NO781843L - ELECTROSTATIC STOVE SEPARATOR. - Google Patents

Description

This invention relates to an electrostatic dust separator of the wet type, in which the flow of the medium to be cleaned is caused to pass at least a pair of charged electrodes, one pole of a voltage source being connected to one electrode and the other pole with the other electrode, so that an electrostatic field is produced.

Electrostatic precipitators are used to remove pollutants from air, to purify and separate gases and to remove particles contained in gases. According to the main principles of devices of a known type, the medium to be purified, for example air, is made to flow through a space provided with discharge electrodes and collector plates. A sufficiently high voltage is provided between the discharge electrodes and the collector plates to cause a so-called corona discharge from the discharge electrodes and at the same time an electrostatic field between these electrodes and the collector plates. A negative voltage is preferably applied to the discharge electrodes to produce a negative corona and ionization. During the corona discharge, both positive and negative ions are developed, of which the positive ions remain at the discharge electrode due to its negative charge, while the negative ions move towards the collector plates along the field lines in the electrostatic field. The negative ions will then capture the particles to be removed from the medium, charge them and lead them towards the collector plates. The medium that is cleaned in this way is then drawn out from the other end of the device.

The collector plates are cleaned at regular intervals to remove the dust deposited on them. This cleaning is usually carried out using powerful water jets. In the meantime, vibration devices are also used for

to achieve a better effect. The difficult cleaning of the collector plates is actually the most serious shortcoming of this type of dust separator. Dust particles will stick very well to the collector plates. The cleaning mechanism therefore becomes very complicated and expensive so that devices of this

type can only be used as large units in connection with comprehensive air conditioning systems and dust removal installations.

Dry electrostatic dust separators have proven to be rather ineffective, as the result of the cleaning is very poor. Furthermore, they can involve a risk of fire and explosion, because deposited dust can ignite under certain conditions, which can easily spread in environments with a lot of dust. Therefore

they cannot and are not allowed to be used, for example, in certain industries. Removing dust deposits from the device can be very difficult.

Wet-type electrostatic dust separators are also known, where a water spray is also introduced as finely divided droplets at the same time as the air to be cleaned. These small droplets are then ionized by the discharge electrodes and the ions will capture the dust particles in the air and lead them towards the collector plates. The construction of this type of dust separator is very complicated and their maintenance is also difficult so that high operating costs arise.

The purpose of the present invention is to provide an efficient and structurally simple electrostatic dust separator suitable in particular for air conditioning in rooms as well as for industrial dust separation.

Another object is to provide a device which uses as little energy as possible, which has a continuous removal of dust particles and which allows the maintenance of the device to be as easy as possible.

What is primarily new and distinctive about the dust separator according to this invention consists in the fact that the electrodes are arranged in a flow-through space close to each other and one after the other to produce several electrostatic fields one after the other, through which the medium flow to be cleaned is led , and where the electrodes that are connected to one pole of the voltage source mostly have a string-like shape, and the other electrodes that are connected to the other pole of the voltage source are mainly plate-shaped, so that inhomogeneous electrostatic fields appear, as the applied voltage is determined to be so great that it does not cause any corona discharge effect, but the electrostatic fields cause the separation of positive and negative charges on the particles from each other, so that these are converted into electric dipoles that start to move towards the electrode whose electrostatic field strength is greatest, and that the string-shaped electrodes are in front rdnet a fluid flow that carries with it the particles that hit the electrode.

A construction according to the characteristic features of this invention results in a dust separator of very simple structure, which is efficient and reliable during operation and easy to maintain. The amount of energy required is also small.

Some embodiments of the invention will be mentioned

in the following description with reference to the drawings, where:

Figure 1 schematically shows the basic principle for the operation of a device according to this invention. Figure 2 shows in section a device according to the invention seen from one side and drawn schematically. Figure 3 shows from the front one (positive) of two electrodes in a device according to the invention, on an enlarged scale. Figure 4 shows the same as Figure 3 from the side. Figure 5 shows a section along the line A-A in Figure 1, where the negative electrode plate is visible. Figure 6 shows in enlarged detail an advantageous method of construction for the negative electrode plate. Figure 7 partially shows a side view in section of another embodiment of the dust separator according to the invention. Figure 8 shows a device according to the invention from the front. Figure 9 shows a plan view of the electrode unit in the device in Figure 7. Figure 10 shows a side view of the unit in Figure 8, partially in section.

