RU2158148C1 - Device for cleaning air from carbon dioxide - Google Patents

Abstract

FIELD: cleaning air from carbon dioxide in hermetically closed rooms. SUBSTANCE: proposed device has housing and container with carbon dioxide absorbent on base of lithium hydroxide. Absorbent is made in form of briquette with through holes. Container is made in form of briquette stack connected by flexible coupling whose ends are secured on end surfaces of container. EFFECT: ease in operation; enhanced efficiency of cleaning air from carbon dioxide at absence of electric power (in an emergency). 3 cl, 2 tbl

Description

 The invention relates to a device for purifying air of carbon dioxide in hermetically sealed rooms.

 To absorb carbon dioxide from air in hermetically sealed rooms, calcium hydroxide or lithium hydroxide is usually used as a sorbent. The use of lithium hydroxide is preferred due to its high stoichiometric and sorption capacity per unit volume.

 A device for removing carbon dioxide from the air of hermetically sealed rooms, containing a housing in which an electric fan is installed. Containers with lithium hydroxide and a container with a dust filter are installed on the case. The containers are fixed in the holes of the housing (1). When the device is operating, the air from the room is drawn through containers with lithium hydroxide into the housing, from where it arrives, depending on the position of the damper at the outlet of the housing, either into the filter cartridge and then into the room or directly into the room. The number of containers with lithium hydroxide used in the work and the procedure for their replacement are determined by the required performance of the device. The device is compact, easy to transport and convenient to operate when there is electricity in the room.

 However, in the absence of electricity (in emergency mode), such a device cannot provide air purification from carbon dioxide, since the possibility of forced ventilation of air through a container with lithium hydroxide is excluded and, accordingly, there is no interaction of carbon dioxide with hydroxide. lithium.

 It is not possible to ensure the development of natural convection in such a design because of the insignificant phase contact surface due to the dense packing of the absorber in the container.

To ensure air purification from carbon dioxide in the room in the absence of electricity, it is possible to use lithium hydroxide in the form of a layer of granules brought to the surface, for example, canvas or blankets (2). This technique allows to increase the contact surface of lithium hydroxide and to ensure the interaction of carbon dioxide with lithium hydroxide due to natural convection. However, firstly, the deployment of such a surface in conditions of a limited volume of the room is extremely inconvenient in operation, and secondly, the emission of lithium hydroxide dust directly into the volume of the room and, accordingly, its getting into the respiratory organs of people in the room, is inevitable. In addition, the effectiveness of the interaction of carbon dioxide with lithium hydroxide under such conditions, despite the large phase contact surface, is not high, since with such an disorganized form of the nozzle, natural conversion does not develop, and diffusion processes of carbon dioxide delivery to the surface predominate, since the internal reaction the volume of the granular absorber due to its sufficiently high density (1.2 kg / dm ³ ) does not exceed 0.4 dm ³ / dm ³ . Thus, it is necessary, on the one hand, to create an organized form of the nozzle, and on the other, to increase the internal reaction volume of the granular absorber.

 An organized form of the nozzle forming the upstream passages (slots or channels) can be obtained by pressing the initial lithium hydroxide in the form of plates, briquettes or blocks with holes (slotted and cylindrical). The internal volume is determined by the density of pressing. The smaller it is, the larger the volume. But to reduce the density below a certain limit, for example, granules is not possible, since a decrease in density leads to a decrease in the mechanical strength of the absorber and, as a consequence, to an increase in dusting.

 The objective of the invention is to improve the operational characteristics of the device for cleaning air from carbon dioxide in hermetically sealed rooms by increasing the efficiency of the interaction of carbon dioxide with lithium hydroxide, reducing dusting and improving ease of use.

 The problem is solved by the invention, according to which in the device for purifying carbon dioxide from air in hermetically sealed rooms, comprising a housing and a container with a carbon dioxide absorber based on lithium hydroxide, the absorber is made in the form of a briquette with through holes, and the container is made in the form of a package of briquettes, connected by a flexible connection, the ends of which are fixed on the end surfaces of the container.

 The implementation of the carbon dioxide absorber in the form of a briquette with through holes allows, on the one hand, to provide a sufficient phase contact surface, on the other hand, to increase the internal reaction volume by reducing the density and formation of transport pores during the formation of the absorber, which in turn leads to on the one hand, to the formation of the process of natural convection, on the other hand, to increase the reactivity of the absorber.

