CS252974B1 - Double-jacket pressure vessel with inside insulation - Google Patents

Abstract

Double-walled, double-walled pressure vessel it is intended for chemical adsorption processes in which adsorption and regeneration active fillings are significant thermal differences. Double jacket pressure An internal insulation vessel consists of:. \ t external pressure vessel and internal insulated a container that is hung by a bucket hinges on the outer pressure vessel lid and at the bottom is circular by guiding the inlet throat of the outer pressure vessel. At the top is inner insulated vessel stabilized against the external pressure vessel stabilizing dampers while being through a pipe compensator connected to the outlet neck of the outer pressure vessel. Joint construction suspension allows free dilation cyclically heat stressed internal isolated containers in all directions to the outside pressure vessel.

Description

The invention relates to a double-shell pressure vessel with internal insulation for adsorption chemical processes, in which the adsorption and regeneration of the active charge takes place with considerable temperature differences.

To date, double-walled pressure vessels with internal insulation have been designed so that the inner insulated vessel is attached to one support ring of the external pressure vessel, with free expansion only in the axial direction of the vessels and in the radial direction there is a dilative force stress causing stress breakage and loss of tightness between workspaces separated by active load.

The principle of the double-shell pressure vessel with internal insulation according to the invention is as follows a technical solution. The double-walled pressure receptacle with internal insulation consists of an outer pressure receptacle and an inner insulated receptacle, which is hinged to the lid of the outer pressure receptacle by means of at least three double-articulated hinges. The double-articulated hinges are mounted in height-adjustable carriers by means of pins in suspension beds around the perimeter of the lid and in brackets by means of pins at the periphery of the bottom of the inner insulated vessel which is connected via a pipe compensator by screw or welded connection to the outlet neck of the external pressure vessel. The lower bottom of the inner insulated vessel is provided with a circular guide through which the inlet throat of the outer pressure vessel opens into the inner insulated vessel. In the upper part, the inner insulated vessel is circumferentially stabilized against shaking by at least three adjustable timers anchored in the external pressure vessel.

In the double insulated pressure insulated pressure vessel according to the invention, the design of the articulated suspension of the inner insulated vessel within the external pressure vessel allows free expansion of the inner insulated vessel in all directions regardless of the magnitude of cyclic thermal loads during adsorption and regeneration relative to the external pressure vessel. without strength and leakage failure and allows to increase the regeneration temperatures in order to shorten the regeneration cycle and increase the regeneration efficiency to achieve higher volume performance and adsorption efficiency.

The double-skinned pressure vessel with internal insulation according to the invention is schematically shown in one of the possible constructional embodiments of the attached drawing, where the front view of the adsorption apparatus is in section.

The adsorption apparatus for separating CO2 and H2O from process air for the production of oxygen and nitrogen consists of an outer pressure vessel 4 with a lid 3 and an inner insulated vessel 1, which is hinged to the lid by means of six double-joint hinges 2.

3. Two-joint hinges 2 are fastened by means of pins 6 on height adjustable carriers 5 with support bolt 17 in suspension beds 7 along the circumference of lid 3 and in brackets by pins 6 on the periphery of the upper bottom of the inner insulated container 1. Suspension beds 7 are sealed with covers 18. the bottom 9 is connected via a bellows expansion joint 10 to the outlet neck 11 of the outer pressure vessel 4 via a weld joint on the support shoulder 19. The lower bottom 12 of the inner insulated vessel 1 is provided with a circular duct 13 through which In the upper part 15, the inner insulated container 1 is circumferentially stabilized against shaking by three spring dampers 16 anchored in the outer pressure container 4. At the bottom 12, relief holes 21 are arranged to ensure the pressure balance of the inner insulated container shell. 1, which is free At the bottom of the inner insulated casing 1 there is a support grid 23 with baffle screens and in its upper part there is a set of dedusting and baffle screens 24. On the support grid 23 there is a molecular sieve 25, which adsorbs CO2 and H2O. from technological air. In the adsorption cycle, process air passes through the inlet conduit 14, molecular sieve 25, where it is stripped of CO2 and H2O and exits the adsorption apparatus through the bellows expansion joint through the outlet port 11. For hot nitrogen recovery, nitrogen enters the outlet port 11 through the outlet port. it passes through a molecular sieve 25, which removes CO2 and H2O and exits the adsorption apparatus through the inlet guide throat 14.

In a double-walled pressure vessel with internal insulation, the external pressure vessel can also be converted as fully welded without a flange connection, and gas or hydraulic dampers can also be used for stabilization. The double-shell vessel can also be used for catalytic technological processes.

Claims (1)

SUBJECT Double-walled pressure vessel with internal insulation consisting of an outer pressure vessel and an inner insulated vessel, characterized in that the inner insulated vessel (1) is hinged to the lid (3) of the outer pressure vessel (4) by means of at least three double hinge (2), two-joint hinges (2) are fixed in height adjustable carriers (5) by means of pins (6) in suspension bearings (7) around the perimeter of the lid (3) and in brackets (8) by pins (6) on the periphery of the upper bottom (9J) (1) which is through BACKGROUND OF THE INVENTION a pipe compensator (10) connected by a screw or welded connection to the outlet neck (11) of the outer pressure vessel (4) and the bottom (12) of the inner insulated vessel (1) is provided with a circular duct (13) through (1) the inlet throat (14) of the external pressure vessel (4) and the upper part (15) of the inner insulated vessel (1) circumferentially stabilized against shaking by at least three adjustable dampers (16) anchored in the external pressure vessel (4). 1 sheet of drawings