Figure 11 shows a plan view of another embodiment

of the electrode unit in contrast to the one in Figure 7.

Figure 12 shows a side view of the unit in Figure 10,

and partly on average..

The principle of an electrostatic dust separator according to this invention appears in Figure 1, where A and B

are electrodes shown in cross section. Electrode A is a negative plate electrode and electrode B is a positive string-shaped or rod-shaped electrode. A ratio is connected to the electrodes. show a high voltage of a few kilovolts that produces an electrostatic field between the electrodes. When a particle C carried by flowing air enters this field, it is converted into an electric dipole and begins to move in the direction where the field strength is highest, in this case towards the string B. As according to one aspect of this invention, a string formed by a water jet or thin current is used, the particle is carried away by this. In a dust separator according to the invention, the air is therefore not ionized in order to charge the particle to be removed with electricity. No electrical discharge occurs.

A device (figures 2 to 6) according to this invention comprises a box-like framework 1 which most conveniently has a square or rectangular shape. The top 2 of the box or framework is open and may be provided with a lid to open for instruction and maintenance. Both ends are also open. The opening in the end part 3 is equipped with an air filter 4

which itself is of known construction, and at the other end 5

a fan 6 is fitted which causes airflow in the dust separator. It is of course possible to provide the openings with suitable grids or nets which, without obstructing the air flow, protect the internal parts and which can be opened to enable maintenance. The box-like framework can most expediently be produced from a suitable plastic material to make it easier to provide electrical insulation. The bottom of the box-work comprises a basin 7 for receiving liquids, and legs 8 are shown on the underside.

According to the invention, positive and negative electrodes 10 and 11 are arranged alternately and in order in the central tube 9. The positive electrodes 10 (figures 3 and 4) consist of a frame 12 with a liquid trough 13 or similar on top. The bottom of the trough 13 is provided with small through-flow openings 14 placed close to each other. Through these openings, thin strings 15 are passed, the upper ends of which are attached to a rod which runs along the middle of the trough, and the lower ends of which are attached to the bottom part of the frame. The purpose of these strings is to act as guides for the liquid flow.

Water or another liquid flows along these strings. Oil is also suitable as this makes the insulation easier. In this case, the guide string must consist of some other electrically conductive material, such as a metal. An overflow tube 17 is shown at the center of the electrode frame to prevent the trough from being overfilled. The troughs for individual electrodes are further connected to each other by means of connecting pipes 18 which keep the liquid in all troughs at the same level. The inner surface of the box or framework for the device can be provided with funnels or guides into which the electrodes are pushed so that they take the correct position. Intermediate plates 19 separate the electrodes from each other and support them. However, the electrodes are electrically connected to each other, i.e. by means of the connecting pipes 18, which may be electrically conductive. The lower ends of the electrodes 10 reach below the liquid level in the basin 7. The dust separator is provided with a pump 20 to pump liquid from the basin 7 to the trough 13 when the dust separator is in operation. From the trough 13, the liquid flows continuously down along the strings 15. The bottom of the pool is provided with a filter 21, the purpose of which is to collect impurities from the liquid in the pool. This filter is of course replaceable or suitable for cleaning.

The negative electrodes 11 resemble a wire-mesh plate (Figures 5 and 6) or a fine-mesh "honeycomb" or cell plate so as to allow air flow to pass through. The plates 11 can also be solid plates without holes, provided that the air flow runs parallel to them. The plates 11 can also be coated with an electrically insulating material to prevent electrical discharge between the electrodes. Most expediently, they are further mounted in the funnels or guides which are formed on the inner wall of the framework. These guides are provided with stopping devices to prevent the electrodes from going down to the surface of the liquid in the pool 7. This pool is provided with transverse dividing walls just below the electrodes, but these dividing walls do not divide the pool into completely separate sections.

