RU2011140764A

RU2011140764A - RING ADSORBER KOCHETOV

Info

Publication number: RU2011140764A
Application number: RU2011140764/04A
Authority: RU
Inventors: Олег Савельевич Кочетов; Мария Олеговна Стареева
Original assignee: Олег Савельевич Кочетов; Мария Олеговна Стареева
Priority date: 2011-10-10
Filing date: 2011-10-10
Publication date: 2013-04-20
Also published as: RU2504423C2

Abstract

1. Кольцевой адсорбер, содержащий цилиндрический корпус с крышкой и днищем, выполненными эллиптической формы, причем в крышке смонтированы загрузочный и смотровой люки, причем загрузочный люк соединен с бункером-компенсатором, расположенном в крышке, а штуцер для подачи исходной смеси, сушильного и охлаждающего воздуха расположен в нижней части корпуса, в которой закреплены опоры для базы под внешний и внутренний перфорированные цилиндры, причем выгрузка отработанного адсорбента осуществляется через разгрузочный люк, установленный в нижней части корпуса, который закреплен в, по меньшей мере, трех установочных лапах, а штуцер для отвода паров и конденсата при десорбции и для подачи воды расположен в днище, в котором закреплен штуцер для отвода очищенного газа и отработанного воздуха и для подачи водяного пара, причем он закреплен через коллектор, имеющий два канала, причем в одном из которых расположена заслонка для процесса десорбции, с барботером, отличающийся тем, что барботер выполнен тороидальной формы по всей высоте перфорированных цилиндров, а штуцер для предохранительного клапана установлен в верхней части корпуса.2. Адсорбер по п.1, отличающийся тем, что процесс адсорбции и десорбции протекает при следующих оптимальных соотношениях составляющих аппарат элементов: коэффициент перфорации тороидальной поверхности барботера лежит в оптимальном интервале величин: K=0,5…0,9; отношение высоты Н цилиндрической части корпуса к его диаметру D находится в оптимальном соотношении величин: H/D=2,0…2,5; отношение высоты Н цилиндрической части корпуса к толщине S его стенки находится в оптимальном соотношении вели1. An annular adsorber containing a cylindrical body with a lid and a bottom made of elliptical shape, moreover, the loading and inspection hatches are mounted in the cover, the loading hatch being connected to a compensating hopper located in the cover, and a fitting for supplying the initial mixture, drying and cooling air located in the lower part of the housing, in which the supports for the base are fixed under the external and internal perforated cylinders, and the spent adsorbent is unloaded through the discharge hatch installed in the lower part of the housing, which is fixed in at least three mounting legs, and the fitting for venting vapors and condensate during desorption and for supplying water is located in the bottom, in which the fitting is mounted for venting purified gas and exhaust air and for supplying water vapor, moreover, it is fixed through a manifold having two channels, moreover, in one of which there is a shutter for the desorption process, with a bubbler, characterized in that the bubbler is made of a toroidal shape over the entire height of the perforated cylinders, and the nozzle for the safety itelnogo valve installed in the upper part korpusa.2. The adsorber according to claim 1, characterized in that the adsorption and desorption process proceeds with the following optimal ratios of the components making up the apparatus: the perforation coefficient of the toroidal surface of the bubbler lies in the optimal range of values: K = 0.5 ... 0.9; the ratio of the height H of the cylindrical part of the body to its diameter D is in the optimal ratio of values: H / D = 2.0 ... 2.5; the ratio of the height H of the cylindrical part of the body to the thickness S of its wall is in the optimal ratio

Claims

1. An annular adsorber containing a cylindrical body with a lid and a bottom made of elliptical shape, moreover, the loading and inspection hatches are mounted in the cover, the loading hatch being connected to a compensating hopper located in the cover, and a fitting for supplying the initial mixture, drying and cooling air located in the lower part of the housing, in which the supports for the base are fixed under the external and internal perforated cylinders, and the spent adsorbent is unloaded through the discharge hatch installed in the lower part of the housing, which is fixed in at least three mounting legs, and the fitting for the removal of vapors and condensate during desorption and for supplying water is located in the bottom, in which the fitting for securing the purified gas and exhaust air and for supplying water vapor is fixed, moreover, it is fixed through a manifold having two channels, moreover, in one of which there is a shutter for the desorption process, with a bubbler, characterized in that the bubbler is made of a toroidal shape over the entire height of the perforated cylinders, and the nozzle for the safety itelnogo valve installed in the upper housing part.

2. The adsorber according to claim 1, characterized in that the adsorption and desorption process proceeds with the following optimal ratios of the components making up the apparatus: the perforation coefficient of the toroidal surface of the bubbler lies in the optimal range of values: K = 0.5 ... 0.9; the ratio of the height H of the cylindrical part of the housing to its diameter D is in the optimal ratio of values: H / D = 2.0 ... 2.5; the ratio of the height H of the cylindrical part of the body to the thickness S of its wall is in the optimal ratio of values: H / S = 580 ... 875.

3. The adsorber according to claim 1, characterized in that the adsorbent is made in the form of balls, as well as solid or hollow cylinders, grains of an arbitrary surface obtained during its manufacture, as well as in the form of short segments of thin-walled tubes or rings of equal size in height and diameter: 8, 12, 25 mm.

4. The adsorber according to claim 1, characterized in that the adsorbent is made in the form of hollow balls, on a spherical surface of which a helical groove is cut, having in cross section perpendicular to the helix a profile such as a Berl saddle or Itallox saddle.

5. The adsorber according to claim 1, characterized in that the adsorbent is made in the form of cylindrical rings, on the side surface of which a helical groove is cut.

6. The adsorber according to claim 1, characterized in that the adsorbent is made in the form of cylindrical rings, on the side surface of which a helical groove is cut, having in cross section perpendicular to the helix a profile such as a Berl saddle or Itallox saddle.

7. The adsorber according to claim 1, characterized in that the adsorbent is made in the form of toroidal rings.

8. The adsorber according to claim 1, characterized in that the adsorbent is made in the form of toroidal rings having a profile such as a “Berl saddle” or a Itallox saddle.

9. The adsorber according to claim 1, characterized in that the adsorbent is spherical in shape, through which radial recesses are made, the recesses being in the form of cylindrical, conical, spherical surfaces, or any surface of revolution bodies, for example a paraboloid, an ellipsoid.