NL1027093C2 - Device for cleaning exhaust gases from e.g. combustion engine comprises cyclones between inlet and outlet, and measuring device for adjusting gas flow through cyclone - Google Patents

Abstract

A device for cleaning exhaust gases comprises a first inlet (3) for exhaust gases, an outlet (5), at least one cyclone (4) between the inlet and outlet, and a measuring device for adjusting the gas flow through the cyclone. The measuring device determines pressure drop over the device, particularly over the cyclone. The device further has a second measuring device for measuring at least one parameter selected from pressure, current velocity, flow rate and temperature.

Description

Device for removing particles from waste gases

The invention relates to a device for cleaning off-gases from particles, in particular from soot particles.

From among others US-A-5,403,557, GB-A-2,167,979, US-A-3,969,096, US-A-2,873,815, GB-A-2,215,241, FR-A-2,768. 944, DE-A1-198 22 183 and GB-2,199,267, such devices are known which are provided with devices generating a cyclone.

A problem with such devices is that the cyclone can also function under changing conditions, in particular under all operating conditions of an engine.

It is an object of the invention to improve on this.

To this end, the invention provides a device for cleaning off-gas particles, in particular soot particles, comprising a first inlet, an outlet, means for generating at least one cyclone between the inlet and the outlet, and control means. for controlling the air flow in the first inlet.

By controlling, for example, the flow rate, it is possible for the cyclone device to function optimally.

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In one embodiment the control means comprise a measuring device between the first inlet and the cyclone means, for measuring at least one parameter selected from the pressure, the flow rate, the flow rate and the temperature.

In one embodiment the control means comprise a second inlet between the first inlet and the cyclone means.

In an embodiment thereof, the second inlet is provided with an adjustable supply valve. As a result, the operation of the cyclone can be guaranteed in practically all circumstances.

In an embodiment of the device according to the invention, it is further provided with a turbine pump 15 between the first inlet and the cyclone means, in particular between the second inlet and the cyclone means.

In one embodiment thereof, the turbine pump is connected to an electric motor, in particular an electric motor provided with permanent magnets. Such an electric motor can drive the turbine pump, but can also serve as a generator.

In one embodiment, the control means are further provided with a control device, operatively connected to the measuring means for receiving measurement data therefrom, and to the turbine pump and / or the control valve, and with a setting value for at least one of the measurement data, for by means of the turbine pump and / or the control valve at the set value of the measured measurement data. When the control device is, for example, a computer provided with a memory or data storage, in which target values are included that guarantee the operation of the cyclone device, the computer can carry out the steps by means of software to compare the measured values with the target values, and control instruments. 35 indicate the control valve and / or the electric motor for controlling the air supply (flow rate, speed) for a proper operation of the cyclone device.

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In WO-A1-02 / 067757 a vacuum cleaner is described provided with a cyclone device, described in detail on pages 4-9. Such a or similar cyclone device is preferably used in the device according to the invention. This application is referred to here as if it were fully included in this description.

This description relates to a cyclone device with a first, cyclone and downstream positioned, multiple parallel, conical cyclones. Such a cyclone device, optionally made of material that is resistant to heat, such as metal or ceramics or special plastics, is particularly suitable as a cyclone device in the device according to the invention.

The invention will be elucidated with reference to a number of exemplary embodiments shown in the accompanying drawings. Shown is:

Figure 1 is a side view of a device according to the invention;

Figure 2 is a top view of Figure 1.

Figure 1 shows a side view, schematically, of a device according to the invention, here. mounted on the top of a bus.

The device according to the invention is provided with an inlet 1, connected to an outlet of in this example an aggregate or diesel engine. A turbine pump 2 is provided in the inlet 1, which turbine pump is drivable by means of an electric motor 7. If the supply of air via the inlet 1 is very large, the turbine 2 can supply energy by means of the electric motor 7, which then functions as a generator. The device according to the invention is further provided with a cyclone device 4 which is connected by means of inlet 3 to the inlet 1. The outlet 5 of the cyclone device 4 is connected to 35 by means of a second turbine 6 ', which turbine is also connected to electric motor 7. outlet 8 of the device according to the invention. The particles separated by means of the cyclone device 4 are collected in a holder or container 9.

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Figure 2 shows a top view of the device according to Figure 1, wherein additionally the control means 2 according to the invention is shown, provided with a control device 12, in particular a computer system provided with data inputs and software and memory and calculating means, and also connecting lines indicating how different components of the device communicate with the control device 12.

The top view also shows the second inlet 15 provided with control valve 10 which is connected to the control device 12. The top view shows the outlet 8 of the device which can be provided with various measuring sensors 14, such as a flow meter, 15 a temperature meter , or a λ sensor or the like. Furthermore, in the device the inlet 5 of the cyclone device is provided with measuring devices 13, for example a flow meter, temperature meter, or λ probe which is also connected to the control device 12.

The operation of the device according to the invention is as follows. Through inlet 1, the exhaust gases from a generator or engine, for example a diesel engine or diesel engine, are supplied to the turbo inlet 2 and via the turbo inlet 2 to inlet 3 of the cyclone device 4. In the inlet of cyclone device 3 the flow rate and / or the temperature or, for example, the carbon monoxide content of the exhaust gases is measured. These measured values are supplied to control device 12. Furthermore, a so-called 'sollwert' or target value of one or more of these parameters is present in the control device 12 in the memory. By driving turbine pump 2 or draining current through the electric motor 7, which may optionally operate as a generator 7, the air supply to the cyclone device is controlled by means of turbine pump 2. If it appears that the flow rate of the air is too low, optionally supply valve 10, which is also connected to the control device 12, can allow extra air through air inlet 1027093 5. Furthermore, optionally also via measurement sensors 14 in the outlet of the device, for example, the flow rate and / or temperature and / or carbon monoxide content can be measured and further control of the turbine pumps or the inlet valve can optionally be brought about on the basis of these measured values.

It will be clear that the above description is included to illustrate the operation of preferred embodiments of the invention, and not to limit the scope of the invention. Starting from the above explanation, many variations will be evident to those skilled in the art that fall within the spirit and scope of the present invention.

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Claims (9)

Device for cleaning off-gases from particles, in particular soot particles, comprising a first inlet, an outlet, means for generating at least one cyclone between the inlet and the outlet, and control means for controlling the air flow in the first inlet. 2. Device as claimed in claim 1, wherein the control means comprise a measuring device between the first inlet and the cyclone means, for measuring at least one parameter selected from the pressure, the flow rate, the flow rate and the temperature. Device as claimed in claim 1 or 2, wherein the control means comprise a second inlet between the first inlet and the cyclone means Device as claimed in claim 3, wherein the second inlet is provided with an adjustable supply valve. 5. Device as claimed in any of the foregoing claims, provided with a turbine pump between the first inlet and the cyclone means, in particular between the second inlet and the cyclone means. Device as claimed in claim 5, wherein the turbine pump is connected to an electric motor, in particular an electric motor provided with permanent magnets. 7. Device as claimed in any of the foregoing claims, wherein the control means are further provided with a control device, operationally connected to the measuring means for receiving measurement data therefrom, and to the turbine pump and / or the control valve, and provided with a set value for at least one of the measurement data, for keeping the measured measurement data at the set value by means of the turbine pump and / or the control 1027093 'valve. 8. Device provided with one or more of the characterizing measures described in the attached description and / or shown in the attached drawings. 9. Method comprising one or more of the characterizing steps described in the accompanying description and / or shown in the accompanying drawings. -o-o-o-o-o-o-o- PvE / MB 1027093 '- ----------