RU182043U1 - Device for exhibiting passive aerosol samplers - Google Patents

Abstract

The claimed technical device relates to the field of meteorology and can be used to monitor aerosol pollution of the surface atmosphere. A device for exhibiting passive aerosol samplers containing tubular racks and cross members connected to each other, according to a utility model, the connection of the rack to the cross beam is crimped, for this purpose, in each rack a blind hole is made with a size equal to the outer diameter of the cross member, while the cross members are connected in pairs, each pair of cross members is an image There is a tier for exhibiting passive aerosol samplers on at least two tiers of the carrier bars rigidly fixed to the cross members, the distance between which is equal to the width of the passive aerosol sampler so that the covers of the passive aerosol samplers form a plate-like surface. The device contains a pressure mesh grate, commensurate with the tablet-like surface, pivotally mounted on one of the crossbars of each tier and having grommets on the opposite edge to fix the pressure of the passive aerosol samplers with nylon ties to the cross member. The technical result is to increase the reliability and efficiency of the device in areas with high wind load for pulsers with powder sorbents, as well as providing the possibility of multi-level testing of air ha for monitoring.

Description

The claimed technical device relates to the field of meteorology and can be used in monitoring aerosol pollution of the surface atmosphere.

A device for collecting dry aerosols (RF patent 2314511) is known in the form of a container with a depositing substrate made of a material of high heat capacity and chemically inert to atmospheric components, the upper part of the container is closed with a sealed lid, and a mesh is attached to the open bottom of the container on which the substrate is placed made in the form of molded thin fiber plates with a microporous structure of a hydrophilic material having a lower heat capacity than the material of which the container is made, when it at the top side of the container is formed a number of holes for forming the convective air currents and turbulent inside the container.

The passive aerosol samplers described in the invention are hung on branches or mounted on tree trunks. The disadvantage of using it is the inability to expose the pulsers in open areas (meadow, swamp, forest glade).

A device for detecting acid pollution of the atmospheric surface layer in the winter (patent RF 2502059), including containers with lids and a depositing substrate, a structure of racks and crossbars rigidly bonded to each other, while the containers for collecting dry aerosols are fixedly mounted on supporting beams on the distance providing the formation of a tablet-like surface. The device is equipped with extensions to ensure resistance to wind loads.

The known device is used to collect acidic pollution of the surface layer, has a limited area of air sampling and cannot be used for monitoring aerosol pollution of the atmosphere.

The closest analogue is a device for exhibiting containers for collecting dry aerosols on treeless territories (RF patent 2459191), including racks with consoles attached to them with installed containers. The consoles are made of metal rods, which are mounted on a rigid structure, consisting of racks and crossbars, firmly connected to each other. To increase the area of air sampling in the surface air layer, the racks with cross members form a spatial point, or ring, or radial, or triangulation, or trellis structure, which ensures stability to wind loads. The device is equipped with extensions that provide resistance to wind loads. Containers for the passive collection of dry aerosols (pulsers) are mounted on consoles, with each container containing a chemically inert sorbent in the form of molded fine-fiber plates with a microporous structure of a hydrophilic material.

The disadvantage of the selected prototype is that the pulsers are suspended from the consoles using a rope loop. Such fastening does not allow the use of pulsators with powder sorbents, which, when swayed by the wind, are strongly dispersed, which significantly limits their use in areas with high wind loads. In addition, the known device does not allow to increase the area of sampling of air in the surface layer during monitoring.

The problem to which the claimed technical solution is directed is to increase the efficiency of the device in areas with increased wind load for pulsers with powder sorbents in air monitoring by providing the possibility of multi-level testing.

This is the technical result.

The technical result is achieved by the fact that the device for exhibiting passive aerosol samplers, including tubular racks and cross-beams, firmly interconnected and having external extensions to ensure stability, according to a useful model, the connection between the strut and the cross-bar is made by crimping, for this, a blind hole is made in size in each rack equal to the outer diameter of the cross member, with the cross members connected in pairs, each pair of cross members forms a tier for exhibiting passive sampling Ikov aerosols with at least two tiers are rigidly fixed to crossbeams supporting crossbar, the distance between which is equal to the width of the passive sampler aerosols calculation to cover passive samplers aerosols formed planshetoobraznuyu surface. The device comprises a pressure mesh grate commensurate with the tablet-like surface, pivotally mounted on one of the cross-members of each tier and having eyelets on the opposite edge to fix the pressure of the passive aerosol samplers with nylon ties to the cross-member. To ensure rigidity and stability of the structure in conditions of strong winds, a device for exhibiting passive aerosol samplers contains a mounting unit inside the perimeter of the device, containing a wooden pin hammered into the ground, into the end of which a metal ring is screwed to which internal extensions are connected to the racks. To reduce the dimensions of the device during transportation, racks can be composite.

The device is illustrated in the drawing. In FIG. 1 shows an apparatus for exposing passive aerosol samplers.

