RU2619980C1 - Installation for generation of aerosol - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: installation contains a container (4) of the functional reagent mixture connected to the compressed air cylinder (3) connected to the nozzle (9) in the combustion chamber (13). The combustion chamber (13) is equipped with a coaxial air intake (18) and is combined with an exhaust pipe (5). On the perimeter of the combustion chamber (13), injection windows are distributed. These structural elements are located inside the frame (2). The frame housing (2) is equipped with a folding shelf (10) for supporting the exhaust pipe (5). The exhaust pipe (5) is fixed to the frame (1) by a removable shroud (6). In the hinged shelf, the nozzle mounting socket is installed, above which the central annular diffuser is fixed, and the jalousies are tangentially located on the injection windows.

EFFECT: stable automatic operation of mobile installation.

2 cl, 4 dwg

Description

The invention relates to mobile units generating a functional aerosol for active exposure to clouds, locally changing the state of the weather, namely, to prevent hail and to artificially increase precipitation.

The level of this technical field is characterized by the aerosol generating ground installation according to the patent RU 144407 U1, A01G 15/00, 2014, which contains a stationary fixed rack with a support for distributed mounting of inwardly directed aerosol pyrotechnic generators, serving as a central accumulator where the functional aerosol is accumulated, the dispersed phase of which includes silver iodide - active particles that serve as distributed centers of drop and ice formation in the volume of clouds and fogs being processed.

The igniters of the pyrotechnic checkers, during the burning of which a functional aerosol is generated, are connected via plug connectors to a common electrical panel of a control unit equipped with a program board for switching generators into operation according to the number and sequence of actions.

A cylindrical aerosol accumulator is connected to a telescopic aerosol supply pipe to a height, which is fixed by slings on the earth's surface in the zone of the most probable formation of ascending flows transporting the aerosol to the clouds.

A feature of this ground-based installation is that a blower of atmospheric air is mounted under a cylindrical battery inside the pipe through a distribution grid that forms longitudinal laminar flows, during which air is mixed with the generated aerosol, diluting it for the maximum volume of treated clouds by the active influence of a functional aerosol.

Parallel-sequential work 40-80 pcs. aerosol generators provides automatic operation of a stationary installation for several hours in the zone of changing hydrometeorological conditions.

A continuation of the noted advantages of the described installation are the inherent disadvantages:

- a limited area of intended use due to stationary location, that is, ground-based does not allow the mobile to move the installation to explored hail or arid areas for efficient cloud processing, which limits the technological capabilities of the installation;

- the adjacency of pyrotechnic generators equipped with electric igniters imposes additional restrictions on the safety of their maintenance and storage, thereby increasing the consumer cost of work;

- for a guaranteed rise of a functional aerosol to a given height, an extended pipe with fastening means is required;

- the oncoming arrangement of the generators across the accumulator creates an aerodynamic shutter in it, which slows down the longitudinal movement of the aerosol and delivers it to a height, which forces the use of an additional powerful fan to force the functional aerosol to be forced out of the extended pipe.

The noted shortcomings were eliminated in the ground installation for the generation of a functional aerosol described in http: //www.anelfa/asso. fr / Hail_Operation / html, which, by the number of matching features and technical nature, is selected as the closest analogue of the installation according to the invention.

Known ground installation contains a container with a reagent, a mixture of acetone (C ₃ H ₆ O) with silver iodide (AgJ), connected by hoses to a cylinder of compressed air and a combustion chamber, combined with an exhaust pipe, independently placed on concrete slabs.

Coaxial to the combustion chamber, which is equipped with injection windows around the perimeter, an air intake is mounted.

The compressed air pressure expels the reagent from the storage tank through a hose into a nozzle mounted in the center of the combustion chamber, where a finely dispersed jet is formed, which is ignited by an open flame of a match.

When acetone is burned, an aerosol is generated - a mixture of gases (CO ₂ , N ₂ and water vapor), in which the dispersed phase from particles of silver iodide is distributed.

The ambient air injected through the windows of the combustion chamber is mixed with the generated aerosol, diluting it, and the gas-aerosol mixture is taken out of the pipe into adjacent ascending streams explored earlier, which transport functional iodine silver to clouds, where its solid particles form distributed crystallization centers, as a result which, in the treated clouds, artificial precipitation is forcibly formed.

The advantage of the well-known installation is its mobility, suitability for rapid deployment in a given area for the effective processing of clouds.

However, the known installation is characterized by the complexity of installation at the location due to the fact that its structural elements are scattered and installed on the ground by supporting them on massive slabs, which must be transported and manually transferred for oriented placement on the earth's surface, after which the installation elements are connected between themselves for proper functioning.

