SE465954B - Method and device for cleaning a gas, such as air, from organic matter by means of an adsorbent - Google Patents

Abstract

Method and device for cleaning a gas, such as air, from organic matter. An adsorbent is used which is regenerated by heating to a temperature at which the organic matter is combusted. The gas to be cleaned, such as air, is passed through a bed 14 comprising a support structure for the adsorbent and a quantity of adsorbent distributed on this support structure. The quantity of adsorbent is adapted to the intended application, and the regeneration of the adsorbent takes place directly with air which is heated to the said regeneration temperature. <IMAGE>

Description

465 10 15 20 25 30 35 954 adhering to the amount of heat developed, an increase in temperature will occur in the adsorbent bed and there may be problems in controlling this temperature increase and an overheating of the bed may occur.

The main object of the invention is to provide a method and device for purifying gas from organic substances as initially described, in which the amount of adsorbent can be adapted to the current purification case while maintaining a high degree of purification.

Another object is to provide a method and an arrangement of the type indicated in which the amount of adsorbent per unit volume can be limited to a value at which the regeneration air can transport away the amount of heat developed during combustion. Another object is to provide a method and a device with which special substances such as styrene can be separated from air.

These and other objects of the invention are achieved in that the method and the device have obtained the features stated in the following claims.

Thus, the invention is characterized in that the gas, such as air, to be purified is passed through a bed comprising a support structure for the adsorbent and an amount of the adsorbent distributed on the support structure, which amount is adapted to the intended application, the regeneration of the adsorbent taking place directly with air heated to the said regeneration temperature.

When the adsorption is complete, the bed used in this way will contain a smaller amount of organic material and when the regeneration takes place, a smaller amount will be burned, which gives the possibility to control the heat development.

As mentioned in the introduction, the adsorbent must be a non-combustible material, preferably zeolite, and the support structure can then be coated with the adsorbent, for example in powder form, in such an amount as is suitable for the application in question, ie. sometimes a lot of powder can be applied to the bed structure, sometimes a small amount. In this way, it is thus possible to tailor plants that are adapted to the current treatment case with a degree of purification maintained. The bed can be given maximum adsorption capacity by limiting the amount of zeolite per unit volume to a value where the regeneration air can transport away the amount of heat developed during combustion, so that there is no risk of such temperature increases that the bed or its casing and connecting unit are damaged.

As material for the supporting structure of the bed, insert bodies can be used which are constructed in a manner known per se from alternating flat and pleated layers, between which a large number of continuous channels are formed through which the gas, such as air, to be purified from the organic substances. The insert bodies then consist of a non-combustible material and are surrounded by a casing which is also of non-combustible material and which has inlets and outlets for the gas to be purified and for the regeneration air.

The invention will be described in more detail below in connection with exemplary embodiments shown in the drawings.

Figure 1 then shows in perspective a device for carrying out the method according to the invention, wherein the device is partly cut away. Figure 2 schematically shows a view of a complete plant for purifying gas, such as air, from organic substances. The device 10 shown in Figure 1 comprises a housing 12 in which a number of insert bodies 14 are arranged, the number varying depending on the desired application.

The insert bodies are built up of alternately pleated and flat layers so that a number of channels are formed. The housing 12 is provided with an inlet portion 16 through which the gas to be purified is introduced into the channels of the insert bodies 14, as indicated by the arrow 18.

To divert the purified gas or air from the device 10, a corresponding outlet portion 20 of the housing is arranged at the opposite end of the housing 12. The insert bodies form a support structure for the adsorbent, preferably zeolite, which is used for the purification and which is arranged, for example, in the form of a powder distributed over the surfaces of the layers by means of a coating method known in the art with which the powder is adhered to the surfaces. The invention is based on the adsorbent such as the zeolite powder 465 954 10 15 20 25 30 being distributed over the surfaces of the insert bodies in an amount per unit volume which corresponds to the desired adsorption capacity and which allows the regeneration air to transport away the amount of heat evolved during the burning of the adsorbed organic substances. . For a device as above, the following can be stated: Dimensioning example gel.

Air flow: 20,000 mf / h Concentration: 200 mg / m3 Styrene amount: 4 kg / h = 32 kg / day Amount of zeolite: approx. 600 kg = 6 mf rotor material Residence time 1.1 s Air speed: 1.4 m / s Pressure drop : 750 Pa ~ Total amount of bed material: approx. 1000 kg Total heat demand for heating to 500 ”C = 200 kwh Combustion heat in 32 kg styrene = 400 kWh Air flow at start-up; 500 Nmf- / n at 250 ~ = c - 45 kw Estimated regeneration time incl. cooling: 8 h Figure 2 shows a complete plant according to the invention for carrying out the method. It can be seen that the device 10 according to Figure 1 is connected by pipes to an oven 22 for heating the regeneration air which is supplied to the bed 10 during the regeneration and a heat exchanger 24 with which heat is exchanged between exhausting regeneration air and air supplied to the oven for heating to regeneration temperature.

The system shown in Figure 2 also comprises the necessary dampers S1-5 and valves V1 for regulating the air flows and temperature sensors TT.1-5 for sensing the temperatures at the various points of the system.

As can be seen from the above, according to the invention there is provided a method and a device with which gases, such as air, can be purified from organic substances, especially those which are difficult to handle, such as styrene, the content of organic substances per unit volume can be regulated in relation to the passing amount of regeneration gas in such a way that the regeneration can take place directly by means of air and that this can transport away the amount of heat developed during the combustion during regeneration. It is essential for the invention that the amount of adsorbent is distributed over the bed in an amount per unit volume corresponding to the desired adsorption capacity and that the bed itself has a volume which allows a sufficient amount of regeneration air to pass through the beds to remove the heat during regeneration.

Claims (3)

465 954 é PATENTKRAV 1. A method of purifying a gas, such as air, from organic substances by means of an adsorbent, the adsorbent being regenerated by heating to a temperature at which the organic substance is combusted, characterized in that the gas, such as air , to be purified is passed through a bed comprising * a support structure for the adsorbent, wherein as adsorbent zeolite is used, which is distributed, for example, in powder form on the bed in an amount required for the intended application and wherein the amount of adsorbent per unit volume of the bed is such that the air heated to regeneration temperature, which is supplied to the bed in its entirety, is able to transport away the amount of heat developed during regeneration. Device for carrying out the method according to claim 1, for purifying a gas, such as air, from organic substances by means of an adsorbent, which is regenerated by means of heating, characterized by a device arranged in a housing (12). bed (14) on which the adsorbent, which consists of zeolite, for example in powder form, is distributed in an amount per unit volume of the bed which allows the supplied regeneration air to transport away the amount of heat developed during regeneration, the casing having inlet (16) and outlet portions (20) for the gas to be purified and for the regeneration gas supplied to the whole bed during regeneration. Device according to claim 2, characterized in that the bed (14) comprises a number of insert bodies (14), which are built up of alternating flat and pleated layers between which a large number of continuous channels are formed for the gas which to be purified and for the regeneration air.