DE879892C - Electrostatic precipitator for vehicles with generator gas operation - Google Patents

Description

When operating electrostatic precipitators on motor vehicles with gas generator operation are set up and for cleaning the generator gas flowing into the vehicle engine serve, the gas velocity in the electrostatic precipitator should be a certain amount, e.g. B. 0.3 to 0.5 mls, in order to avoid that the separated from the gas Dust and soot are carried away again by the gas flow. With this relatively low flow velocity has now been achieved. the usual equipment of the Electrostatic precipitators with opposing polarity, spraying and non-spraying electrodes result, that under the action of the spraying force fields by far the largest part of the Float to be separated from the gas at the filter inlet in a thick layer the precipitation areas and, as a result, the voltage gaps between the electrodes of opposite polarity become so impermissibly small in a short time that one frequent cleaning must be carried out in order to be able to continue operation.

To remedy these difficulties and the operating time of the electrostatic precipitator without lengthening intermediate cleaning breaks, according to the invention the electrostatic precipitator at the gas inlet with one made of non-spraying electrodes of opposite polarity existing capacitor field as a known preliminary stage, followed by a expediently only a short spray field and then again with a capacitor field provided, the charging zone by means of the -sprühend made leading edges of the High-voltage electrodes of the downstream deposition zone is formed.

Experience has shown that these are those escaping from the gas generator with the gas Suspended particles at least partially due to the processes in the generator Electrically charged when they get into the electrostatic precipitator: As a result, now that the gas at the point of entry into the electrostatic precipitator in a manner known per se reaches a capacitor field, it is achieved that with the electrical pre-charge provided float excreted and in a relatively even distribution be deposited in this capacitor field. The following short spray zone, that of the leading edges of the high-voltage electrodes of the downstream deposition zone is formed, takes care of the charging of the residual dust, which is then in the second Capacitor field is deposited. In this way it succeeds in keeping the dust down to distribute evenly over the entire precipitation area of the electrostatic precipitator and to avoid overloading the collecting electrodes at the gas inlet. Consequently can now reduce the operating time of the filter without having to clean the electrodes many times that of the previous equipment with just one spray Deposition field can be increased.

It is known per se, the high-voltage electrode of a capacitor array to be provided with spray organs. In contrast, the invention is the application of this training in combination with this also known per se Upstream of a 'capacitor field for a special purpose, namely to create a narrowly limited electrical generator gas cleaning system on a motor vehicle. In the known upstream connection of a capacitor field, this is followed by an off Spray and precipitation electrodes existing electrical field for simultaneous electrical charging and deposition of suspended particles while according to the invention a very short spray zone and again a capacitor field follow.

In the drawing it is schematically illustrated how the invention can be executed.

With r the grounded collecting electrodes and with a the non-spraying electrodes Counter electrodes of the capacitor field facing the inlet side of the electrostatic precipitator designated. The counter electrodes 3 of the downstream capacitor field are on their leading edges 4 facing the gas flow formed spraying, so that on At this point there is a short spray zone opposite the electrodes.

Claims (1)

PATENT CLAIM: Electrostatic precipitator for generated on a motor vehicle Generator gas, with a deposit-less spraying charge zone and a subsequent one spray discharge-free deposition zone, characterized in that the spraying Charging zone is preceded by a capacitor field as a pre-stage known per se and the charging zone by means of the sprayed leading edges of the high-voltage electrodes the downstream deposition zone is formed.