstances the stabilizing effect of inductive resistance between transformer and Rectifiers are supported by ohmic resistance between rectifiers and discharge distance.

In order to limit the current intensity according to the present method, it is also possible also inductive resistance as a double coil with a correspondingly large self-induction be placed in the primary circuit of the transformer.

The power source itself can also be specially selected for the purpose. It can e.g. B. the transformer can be designed so that its secondary current accordingly remains limited, for example by using suitably dimensioned open iron cores.

Claims (1)

PATEN TANSPRUCIl process for electrical gas cleaning, thereby characterized in that the electrical discharge that causes the deposition of dust particles effected by appropriately limiting the 'amperage that the electricity source can deliver is made into a stable discharge with no arcing can arise, e.g. B. in that a correspondingly in the high-voltage lines dimensioned ohmic resistance or inductive resistance is switched on, which latter when working with rectifiers between these and the AC power source must be switched, also through the use of current sources with high internal Resistance, of alternating current transformers and generators with corresponding properties and the like