In addition, the combustion of the functional mixture is unstable due to the fact that the air injected across the air forms an aerodynamic plug, resulting in breakthroughs of the flame, detaching it from the nozzle to complete attenuation, which reduces the functional reliability of the installation in automatic operation.

The technical problem to which the present invention is directed is to eliminate the noted drawbacks in order to ensure the stability of the automatic operation of the mobile installation made in the transportation kit, suitable for operational launch from the body or trailer of a transport vehicle, and when placed on the ground.

The required technical result is achieved in that in a known installation for generating an aerosol containing a container of a functional reagent mixture connected to a compressed air cylinder, connected to a nozzle in a combustion chamber equipped with a coaxial air intake and combined with an exhaust pipe, while injection windows are distributed around the combustion chamber , according to the invention, said structural elements are placed inside a frame casing equipped with a hinged shelf for supporting the exhaust pipe, which is fixed on the frame with a removable bandage, a nozzle mounting socket is made in the hinged shelf, over which the central ring diffuser is fixed, and blinds are tangentially located on the injection windows, and the hinged shelf is equipped with a swivel stop mounted on the frame.

Distinctive features of the proposed technical solution provided the aerosol-generating installation with a new quality: mobility of transporting structural elements in a set to the place of effective operation for the intended purpose, where they quickly deploy to the functional complex of increased efficiency of the main action, with stable burning of the functional mixture, after which the structural elements are folded into the original transport container position and suitable for storage and reloading.

The interconnected structural elements are placed in a transportation container made in the form of a frame frame covered with panels, which, at the place of use, can easily be transformed into an aggregate for generating a functional aerosol, for which the hinged support rotates to accommodate the exhaust pipe assembly.

Placing the structural elements of the installation inside the frame casing expands its technological capabilities due to the new function of using it as a stand-alone kit, assembling related structural elements in a transport container, mobile mounted in a given area with proven stable upward atmospheric flows, which significantly increases the efficiency of the target application.

The supporting frame frame serves as the power base of the casing, inside which the necessary set of functional components of the mobile unit is equipped.

A cylinder with compressed air, the capacity of the working mixture and the exhaust pipe assembly are rigidly attached to the frame.

Equipping the casing with a folding shelf allows you to transform it from the transport kit into the position of a working functional unit, which can be used without unloading to the ground.

The central socket in the mounting support of the exhaust pipe is designed to fix the nozzle relative to the annular diffuser, which provides ignition of the functional mixture in the volume and the jet flow of the gas-flame force in the combustion chamber.

Inside the ring diffuser, the functional mixture ejected from the nozzle diffuses and ignites in the volume, ensuring the complete combustion of acetone and the dynamic formation of gases - the dispersion phase of the aerosol, the carrier of solid particles of silver iodide.

In the combustion chamber, the generated aerosol is compressed by tangentially directed flows of injected external air, as a result of which a long-focus force of flame is formed for complete combustion of acetone.

At the output of the annular diffuser, the peripheral flows of injected air are turbulent, forming autonomous turbulence of the reverse direction, accompanied by a drop in pressure, which eliminates the separation and slipping of the flame, that is, the laminarity of the force of the burning mixture in the combustion chamber is ensured. Thus, the combustion of the mixture in the annular diffuser is stabilized with the formation, together with the peripheral air flows, of a functional aerodisperse formation directed by the exhaust pipe into atmospheric ascending flows, which transport it to the treated clouds.

A removable bandage for attaching the exhaust pipe to the casing frame allows you to quickly move it from the transport position to the working one on the folding shelf, where the exhaust pipe is rigidly fixed to the frame from the outside.

The supply of the hinged shelf with a rotary stop is necessary for its monolithic adjacency to the frame in the constructive unity of functioning as intended, forming the outer step of the transformed casing, where the exhaust pipe is assembled.

Therefore, each essential feature is necessary, and their combination is sufficient to achieve the novelty of quality that is not inherent in the signs of disunity, that is, the technical problem posed in the invention is not solved by the sum of the effects, but by a new super-effect of the sum of the attributes.

Comparison of the proposed technical solution with the closest prior art analogues did not reveal an identical match of the totality of the essential features of the invention.

The proposed differences of the installation for generating a functional aerosol, which do not directly follow from the statement of the technical problem, are not obvious to a specialist in atmospheric technologies of influencing clouds.

The manufacture of a mobile unit for generating a functional aerosol is possible at the existing mechanical production in series.