For operation of the dust separator, the poles of a voltage source 22 whose voltage is higher than 4 kilovolts are connected to the electrodes, the pump and fan also being started.

When voltage builds up on the electrodes and the airflow to be cleaned passes through the dust separator, the various electrical charges on small dust particles and other particles in the air will be separated and the particles will become electric dipoles as already mentioned above. The particles are now moved towards the string electrodes formed by the liquid flow, which then carry the particles away and the air is effectively purified. The poles of the voltage source can be interchanged and, moreover, one of the two electrodes, for example the liquid flow, can be grounded. Despite this, the direction of movement of the particles in the electrostatic field remains the same, ie in the direction towards the string-like electrodes.

Ordinary mains water is suitable for use in the dust separator, because this water always contains some salt, which is sufficient to make the water electrically conductive. It is obvious that other liquids can also be used. If the flowing liquid is insulating, the guide strings must be made of an electrically conductive material.

Figures 7 to 12 show a preferred embodiment according to the invention. This device has a box-shaped casing 30 which is preferably made of plastic material. An opening 32 is formed in the front wall 31 of the mantle through which the air to be cleaned is led into

the device. A fan 33 is mounted in the opening 32 which blows the air through a room 34 in which the electrostatic elements are placed. The air is led out through another opening 3 5 on the opposite side. At the bottom of the device, a pool 36 is formed which collects the rinsing water together with the dust particles that flow down from the electrode elements. In connection with the pool 36, a pump 37 is also installed

drive motor and filter. The filter prevents dust particles from being carried back to the elements together with the water which is again pumped back and flows in at the upper part of the elements through

a hose 38. Only a low-power pump is needed for this purpose, because the required amount of water is quite small. The device is also provided with a voltage source, for example a transformer 39, which transforms the mains voltage into the required operating voltage of around 4 kilovolts.

The electrode elements (figures 9 to 12) in this embodiment comprise a rectangular frame 40 which is preferably made of plastic material. The framework. 4 0 comprises vertically standing edge parts 41 on opposite sides of the frame. A trough 42 is arranged at the top and bottom. The trough at the top is open upwards and thus forms a channel that receives rinsing water for the electrodes. Support plates .43 are also attached to the upper and lower part of the frame, which make the construction more rigid. At the bottom of the troughs 42, a plurality of through-flow openings 44 are formed which are evenly distributed and located close to each other. Through these openings pass thin strings or wires, preferably of metal, to form the electrodes 45. The openings 44 have a larger diameter than the diameter of the strings, so that the water is allowed to flow down through the holes and along the strings towards the pool 36. In addition to the string-shaped electrodes, a plate-shaped electrode 46 is also mounted on the frame 40. The plate-shaped electrodes 46 are preferably designed as a mesh plate as in the first embodiment and are also coated with an insulating material as previously mentioned.

The troughs 4 2 on top of the electrode frames serve as channels for the rinsing liquid as in the first embodiment.

In the present embodiment, adjacent troughs are not connected to each other by means of overflow pipes, but an overflow nose is formed on the middle part of the edge of the trough by bending the edge partly out and down. When the electrode frames are now mounted in the housing, the first frame is put in place and then the following elements so that the bent part 47 at the edge rests against the edge of the first frame. When water now flows through the hose 38 into the first element on the right, excess water will flow through the overflow into the following frame, etc., so that all frames can receive rinsing water for the electrodes. From the last frame on the left (in Figure 7), excess water will flow into the channel 48 and from there on to the basin 36.

The side part of the troughs 4 2 at the bottom is bent in the same way as above. - Consequently, the frames will support each other with the help of this special feature. This construction is also very useful because the frames can be mounted in their places regardless of which end is up or down. The walls of the mantle or the house can be provided with suitable stops or guides that support the frames in their places.

According to an embodiment shown in figures 11 and 12, the plate electrode in the frame element can also consist of a plurality of metal plate strips 49 which are joined and mounted between the string-shaped electrodes.

