RU2147251C1 - Apparatus for regenerating air in hermetically sealed room - Google Patents

Abstract

FIELD: air regenerating equipment. SUBSTANCE: apparatus has fan and casing with regenerating product based on potassium superoxide. Regenerative product is made in the form of blocks with through openings. Blocks are disposed in casing so as to define through channels through the whole height of layer of product. Casing has 4-10 blocks of regenerative product. Diameter of through openings in block is 6-8 mm. Regenerative casing is fixed on pole and provided with detachable hand-held pneumatic pump and/or detachable branch pipe. Such construction allows required parameters of air, such as carbon dioxide and oxygen content, to be kept at optimum level and protective capacity of apparatus to be within the range of 1-4 individuals, 4 cu.m per each individual, for 24 h in one room. EFFECT: increased efficiency and improved protective capacity. 4 cl, 7 dwg, 2 tbl

Description

 The invention relates to devices for air regeneration in hermetically sealed rooms.

 A device is known for air regeneration in hermetically sealed rooms, comprising a housing, inside of which there is a cartridge with a regenerative product based on sodium superoxide. The housing is equipped with nozzles for gas inlet and outlet. The cartridge is equipped with a central perforated tube. The side walls of the cartridge are perforated. A filter is placed on the side walls. The regenerative product is made in the form of tablets having a convex and / or multifaceted geometric shape. The regenerated air circulates radially throughout the entire layer of the regenerative product. The air supply to the cartridge is carried out by a fan, i.e. air regeneration is carried out due to its forced circulation through the cartridge (FR 2161482 A, 08/10/1979).

 The disadvantage of this device is that in an emergency associated with a complete or temporary lack of electricity, the possibility of creating air circulation is excluded. In this case, the movement of air in the cartridge can only occur due to natural draft (convective flow), due to the temperature difference in the chemisorption product of the cartridge and in the volume of the room. The heating of the product and the accumulation of the body occurs due to the natural diffusion of carbon dioxide and water vapor in the volume of the room and the reaction of carbon dioxide and water vapor with a regenerative product, characterized by heat. Convective flow can be organized with aerodynamic drag of a cartridge of 0.001 - 0.01 mm water column.

 However, the constructive implementation of the regenerative cartridge in this device does not allow for the organization of convective flow due to the high resistance (5-15 mm water column), due to the shape of the regenerative product and the placement of perforated gratings and a filter along the axis of the cartridge, which virtually eliminates the formation of convective flow , especially in the radial direction.

 Also known is a device for air regeneration in a hermetically sealed room, a fan and a cartridge with a regenerative product based on potassium superoxide (US 3443906 A, 05/13/1969).

 The disadvantage of this device is the low productivity of the cartridge for the absorption of carbon dioxide - water vapor and oxygen evolution, and therefore the inability to maintain the required air parameters in the room.

 The technical result achieved by the implementation of this invention is to increase the productivity of a device for air regeneration in a hermetically sealed room by absorbing carbon dioxide and water vapor and generating oxygen in emergency mode with a complete or temporary lack of electricity.

 The specified technical result is achieved in that in a device for air regeneration in a hermetically sealed room containing a fan and a cartridge with a regenerative product based on potassium superoxide, according to the invention, the regenerative product is made in the form of blocks with through holes installed in the cartridge with the formation of through channels the entire height of the product layer, and the cartridge contains from 4 to 10 blocks of regenerative product, and the diameter of the through holes in the block is 6 - 8 mm.

 Such a constructive implementation of the cartridge allows to reduce its aerodynamic drag and increase the contact surface of the product and the regenerated air, as a result of which the convective flow development process is accelerated and, accordingly, the device’s productivity in emergency mode is increased, which allows maintaining the required parameters of carbon dioxide and oxygen in the room.

 For operating conditions at elevated pressure, the device is equipped with a circuit manual air pump, made in the form of a spring-loaded flexible sleeve. The pneumatic pump creates the necessary gravity support sufficient to overcome pressure losses and to form a steady convective flow.

 To maintain stability, the device’s productivity in oxygen evolution and carbon dioxide absorption during convective operation is equipped with a removable nozzle mounted on the cartridge. The branch pipe during operation of the device in emergency mode helps to improve traction through the cartridge.

 The invention is illustrated in the drawing, where in FIG. 1 shows a General view of the device; in FIG. 2 - regenerative cartridge; in FIG. 3 - block regenerative product; in FIG. 4 - placement of the device in the room; in FIG. 5 - device during emergency operation; in FIG. 6 - the device during emergency operation at high pressure; in FIG. 7 - the device during emergency operation with a pipe.

 The device for air regeneration (Fig. 1) contains a regenerative cartridge 1 and a fan 2. The fan 2 is placed in the housing 3, to which the cartridge 1 is connected using connecting elements 4.

 The cartridge 1 contains a housing 5, a cover 6 and a regenerative product 7 (Fig. 2). The covers 6 are provided with necks 8 in which removable filters 9 are installed. The filters consist of a layer of glass paper rolled into a metal holder. The clip is placed in the groove of the neck 8.

