RU2009110536A

RU2009110536A - VERTICAL ADSORBER

Info

Publication number: RU2009110536A
Application number: RU2009110536/05A
Authority: RU
Inventors: Олег Савельевич Кочетов (RU); Олег Савельевич Кочетов
Original assignee: Олег Савельевич Кочетов (RU); Олег Савельевич Кочетов
Priority date: 2009-03-25
Filing date: 2009-03-25
Publication date: 2010-09-27

Abstract

1. Вертикальный адсорбер, содержащий цилиндрический корпус с коническими крышкой и днищем, отличающийся тем, что в крышке смонтированы загрузочный люк, штуцер для подачи исходной смеси с распределительной сеткой, штуцер для отвода паров при десорбции и штуцер для предохранительного клапана, причем в месте стыка крышки и корпуса предусмотрено кольцо жесткости, а в средней части корпуса на опорном кольце установлены балки с опорами, поддерживающие колосниковую решетку, на которой уложен слой гравия, причем слой адсорбента расположен между слоем гравия и сеткой, на которой расположены грузы для предотвращения уноса адсорбента при десорбции, а выгрузка отработанного адсорбента осуществляется через разгрузочный люк, установленный в корпусе, а в днище смонтирован смотровой люк со штуцером для отвода конденсата и подачи воды, а также барботер, выполненный тороидальной формы и закрепленный на конической поверхности днища посредством распорок, причем коэффициент перфорации тороидальной поверхности барботера лежит в оптимальном интервале величин: К=0,5…0,9, а штуцер для отвода очищенного газа расположен на конической поверхности днища. ! 2. Вертикальный адсорбер по п.1, отличающийся тем, что процесс адсорбции и десорбции протекает при следующих оптимальных соотношениях составляющих аппарат элементов: ! отношение высоты H цилиндрической части корпуса к его диаметру D находится в оптимальном соотношении величин: H/D=0,73…1,1; ! отношение высоты Н цилиндрической части корпуса к толщине S его стенки находится в оптимальном соотношении величин: H/S=220…275; ! отношение высоты слоя адсорбента Н1 к высоте Н цилиндрической части 1. A vertical adsorber comprising a cylindrical body with a conical cover and a bottom, characterized in that a loading hatch is mounted in the cover, a fitting for supplying the initial mixture with a distribution grid, a fitting for venting vapors during desorption, and a fitting for a safety valve, at the junction of the cover and a housing, a stiffening ring is provided, and in the middle part of the housing on the support ring there are beams with supports supporting the grate, on which a layer of gravel is laid, and the adsorbent layer is located between a layer of gravel and a grid on which goods are located to prevent adsorbent entrainment during desorption, and the spent adsorbent is discharged through an unloading hatch installed in the housing, and a viewing hatch with a fitting for condensate drainage and water supply is mounted in the bottom, as well as a toroidal bubbler forms and fixed on the conical surface of the bottom by means of spacers, and the perforation coefficient of the toroidal surface of the bubbler lies in the optimal range of values: K = 0.5 ... 0.9, and the fitting for removal of cleaning gas is located in the conical bottom surface. ! 2. The vertical adsorber according to claim 1, characterized in that the adsorption and desorption process proceeds with the following optimal ratios of the constituent elements of the apparatus:! 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 = 0.73 ... 1.1; ! 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 = 220 ... 275; ! the ratio of the height of the adsorbent layer H1 to the height H of the cylindrical part

Claims

1. A vertical adsorber comprising a cylindrical body with a conical cover and a bottom, characterized in that a loading hatch is mounted in the cover, a fitting for supplying the initial mixture with a distribution grid, a fitting for venting vapors during desorption, and a fitting for a safety valve, at the junction of the cover and a housing, a stiffening ring is provided, and in the middle part of the housing on the support ring there are beams with supports supporting the grate, on which a layer of gravel is laid, and the adsorbent layer is located between a layer of gravel and a grid on which goods are located to prevent adsorbent entrainment during desorption, and the spent adsorbent is discharged through an unloading hatch installed in the housing, and a viewing hatch with a fitting for condensate drainage and water supply is mounted in the bottom, as well as a toroidal bubbler forms and fixed on the conical surface of the bottom by means of spacers, and the perforation coefficient of the toroidal surface of the bubbler lies in the optimal range of values: K = 0.5 ... 0.9, and the fitting for removal of cleaning gas is located in the conical bottom surface.

2. The vertical adsorber according to claim 1, characterized in that the adsorption and desorption process proceeds with the following optimal ratios of the components of the apparatus:

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 = 0.73 ... 1.1;

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 = 220 ... 275;

the ratio of the height of the adsorbent layer H ₁ to the height H of the cylindrical part of the body is in the optimal ratio of values: H ₁ / H = 0.22 ... 0.55;

the ratio of the height of the adsorbent layer H ₁ to the height H _{2 of the} gravel layer is in the optimal ratio of values: H ₁ / H ₂ = 5.0 ... 12.0.