RU2011140758A

RU2011140758A - HORIZONTAL ADSORBER KOCHETOV

Info

Publication number: RU2011140758A
Application number: RU2011140758/04A
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: RU2504422C2

Abstract

1. Горизонтальный адсорбер периодического действия, содержащий цилиндрический корпус с крышками и днищем, крышки выполнены сферическими и смонтированы слева и справа от горизонтально расположенного цилиндрического корпуса, в верхней части которого расположены загрузочные люки с предохранительными мембранами, штуцер для отвода паров при десорбции и штуцер для предохранительного клапана, а в левой крышке расположен штуцер с распределительной сеткой для подачи паровоздушной смеси при адсорбции и воздуха при сушке и охлаждении, в средней части корпуса на балках с опорами, поддерживающими колосниковую разборную решетку, на которой уложен слой сетки, размещен слой адсорбента, причем на верхнюю сетку, прикрывающую слой адсорбента положены грузы для предотвращения уноса адсорбента при десорбции, а выгрузка отработанного адсорбента осуществляется через, по меньшей мере, два разгрузочных люка, расположенных симметрично относительно вертикальной оси корпуса, в днище которого смонтирован смотровой люк со штуцером для отвода конденсата и подачи воды, а также барботер со штуцером для подачи водяного пара, отличающийся тем, что барботер выполнен по всей длине корпуса в виде, по меньшей мере, одной перфорированной цилиндрической трубы и закреплен на поверхности днища посредством распорок, а коэффициент перфорации цилиндрической поверхности барботера лежит в оптимальном интервале величин: К=0,5…0,9, а отношение длины L цилиндрической части корпуса к его диаметру D находится в оптимальном соотношении величин: L/D=1,5…5,0; отношение длины L цилиндрической части корпуса к толщине S его стенки находится в оптимальном соотн1. Horizontal batch adsorber comprising a cylindrical body with covers and a bottom, the covers are spherical and mounted to the left and right of a horizontally located cylindrical body, in the upper part of which there are loading hatches with safety membranes, a fitting for venting vapors during desorption and a fitting for safety valve, and in the left cover there is a fitting with a distribution grid for supplying the vapor-air mixture during adsorption and air during drying and cooling, in the middle the first part of the body on beams with supports supporting the grate collapsible grate, on which the grid layer is laid, an adsorbent layer is placed, and loads are placed on the upper grid covering the adsorbent layer to prevent adsorbent entrainment during desorption, and the spent adsorbent is unloaded through at least , two discharge hatches, located symmetrically with respect to the vertical axis of the body, in the bottom of which there is a viewing hatch with a fitting for condensate drainage and water supply, as well as a bubbler from the pieces rum for supplying water vapor, characterized in that the bubbler is made along the entire length of the housing in the form of at least one perforated cylindrical pipe and is fixed to the bottom surface by spacers, and the perforation coefficient of the cylindrical surface of the bubbler lies in the optimal range of values: K = 0 , 5 ... 0.9, and the ratio of the length L of the cylindrical part of the body to its diameter D is in the optimal ratio of values: L / D = 1.5 ... 5.0; the ratio of the length L of the cylindrical part of the housing to the thickness S of its wall is in the optimal ratio

Claims

1. Horizontal batch adsorber comprising a cylindrical body with covers and a bottom, the covers are made spherical and mounted to the left and right of a horizontally located cylindrical body, in the upper part of which there are loading hatches with safety membranes, a fitting for venting vapors during desorption and a fitting for safety valve, and in the left cover there is a fitting with a distribution grid for supplying the vapor-air mixture during adsorption and air during drying and cooling, in the middle the first part of the body on beams with supports supporting the grate collapsible grate, on which the grid layer is laid, an adsorbent layer is placed, and loads are placed on the upper grid covering the adsorbent layer to prevent adsorbent entrainment during desorption, and the spent adsorbent is unloaded through at least , two discharge hatches, located symmetrically with respect to the vertical axis of the body, in the bottom of which there is a viewing hatch with a fitting for condensate drainage and water supply, as well as a bubbler from the pieces rum for supplying water vapor, characterized in that the bubbler is made along the entire length of the housing in the form of at least one perforated cylindrical pipe and is fixed to the bottom surface using spacers, and the perforation coefficient of the cylindrical surface of the bubbler lies in the optimal range of values: K = 0 , 5 ... 0.9, and the ratio of the length L of the cylindrical part of the body to its diameter D is in the optimal ratio of values: L / D = 1.5 ... 5.0; the ratio of the length L of the cylindrical part of the body to the thickness S of its wall is in the optimal ratio of values: L / S = 300 ... 1125; the ratio of the height of the adsorbent layer H ₁ to the length L of the cylindrical part of the body is in the optimal ratio of values: H ₁ / L = 0.05 ... 0.27.

2. 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.

3. 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.

4. 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.

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, having in cross section perpendicular to the helix a profile such as a Berl saddle or Itallox saddle.

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

7. The adsorber according to claim 1, characterized in that the adsorbent is made in the form of toroidal rings having a profile of the type of "Berl saddle" or saddle "Itallox."

8. 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.