SE506745C2 - Purification device for purifying a contaminated gas medium - Google Patents

Abstract

The present invention relates to a purification arrangement for purification of a contaminated gaseous medium comprising an ionising equipment (3) for ionising air and at least one mixing chamber (2) wherein the contaminated medium is fed through the mixing chamber (2) in a main flow therethrough and ionised air is added to the main flow from the side. A main feature of the arrangement according to the invention is that the ionised air is fed into the mixing chamber with a flow velocity which substantially exceeds the flow velocity of the main flow.

Description

506 10 15 20 25 30 35 745 but still relatively cheap in terms of both manufacturing and operation.

Summary of the invention This object is achieved with a purification device according to claim 1.

By introducing the ionized air into the mixing chamber at a rate that substantially exceeds the flow rate of the main stream, the ionized air will rapidly penetrate into the main stream, thereby increasing the probability that a contaminant molecule of the main stream increases.

According to the ionized air via several, successively in main fluxes to be hit by an ionized particle, the aspect of the invention is further supplied to the orifices arranged in its direction of flow. In this way, said probability increases further, and thus also the degree of purification.

According to a further aspect of the invention, the ionized air is supplied to the main flow with a flow direction having at least a 40 ° angle relative to the flow direction of the main flow. This further improves the mixing.

Brief description of the drawings The invention will now be described in more detail by way of example with reference to an exemplary embodiment, and with reference to the accompanying drawing, which shows a schematic view of a purification device according to the invention.

Description of preferred embodiments A purification device according to the invention comprises an inlet pipe 1 for supplying polluted air, a purification part, comprising three mixing chambers 2, and an outlet pipe 6 for removing purified air. In the exemplary embodiment, three mixing chambers 2 are used, but of course other numbers, such as one or two, can also be used.

Through the mixing chambers 2 a main flow of polluted air takes place. From the side, however, there is also a supply of ionized air. This air is ionized in an ionization equipment 3, which comprises an electrically charged surface which, through corona discharges, emits electrons to the surrounding air. The air to be ionized must be (Air Quality 1) serized to the desired extent, which, however, is the case with tea to be relatively clean in order to be able to ionize ordinary fresh air. The air is carried after it has been ionized via pipes 4 to orifices 5 in the side walls of the mixing chambers 2. Each mixing chamber is in the exemplary embodiment provided with four orifices 5, which are arranged one after the other in the direction of flow of the main flow. Other numbers of estuaries are of course possible, but it is advantageous to have more than one estuary per chamber.

More inflow mouths provide better mixing, but at the same time increase the speed (and amount of gas) of the main flow, which makes the purification process more difficult downstream.

The flow rate of the inflowing ionized air is preferably considerably much higher than the flow rate of the main flow. The speed ratio is suitably at least 3/1, and preferably at least 5/1. The speed difference is important for the ionized air to be able to penetrate into the main flow. However, the size of the optimal speed ratio depends on the pollution concentration and the density of the gas to be purified. Higher density means that the speed should be higher, and lower density that the speed may be lower. Usually, however, a speed ratio of about 10/1 is preferred. However, the flow rate of the ionized air should be at least 0.5 m / s for the mass inertia laws to be applicable instead of the gas laws. Furthermore, there is an upper critical speed given by the design of the nozzles. However, this upper speed limit depends on the total pressure, but is usually around 18 m / s.

The nozzles should further be arranged so that the flow direction of the ionized air has an angle relative to the flow direction of the main flow.

This angle should be at least 40 °, and preferably the inflow of ionized air is substantially perpendicular to the main flow. How large the angle should be, however, depends on the density difference between the gases and the ionization energy.

The purification device according to the invention further comprises a control system. The control system comprises sensors 8 and 9 for measuring the pollution content in incoming polluted air and purified outgoing air, respectively. The difference between these values, for example stated as a degree of purification 1 in the form of the amount of contaminants minus minus the amount of contaminants and divided by the amount of contaminants included, can then be used to control the purification device.

The result from the sensors 8, 9 is therefore transmitted via lines to the ionization equipment, and is used to control the degree of ionization and flow rate of the ionized air. Normally a mixture of 20-30% ionized air in the main flow is desirable. The sensors can, for example, be commercially available photoionization instruments, such as Photovac PID 2020 or Photovac lOS Plus.

Other input parameters can also be used for the control, such as the direct amount of pollutants in the exhaust air, the number of ions in the exhaust air, and so on.

It is also an advantage to allow the flow tube for the main flow to expand before the mixing chambers, as takes place in the exemplary embodiment, in order thus to reduce the flow rate of the main flow through the mixing chambers.

It is further possible to combine the purification device according to the invention with other types of purification, such as filters of various kinds, etc., in order in this way to further improve the purification effect. 506 745 The invention has been described above by means of exemplary embodiments. However, it will be appreciated by a person skilled in the art that several variants are possible, some of which have also been mentioned, without the idea of invention being lost. Such related variants must therefore be considered to be encompassed by the present invention, as defined by the appended claims.

Claims (8)

506 10 15 20 25 30 35 745 PATENT CLAIMS A purification device for purifying a contaminated gaseous medium, comprising an ionization equipment (3) for ionizing air and at least (2) the purifying chamber re (2) ionized air is supplied to the main stream from the mains, the contaminated medium being fed in a main flow by the ionized a mixing chamber- through mixing the same and the side k n - the air is introduced into the mixing chamber at a flow rate which substantially exceeds the flow rate of the main flow. Purification device according to claim 1, characterized in that the ionized air is supplied via several orifices (5), placed one after the other in the flow direction of the main flow. Purification device according to claim 2, characterized in that they are arranged one after the other. Purification device according to any one of the tent requirements, characterized by the velocity of the ionized air being as great as the flow rate of Purification device according to any one of the tent requirements, characterized by the velocity of the ionized air being as great as the flow rate of Purification device according to any tent requirement, characterized by the velocity of the ionized air being as great as the flow rate of Purification device according to any one of the tent claims, characterized in that at least three such orifices (5) of the above have a flow rate of at least 3 times the main flow. of the above pa- that flow has- at least 5 times the main flow. of the above pa- that flow has- about 10 times the main flow. of the above that the ionized air is supplied to the main flow with a flow direction having at least a 40 ° angle relative to the flow direction of the main flow. 7 Q _ 506 745 Purification device according to one of the preceding claims, characterized in that the ionized air is supplied to the main flow with a flow direction substantially perpendicular to the flow direction of the main flow.