PL97584B2 - - Google Patents

Description

The subject of the invention is a device for the adsorption of gaseous pollutants with the use of solid adsorbents, especially carbon ones, in which desorption is carried out with known desorbing agents such as water vapor. There are devices for adsorption of gaseous pollutants, in which the adsorbent bed has the shape of a flat layer placed horizontally in the body cylindrical. Devices for adsorption of gaseous pollutants are also known, in which the adsorbent bed has the shape of a ring placed in a cylindrical body. Due to the compressive strength, the thickness of the adsorbent bed in known devices is limited to one meter. These devices are adapted to purify gases with quite high concentrations of pollutants and gas flow up to about 40 thousand. m3 / h This is a limitation resulting from the required gas flow rates through the bed and the resulting herds of device sizes that impose certain design requirements. These devices are usually adapted to the desorption of pollutants from the adsorbent bed, i.e. without disassembly. There are also devices for the adsorption of gaseous pollutants designed for air purification from trace amounts of odorants, requiring a large volume of adsorbent and a very large gas flow area through the adsorbent. The adsorbent is here arranged in a series of containers placed in parallel on a single support plate with a large area separating the two chambers of the device or directly two rooms. Due to the large mass of these devices and constructional features, the adsorbent bed is not regenerated by desorption, but the bed is dismantled and regenerated outside the device. Desorption is impossible due to the inefficiency resulting from the large mass of the device in relation to the mass of adsorbed pollutants and due to the design features that prevent the organization of processes accompanying desorption, i.e. condensation, condensate drainage, drying, cooling of the bed, etc. In the case of treatment, the method of adsorption of large amounts of gases With a contamination concentration ranging from several hundred milligrams to several grams in 1 m3, the known devices do not pass the test due to the large size resulting from construction difficulties and large areas occupied by the devices. At the same time, the requirement of regeneration of the bed without its disassembly excludes the possibility of adapting devices for deodorization. The required flow rates of contaminated gas through the adsorbent bed dictate the considerable size of the flat bed. The aim of the invention is to solve the structure of a device for adsorbing gaseous pollutants from large volumes of air, with the possibility of regenerating the bed in the device with a desorbing agent, while the weight of the device and its dimensions are much smaller than known devices for the same operating conditions. This aim has been achieved thanks to the invention in which the adsorbent is placed in cylindrical containers, the walls of which are made of a mesh or a perforated sheet, and the distance between the outer and inner walls of the container corresponds to the thickness of the adsorbent bed, and the containers can be connected in series on flanges and are hung on carrier plate, and the desorption is carried out with a desorbing agent flowing from a pipe located below the adsorbent containers. The containers can also be cuboid-shaped and are inserted by insertion into a multi-tiered, specially shaped support plate. The essence of the invention is explained in more detail in the example embodiment in the drawing, in which fig. 1 shows a cross-sectional view of the device, fig. 2 - sectional view of the device Fig. 3 - a cross-sectional view of the device variant and Fig. 4 - a longitudinal section view of the device. device body. The solid adsorbent is placed in cylindrical containers 3 made of mesh or perforated sheet, with the distance between the inner and outer walls of the container 3 corresponding to the thicknesses of the adsorbent bed used. The containers are connected in series in any number on the flanges 7. The device can be fitted with several to a dozen or so containers, depending on the needs, which are suspended on the carrier plate 8. After the adsorption capacity of the adsorbent bed is exhausted, desorption is carried out with the help of steam flowing from the pipe 4, located below the container 3. Water vapor and desorbed pollutants are drained from the device through the connector 5, and the condensate through the connector 6 located below the pipe 4. Fig. by sliding into a multi-level, specially shaped support plate 9. The containers are arranged on a multi-level in an amount on one level depending on the quantity of cleaned gases and the assumed speed of their flow through the bed. Desorption is carried out by blowing steam from the pipe 4. PL

Claims (2)

Claims 1. Device for adsorption of gaseous pollutants, characterized in that it has cylindrical containers (3) filled with adsorbent, the walls of which are made of a mesh or perforated sheet, and the distance between the inner and outer walls of the container (3) corresponds to the thickness of the adsorbent bed, the containers (3) are connected to each other in series on flanges (7) and suspended on a support plate (8), and that it includes a pipe (4) located below the containers (3) for supplying the desorbing agent. 2. Device for adsorption of gaseous pollutants according to claim A device according to claim 1, characterized in that the containers (3) are cuboid-shaped and are inserted by insertion into a multi-level specially shaped support plate (9) .97 584 / *!. 4 fig 2.m%. 23, -ES ^ ^ 23 5, ^ 9 2 EC 3 te m K / * /% • #. * PL