The regenerative product 7 (Fig. 3) is made in the form of a block 10 with through holes 11. The blocks 10 are installed in the cartridge 1 in such a way that their holes 11 are aligned, thereby through channels 12 are formed in the layer of the regenerative product 7 along the entire height of the layer. Blocks are made by molding a mixture of regenerative material on a pin mold. The density of the block 10 is 1.0 g / cm ³ . The area of the through holes 11 is 20 - 50% of the cross-sectional area of the block 10, the diameter of the holes 11 6 - 8 mm, the pitch of the holes 10 - 14 mm. A decrease in the diameter of the holes 11 leads to an increase in the resistance of the layer of the regenerative product 7 and, accordingly, to a slowdown in the development of convective flow. The increase in the diameter of the holes 11 more than 8 mm reduces the fill factor of the product 7 units of the volume of the cartridge 1, which leads to an increase in the dimensions of the cartridge. The number of blocks 10 in the cartridge 1 is from 4 to 10 pieces, depending on the operating conditions of the device. The number of cartridges 1 installed in the room is also determined by the operating conditions.

 For ease of operation in emergency mode, the cartridges are mounted on racks 13, providing compensation of rolls and trim and maintaining the cartridge in a vertical position.

 The stand 13 is an axis with a U-shaped bracket pivotally mounted on it, inside of which a coupling collar with a cartridge fixed in it is mounted on the axes. The hinged mounting on the axes ensures the vertical position of the cartridge in two mutually perpendicular cavities, which is a necessary condition for efficient operation during convection. Using racks 13 cartridges can be placed on the floor, on the wall or not the ceiling.

 The device operates as follows. If there is energy in the room, air is supplied by a fan 2 to a regenerative cartridge 1. When interacting with a regenerative product 7, the air is purified from carbon dioxide and enriched with oxygen. Purified and oxygen-enriched air enters the room. The operation of the device is carried out according to a predetermined algorithm by turning on, off and replacing cartridges 1 after reaching certain values of the partial pressure of oxygen and carbon dioxide in the room.

 When working in emergency mode (in the absence of electricity), air from the room enters the cartridge 1 in a natural flow. Convective thrust arises due to the difference in air density in the channels 12 of the layer of regenerative product 7, which leads to the formation of an inhomogeneous temperature field in the volume of cartridge 1. Since the resistance of cartridge 1 is small, convective flow develops even at a small temperature difference.

The started convective flow and the large surface of the channels 12 increase the reaction rate and the supply of carbon dioxide and water vapor to the regenerative product 7 and intensify the heating process. As it warms up, an increasing convective flow is created, the volume flow of which is 8 - 12 m ³ / h.

 When the device is operating in emergency mode, filters 9 are removed from cartridge 1. Two cartridges 1 are mounted on top of each other (Fig. 5). First, the lower cartridge is put into operation, then, as it is worked out, the upper cartridge is put into operation. When replacing cartridges, a new cartridge is installed on top, and the least used cartridge from the previous pair remains below. This technique allows you to accelerate the heating of a new cartridge due to convective flow from the lower cartridge.

 To intensify the development of convective flow (in the case of a significant increase in the partial pressure of carbon dioxide), a manual air pump 14 is connected to the neck 8 of cartridge 1 (Fig. 6), with which air is pumped into cartridge 1 for 10 to 20 minutes. Such short-term forced air passage helps to reduce the heating time of the product 7 and accelerate the development of convective flow.

 In case of changing operating conditions (for example, temperature and humidity parameters of indoor air, the number of people in the room, etc.), a nozzle 15 is installed on the neck of the cartridge 1 to maintain a stable convective traction (Fig. 7). The use of the pipe 15, in addition, contributes to the intensification of convective flow and reduce the heating time of the product 7, especially in the case of the operation of cartridges 1 with the number of blocks 10 more than 4.

 Thus, the performance control of the device in emergency mode and the maintenance of the required protective power is carried out by installing a certain number of cartridges 1, replacing them and using the air pump 14 and / or pipe 15.

Tests of the device were carried out under actual operating conditions in a room with a volume of 100 m ³ at 19 - 24 ^o C and relative humidity (60 ± 10)%.

 The test results are shown in tables 1 and 2.

As can be seen from the data presented, the device ensures the maintenance of the required air parameters in the room for carbon dioxide at the level of 0.5 - 1.3%, for oxygen - 19 - 21%, and provides protection for 1 - 4 people for 24 hours in a volume of 4 m ³ per person both in the presence of energy, and in its absence.

Claims (4)

 1. A device for air regeneration in a hermetically sealed room, comprising a fan and a cartridge with a regenerative product based on potassium superoxide, characterized in that the regenerative product is made in the form of blocks with through holes installed in the cartridge with the formation of through channels along the entire height of the product layer, moreover, the cartridge contains from 4 to 10 blocks of regenerative product, and the diameter of the through holes in the block is 6 - 8 mm  2. The device according to claim 1, characterized in that the regenerative cartridge is mounted on a rack.  3. The device according to claim 1, characterized in that the regenerative cartridge is equipped with a removable manual air pump.  4. The device according to claim 1, characterized in that the cartridge is equipped with a removable pipe.

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