From the foregoing, we can conclude that the invention meets the conditions of patentability.

The essence of the proposed invention is illustrated by drawings, which have a purely illustrative purpose and do not limit the scope of the claims of the totality of the features of the formula, which shows:

in FIG. 1 is a general view of the proposed installation in the storage and transportation position;

in FIG. 2 - the same in working position;

in FIG. 3 is a view A in FIG. 2;

in FIG. 4 is a section along BB in FIG. 3.

The installation according to the invention contains a transformable container (Fig. 1 and 2), made in the form of a frame frame 1, covered with panels of the casing 2.

Inside the frame 1, a container 3 of compressed air is fixed, connected to a sealed container 4, and an exhaust pipe 5, which is fixed on the frame 1 by means of a removable bandage 6.

In a sealed container 4 under pressure contains a functional mixture of 7 acetone and silver iodide, which is connected by a hose 8 to the nozzle 9, mounted on the hinged shelf 10 of the casing 2.

The shelf 10 in the transport position of the container (Fig. 1) is adjoined to the frame 1, and in the working tilted position (Fig. 2) is fixed by means of a rotary stop 11 mounted on the frame 1 (Fig. 2, 3).

On the hinged shelf 10 fixed basing pins 12, under the diameter of the combustion chamber 13, combined with the exhaust pipe 5.

On the shelf 10, a central annular diffuser 14 is fixed, coaxially to which under the shelf 10, in the socket 15, the nozzle 9 is placed in the working position of the installation (Fig. 3 and 2).

Injection windows 16 are distributed around the perimeter of the combustion chamber 13, equipped with tangentially directed blinds 17.

Coaxially to the combustion chamber 13, an air intake 18 is fixed to the exhaust pipe 5.

The proposed installation for generating aerosol operates as follows.

In the storage and transportation position, the structural elements of the installation (interconnected balloon 3 and hermetic container 4, exhaust pipe 5 and hinged shelf 10 assembly) are located inside the casing 2 and are mounted on its frame 1.

At the place of deployment, in the area of explored ascending atmospheric flows, the transport container is transformed into a working unit by turning the hinged shelf 10, which is fixed on the frame 1 with an emphasis 11, and transferring the exhaust pipe 5 assembly to the shelf 10. To do this, remove the bandage 6, freeing the pipe 5, which is installed, oriented on the base pins 12, with an open end on the shelf 10, after which the pipe 5 is fixed on the frame 1 from the outside by means of a removable bandage 6.

Then the nozzle 9 on the hose 8 is placed in the socket 15 under the shelf 10 coaxially with the central annular diffuser 14 located in the combustion chamber 13 - the transformed installation is ready for operation.

When opening the valve in a sealed container 4, a functional mixture of acetone and AgJ under pressure of 1.8 atm of compressed air is displaced with a flow rate of 1.1 l / h through a hose 8 into the nozzle 9, where a finely dispersed jet is formed, which is ignited by open matches.

The central annular diffuser 14 forms a stable combustion of the long-focus force in the combustion chamber 13, where an aerosol is generated from suspended particles of silver iodide in a large volume of gases formed during the combustion of acetone.

When this occurs, the atomization of atmospheric air occurs, which is tangentially absorbed into the combustion chamber 13 and, rotating around the periphery, fills the exhaust pipe 5.

Next, the functional aerosol generated during the combustion of the jet from the nozzle 9 is mixed with the injected air, forming a gas-aerosol formation, which is released into the atmosphere, where it is captured by ascending atmospheric flows and fed into the clouds to a height of 2-3 km.

The installation according to the invention can operate in automatic mode for 16 hours.

Tests of a prototype of the installation of the proposed design according to the invention confirmed the achievement of new qualities - mobility of transportation and intended use in a transformable container, with stable automatic operation with increased efficiency of active exposure to the clouds, which allows us to recommend it for serial production and delivery to customers.

Claims (2)

1. Installation for generating an aerosol containing a container of a functional reagent mixture connected to a compressed air cylinder, connected to a nozzle in a combustion chamber equipped with a coaxial air intake and combined with an exhaust pipe, while injection windows are distributed around the perimeter of the combustion chamber, characterized in that the structural the elements are placed inside the frame casing, equipped with a hinged shelf for supporting the exhaust pipe, mounted on the frame with a removable bandage, in the hinged shelf there is a socket m nozzle mounting, over which the central annular diffuser is fixed, and the blinds are tangentially located on the injection windows. 2. Installation according to claim 1, characterized in that the hinged shelf is provided with a swivel stop mounted on the frame.

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