RU190444U1 - Installation for the quantitative assessment of the distribution of aerosol concentrations of impurities of harmful substances in the air - Google Patents

Abstract

The claimed utility model relates to devices that allow sampling from several volumes, and can be used to estimate the distribution of aerosol concentrations of harmful impurities in the air between two chambers interconnected by a ventilation pipe in the absence or operation of exhaust ventilation. The installation consists of a sealed chamber with an aerosol source made in the shape of a parallelepiped with a viewing window, and devices for sampling air, to which with the help of a flexible corrugated A second sealed chamber with sampling tubes for air sampling using aspirators connected to the tubular pipe is connected by a circular hollow air duct with a source of forced circulation of airflow inside. Technical result: the ability to conduct research on the flow of aerosols of various harmful substances between closed volumes involuntary airflow account with or without a laboratory.

Description

The claimed utility model relates to devices that provide the ability to take samples from several volumes. The installation is designed to assess the distribution of aerosol concentrations of harmful impurities in the air between two chambers interconnected by a ventilation pipe, in the absence or operation of exhaust ventilation.

Known aerosol chamber to determine the concentration and particle size of the aerosol generated by pesticide sprayers (patent for utility model No. 50675).

A small-sized mobile aerosol camera is known for monitoring the performance of spectroscopic lidars (utility model patent No. 123938) designed for field (field) testing of equipment that remotely measures concentrations of various atmospheric pollutants, as well as for work with water aerosols, various solutions, mixtures and chemical compounds, excluding the possibility of their release into the atmosphere. The chamber has a housing in the form of a pipe with windows and contains a closed system of circulation and blowing of the aerosol, a pipe housing in the form of a pipe with windows for the passage of radiation, as well as an aerosol generator and nozzles installed in the housing. The disadvantage of the model is that it is not equipped with devices for air sampling.

The closest analogue of the claimed utility model is an aerosol chamber for determining the masking characteristics of aerosols in the infrared range of the electromagnetic radiation spectrum, consisting of a housing, an aerosol source, fans, made in the form of a straight parallelepiped with side walls made of a material transparent to infrared radiation. At the same time, it is hermetically coupled with a hollow rectangular duct, made in the form of a circuit with forced circulation of the air flow inside, ensuring that only bulk aerosol formulations are transferred to the aerosol state. The concentration is determined using an air sampling device. This model is not compact and does not exclude the possibility of the ingress of aerosol into the atmosphere.

The main drawbacks of the presented utility models are that they consist of one aerosol chamber and do not allow conducting research on the flow of aerosols of various harmful substances between closed volumes, interconnected by or without forced air flow.

The problem to which the claimed utility model is directed, is to provide the possibility of assessing the distribution of the concentration of an aerosol of harmful impurities in the air between the ventilated objects in the laboratory.

The task is achieved by creating an installation for the quantitative assessment of the distribution of aerosol concentrations of impurities of harmful substances in the air, including a sealed chamber with an aerosol source, made in the form of a parallelepiped with a viewing window, and an air sampling device, characterized in that to the first chamber A second sealed chamber with sampling tubes for air sampling using aspirators connected by a flexible corrugated tube is connected by a hollow air duct round section of a forced circulation of air flow inside that allows to estimate the distribution of pollutants aerosol between objects equipped with ventilation, as well as in its absence.

The proposed utility model is illustrated by drawings, where figure 1 shows an installation diagram for quantifying the distribution of the aerosol of impurities of harmful substances in the air, which consists of: a filter-ventilation device 2, which regulates the speed of the air flow connected with a flexible corrugated pipe 3 with a chamber No. 1 in which air sampling tubes 1 are placed using air aspirators 5 and the meteorological sensor 4 is installed, there is a viewing window for visual observation of the distribution ELENITE impurities within the chamber. Camera No. 1 is connected to chamber No. 1 using flexible corrugated tube 6, in which an aerosol generator 10, sampling tubes 8 for sampling air using aspirators 9 and meteorological sensor 7 for determining temperature, humidity and atmospheric pressure are installed.

The figure 2 shows the appearance of the utility model. Air sampling from chamber number 1 is carried out using aspirators 5; controls in chamber No. 2 are installed using fittings 11 through a special hatch 12. Visual observation of the process of aerosol formation is carried out through the viewing window 13. The layout of the sampling tubes 1 in chamber No. 1 through special hatches 14 is shown in figure 3. Figure 4 shows the placement controls 8 in chamber 2 and aerosol generator 10.

The device works as follows: chambers No. 1 and No. 2 are equipped with aspiration means of technical control, an aerosol generator is installed in chamber No. 2, after which the chambers are sealed. Forced air flow is created using the filtering device 2 of the required performance. Impurity from chamber number 2 begins to flow into chamber number 1. After a specified time, air is sampled using suction control equipment. After the experiment, technical control tools are extracted, and then subsequently subjected to quantitative analysis using a special technique.

The main advantages of this complex include:

- the ability to estimate the distribution of aerosol concentrations of harmful impurities in the air between the ventilated objects;

- the ability to assess the effect of ventilation on the distribution of aerosol concentrations of impurities of harmful substances in the air between the chambers that simulate multi-room premises;

- reduction of time and material costs of the experiment;

- reducing the number of controls and, as a consequence, the number of materials analyzed (filters);

- ensuring work with harmful impurities, excluding the possibility of their entry into the atmosphere;

- ensuring the safety of research staff.

The proposed complex can be manufactured on the basis of components and elements produced by the domestic industry using modern technology that has been mastered and can be used when conducting research to assess the standards for the content of harmful impurities in indoor air.

The proposed complex was tested when conducting experimental studies in the framework of the implementation of research projects of the Federal State Budgetary Institution “Central Research Institute of Scientific Research” of the Ministry of Defense of Russia.

Claims (1)

Installation for the quantitative assessment of the distribution of aerosol concentrations of impurities of harmful substances in the air, including a sealed chamber with an aerosol source, made in the form of a parallelepiped with a viewing window, and an air sampling device, characterized in that the second sealed chamber is connected to the first chamber by means of a flexible corrugated pipe chamber with sampling tubes for air sampling using aspirators connected by a hollow circular air duct with a source of forced air circulation th flow inside, which allows to assess the distribution of pollutants aerosol between objects equipped with ventilation, as well as in its absence.

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