 The implementation of the container in the form of a package of briquettes provides compactness and ease of use of the device, as well as the required performance for removing carbon dioxide from the air of the room by a set of the number of briquettes. Moreover, the creation between the briquettes due to the flexible connection of a certain distance helps to increase the phase contact surface and contributes to the development of convective flow in the package as a whole. At the same time, a decrease in the outer surface of the absorber made in the form of a briquette, in comparison with a granular absorber, significantly reduces the ingress of dust from the absorber into the room. In addition, the high reactivity of the absorber in the form of briquettes leads to a rather rapid formation of lithium carbonate compounds on the surface of the briquette, which prevent dust from absorbing.

 A device for purifying carbon dioxide from air is shown in the drawing, where FIG. 1 is a view of the device when stored indoors; FIG. 2 is a view of the device during operation; FIG. 3 - briquette of a carbon dioxide absorber.

A device for cleaning air from carbon dioxide contains a housing 1, in which a container 2 is installed, which is a package of 3 briquettes 4 of a carbon dioxide absorber based on lithium hydroxide. The carbon dioxide absorber (Fig. 3) is made in the form of a briquette 4 with through holes 5. The density of the briquette 4 is 0.75 kg / dm ³ , the internal reaction volume is 0.88 dm ³ / dm ³ . A flexible connection 7, for example, a nylon thread, passes through the central holes 6 of the briquettes 4, while for convenience of installation on the lower sides of the briquettes 4, washers 8 are fixed in the center, in which a flexible connection 7 is fixed, including on the end surfaces of the container 2. Also for ease of installation, the package of 3 briquettes 4 can be placed in two perforated shells 9, 10, one into the other, while the ends of the flexible connection 7 are fixed to the upper 11 and lower 12 ends of the shells 9, 10.

 When storing the device in the room, the container 2 is placed in the housing 1 and pressed by the lid 13, the sealing of which is carried out using a sunset ring. Cover 13 for ease of transportation is provided with a handle 14.

During the operation of the main means of air regeneration in a hermetically sealed room (in the presence of electricity), the device for purifying carbon dioxide from the air is stored in a room in a specially responsible place. In the event of an accident (in the absence of electricity), the container 2 is removed from the housing 1 and suspended in a convenient place on a hook or a wire ring (Fig. 2), using a loop at the upper end of the flexible connection 7. In this case, the shells 9, 10 exit from each other the other, and the absorber briquettes 4 are extended by the length of the flexible connection 7 with the formation of a certain distance between the briquettes 15. The absorption of carbon dioxide from the room air occurs in the natural convection mode on the surface of the open absorber briquettes 4, the size of which is approx lo 1430 cm ² / kg and large enough to ensure the interaction of carbon dioxide with lithium hydroxide and effective absorption of carbon dioxide from the air space. The distance 15 between the briquettes 4 provides the development of convective flow and identifies the convection process in package 3 as a whole. At the same time, the briquette surface (approximately 2.5-3 times), which is reduced in comparison with the granular (granular) absorber, can significantly reduce dust emission. So, according to the results of analysis of air samples on the content of lithium dust in the room air during operation of the device, it was found that the dust content does not exceed 0.5 mg / m ³ (according to technical standards MPC for working area air is 0.5 mg / m ³ , for atmospheric air 0.02 mg / m ³ ).

The device has been tested in real conditions at normal and elevated pressure in the room, with a volume of 24 m ³ at a temperature of 22 ± 3 ^o C and a relative humidity of 70 ± 10%.

 The test results are presented in table 1 (normal pressure) and table. 2 (high blood pressure).

 As can be seen from the test results, the device provides an effective purification of air in the room from carbon dioxide both under normal and high pressure.

Sources of information
1 US patent N 3178269, NKI 23-284, priority 10.07.64.

 2. D. L. Zubarov, V.M. Ruban. Ventilation and air conditioning in nuclear submarines. Publishing house "Shipbuilding", Leningrad, 1968, p. 271.

Claims (1)

 A device for cleaning air from carbon dioxide in hermetically sealed rooms, comprising a housing and a container with a carbon dioxide absorber based on lithium hydroxide, characterized in that the absorber is made in the form of a briquette with through channels, and the container is made in the form of a package of briquettes connected by a flexible connection, the ends of which are fixed on the end surfaces of the container.

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