The electrode elements according to the described embodiments are very advantageous because they can be cleaned and maintained very easily.

The construction of the electrostatic dust separator using this type of electrode elements can be very simple and economical. Different sizes of dust collectors can be produced using only a few sizes of elements.

The connection between the elements and the poles of the voltage source can also be provided very easily.

Claims (16)

Electrostatic dust precipitator of the wet type by which the flow of the medium to be cleaned is caused to pass at least a pair of charged electrodes, and where one of the poles of the voltage source is connected to one electrode and the other pole to the other electrode so that an electrostatic field is produced, characterized in that the electrodes are arranged in a flow-through space close and one after the other to produce several electrostatic fields close and one after the other, through which the flow of the medium to be cleaned is conducted, and where the electrodes (15, 44) which are connected to one pole of the voltage source is essentially string-shaped and the other electrodes connected to it other pole of the voltage source is essentially the plate, in order to produce inhomogeneous electrostatic fields, the applied voltage having such a magnitude that no corona discharge effect is produced, but so that the electrostatic fields cause separation of the positive and negative charges on the particles from each other, whereby the particles are converted into electric dipoles that begin to move towards the electrode whose electrostatic field strength is greatest, and that the string-shaped electrodes are supplied with liquid currents that wash away the particles that hit the electrodes. 2. Dust separator according to claim 1, characterized in that the flow of liquid to the electrode is guided by a string (15, 45) or the like which is attached to the frame (12, 40) for the electrode. 3. Dust separator according to claims 1-2, characterized in that the electrode (10, 40) consists of several strings (15, 45) which are arranged close to each other in the frame (12, 40). 4. Dust separator according to claims 1-3, characterized in that the upper part of the electrode frame (12, 40) comprises a trough (13, 42) or similar for liquid, the bottom of which is provided with holes (14, 44) through which the strings (15) , 45) pass to the lower part of the frame and through which the liquid flows along the strings. 5. Dust separator according to claims 1-4, characterized in that it has several pairs of electrodes arranged one behind the other or side by side, of which some electrode pairs consist of string-like electrodes (15, 45) and the others of plate-like electrodes (11, 46), and that each group of electrodes is connected to the corresponding pole of the voltage source for generation of an electrostatic field between the electrodes. 6. Dust separator according to claims 1-5, characterized by the electrodes are placed in a box-like framework (1, 30) whose ends are provided with openings (3, 4, 32, 35) for air flow and the bottom with a basin (7, 36) for liquid, and that a pump ( 20, 37) to cause the liquid to circulate through the troughs (13, 42) and strings (15, 45). 7. Dust separator according to claim 6, characterized in that a filter (21) is arranged in connection with the pool (7, 36) to clean the liquid. 8. Dust separator according to claim 6, characterized in that the troughs (13) are provided with an overflow pipe or the like. 9. Dust separator according to claim 6, characterized in that a connecting pipe (18) is arranged between the individual troughs (13). 10. Dust separator according to claim 6, characterized in that one end opening (3) on the box-like framework (1) is provided with a filter (4) and the other end opening (5) with a fan (6). 11. Dust separator according to claims 1-8, characterized in that the plate-like electrodes (11) are either plate-like nets or cloths that allow the air to pass through or metal plates without holes, and that they can be coated with a material that is electrically insulating to prevent electrical discharge. 12. Dust separator according to claims 1-6, characterized in that the electrodes (45, 46) are mounted in pairs in the same frame (40). 13. Dust separator according to claim 12, characterized in that part of the side edge of the trough (42) is shaped as an overflow (47) through which excess rinsing water can flow down into the trough onto the adjacent electrode frame (40). 14. Dust separator according to claim 12, characterized in that the plate-shaped electrode (46) consists of plate strips (49) placed between the string-shaped electrodes (45). 15. Dust separator according to claim 12, characterized in that the plate-shaped electrode (46) consists of a mesh plate mounted in a different plane than the string-shaped electrodes in the frame (40). 16. Dust separator according to claim 12, characterized in that the trough (42) at the lower part of the frame (40) is formed in the same way as the trough at the upper part of the frame.