A device for exhibiting passive aerosol samplers includes tubular stands (1) and crossbars (2), the connection of the stand with the crosspiece at right angles to one another is crimped, for this purpose, a blind hole (not shown) is made in each rack equal to the outer diameter of the crosspiece , for the stationary installation of passive aerosol samplers, supporting crossbars (3) are used, while the supporting crossbars (3) of each tier are rigidly connected to two tubular cross-pieces (2) forming a strong structure ktsiyu on each tier exposure passive samplers aerosols. There should be at least two such tiers. The fixing unit (4) inside the perimeter of the device consists of a wooden pin with a screwed-in metal ring at the end of the wooden pin, to which internal extensions (5) are attached, which provide additional structural rigidity. To facilitate transportation in the field, corner piles can be made of components. From the loss of passive aerosol samplers in strong winds, the device is equipped with a mesh grill pivotally mounted on one of the crossbars of each tier and having eyelets on the opposite edge to fix the pressure of the passive aerosol samplers with nylon ties to the cross member. Examples of field tests of the device are shown in the photographs of FIG. 2 and 3.

Example 1. At a key site in the forest-field border zone, characterized by an active wind regime, an aerosol area is organized, which is a fenced forest area with an area of 30-50 m cleared of felling. In the center of the site set the Central structure of the device from the racks (1) and crossbars (2). Supporting crossbars (3) are rigidly mounted on the pairwise cross-members of each tier with a distance between them equal to the width of the samplers. Then, a fixing unit (4) is created inside the perimeter of the device. To do this, a wooden pin is driven into the center of the perimeter, into which the ring is screwed. Internal extensions (5) are attached to it, connected to the uprights (1). After that, passive samplers are loaded with a powder sorbent. For this, a round lodgement with a powder sorbent is installed inside the container (pulsator), after which it is closed with a lid that protects the powder from atmospheric precipitation. In the upper part of the pulsator housing there is a protrusion that allows you to install passive samplers on the supporting rails so that the covers of the passive aerosol samplers form a plate-like surface. In order to exclude the loss of passive aerosol samplers in strong winds, a compression honeycomb grid commensurate with the tablet-like surface mounted pivotally on one of the crossbars of each tier and having grommets on the opposite edge to fix the pressure of the passive samplers aerosol neils to the plate-like surface made up of container lids crossbar. In FIG. Figure 2 shows the device for exposing passive aerosol samplers with powder sorbents to monitor atmospheric radioactivity in the surface air layer by assessing the specific activity of artificial and natural radionuclides in the flow of dry aerosols when they enter coniferous stands. Observations started in 2017; their completion - 2019.

Example 2. In the central part of the meadow inside the fence, an aerosol site is equipped similarly to Example 1. The site is located next to the air composition monitoring station in order to conduct measurements parallel to the Grimm 1.1 OS aerosol spectrometer. The purpose of the research was to analyze the variability of the ratio of water- and acid-soluble fractions in aerosol effluent, followed by a comparative assessment of the information content of active and passive aerosol selection methods. The first results of these joint parallel field studies, obtained from September to November 2016, revealed differences in the ratios of metals in the water and acid-soluble fractions, which allow us to reasonably assume that the water-soluble fraction reflects the submicron aerosol fraction more, while the acid-soluble fraction is coarsely dispersed. The obtained results increase the informativeness of the interpretation of the results of measuring the mass-count concentration by Grimm series aerosol spectrometers and the analysis of the chemical composition of aerosol runoff using passive selection methods, which expands the possibilities of aerosol monitoring in background areas.

Experimental studies of this device showed a significant increase in its reliability and efficiency when used in areas with high wind load when using powder sorbents.

Claims (4)

1. A device for exhibiting passive aerosol samplers, including tubular stands and cross members connected to each other, external extensions to ensure stability, characterized in that the connection between the stand and the cross member is crimped, for this purpose, a blind hole is made in each rack equal to the outer diameter of the cross member , while the cross-members are connected in pairs, each pair of cross-sections forms a tier for exhibiting passive aerosol samplers, on two tiers they are rigidly fixed to the cross-sections axes supporting the crossbars, the distance between which is equal to the width of the passive aerosol sampler with the expectation that the covers of the passive aerosol samplers form a plate-like surface, the device additionally contains a pressure mesh grate commensurate with the plate-like surface, pivotally mounted on one of the crossbars of each tier and having grommets on the opposite edge for fixing the clip of passive aerosol samplers with nylon ties to the cross member. 2. A device for exhibiting passive aerosol samplers according to claim 1, characterized in that to ensure rigidity and stability of the structure in conditions of strong winds, the device comprises a mounting unit installed inside the perimeter of the device, containing a wooden pin, driven into the ground, into which the end is screwed a metal ring to which internal extensions from the cord are attached, connected to the uprights. 3. A device for exhibiting passive aerosol samplers according to claim 1, characterized in that the pairwise cross members can form three tiers. 4. A device for exhibiting passive aerosol samplers according to claim 1, characterized in that the racks are made integral to reduce the dimensions of the device during transportation.

Images