RU79344U1 - AEROSOL MEASURING COMPLEX - Google Patents

Abstract

The utility model relates to the field of ecology and can be used to monitor air pollution in the surface layers of the atmosphere. The technical result is to increase the accuracy of measuring the distribution density and type of air pollution in the surface layers of the atmosphere. To achieve the claimed technical result and solve the technical problem, the aerosol measuring complex contains an air intake 1, a device 2 for sampling aerosols for mass concentration and chemical analysis, a meter 3 PA ametrov air, the aerosol composition meter 4, a receiver 5 of the navigation signals, the receiver 6 and weather data control device 7 and the digital processing of the measurement results. The device 2 is installed in the air intake 1 and contains a block of replaceable filters 10 of type HA-2, a controlled air duct 11 and an electronic switch 12. The meter 3 is made in the form of an anemometer equipped with a wind direction meter 13 and an air temperature sensor 14. The meter 4 includes a laser aerosol counter 16 and an optical aerosol counter 17. Devices 1-6 are digitally controlled and connected via control and information signals to a device 7 for controlling and digitally processing the measurement results. The device 7 comprises a laptop computer 18, a removable external memory unit 19, and a port splitter 20. 1 C.p.F., 1 ill.

Description

The utility model relates to the field of ecology and can be used to monitor air pollution in the surface layers of the atmosphere.

Known aerosol measuring complex (RU 2304293, class G01W 1/02, 2007), designed to monitor air pollution in the upper atmosphere and includes an air intake, a meter of air parameters, a meter of aerosol composition, a navigation signal receiver and a weather receiver connected to control device and digital processing of measurement results. In this case, the air parameter meter contains a pressure sensor, a temperature sensor, a relative humidity sensor and an atmospheric moisture sensor mounted on board the aircraft, and a ground-based mobile lidar for measuring atmospheric transparency, connected by a radio line to the aircraft side. The aerosol composition meter contains a gas analyzer and a spectral analyzer mounted on board the aircraft. The control device and digital processing of the measurement results is made in the form of a digital stationary computing machine installed on board the aircraft.

A disadvantage of the known aerosol measuring complex is the insufficient accuracy of measurements of air pollution in the surface layers of the atmosphere.

The objective of the utility model is to increase the accuracy of measuring the distribution density and composition of air pollution in the surface layers of the atmosphere.

The technical result that provides the solution of this problem is to take into account the mass and chemical composition of the pollutants, as well as to take into account the size distribution of the pollutants in the air.

The achievement of the claimed technical result and the solution of the problem is ensured by the fact that the aerosol measuring complex, including an air intake, a meter of air parameters, a meter of aerosol composition, a navigation signal receiver and a weather receiver connected to a control unit and digital processing of measurement results, according to the utility model, it is additionally contains a device for sampling aerosols for mass concentration and chemical analysis installed in the air intake e, the aerosol composition meter contains a laser aerosol counter and an optical aerosol counter, the air environment meter is made in the form of an anemometer, and the control and digital processing of the measurement results is in the form of a laptop computer with a removable external memory unit. The aerosol sampling device for mass concentration and chemical analysis is made in the form of a block of replaceable filters, a portable computer - in the form of a tablet computer with a touch control panel or in the form of a personal computer such as “Notebook”, and a block of removable external memory - on flash elements memory produced by "Western Digital".

Introduction of aerosol sampling device for mass concentration and chemical analysis and its implementation in the form of a replaceable block

filters installed in the air intake allows detecting the presence of environmental pollution that is harmful to human health, such as airborne solid fractions of carcinogenic emissions of chemical plants and nuclear power plants, and their degree of concentration at the measurement site linked to the geographical map of the monitoring area, and thereby to increase the accuracy of the complex by measuring the density and composition of air pollution in the surface layers of the atmosphere and the degree of their danger to the population of the studied territories. Allows to reveal facts of violation of environmental legislation in the monitoring territory. Providing the aerosol composition meter with a laser and an optical aerosol counter allows expanding the range of aerosol size measurements over almost the entire range of 0.15-10 microns of the existence of solid dust fractions and emissions of industrial enterprises suspended in the surface layers of the atmosphere, and thereby further improving the accuracy of complex measurements in part identify a more accurate distribution of the density and composition of contaminants by size and mass fraction of particles. The implementation of the air parameter meter in the form of an anemometer allows not only to measure the air temperature at the measurement point, but also to ensure the binding of measurements of air pollution taking into account the "rose" of the winds at the measurement point. The implementation of the control device and digital processing of the measurement results — in the form of a portable computer and supplying it with a removable external memory unit on the flash memory elements manufactured by Western Digital, makes it possible to further increase the accuracy of complex measurements by expanding the memory capacity and temporarily accumulating environmental monitoring statistics. In general, these technical advantages allow to increase the accuracy of complex measurements while reducing its weight and size characteristics. Weight reduction

characteristics of the complex provides an increase in the degree of its mobility. This, in turn, allows you to place the complex on road or rail transport, and further increase its capabilities in terms of the accuracy of environmental monitoring of the surveyed territories.

The figure shows a functional diagram of an aerosol measuring complex.

The aerosol measuring complex contains an air intake 1, a device 2 for sampling aerosols for mass concentration and chemical analysis, a meter 3 for air parameters, a meter 4 for aerosol composition, a receiver 5 for navigation signals and a receiver 6 for meteorological data made with digital inputs / outputs and connected by control and information signals with the device 7 control and digital processing of measurement results. The air intake 1 is made with a capacity of 28 l / min and contains a ventilation grill 8, a fan 9, between which an aerosol sampling device 2 for mass concentration and chemical analysis is installed. The device 2 contains a block of replaceable filters 10, a controlled duct 11 and an electronic switch 12 for controlling the fan 9 and the duct 11. In the simplest case, the device 2 can be made in the form of a chemical protection filter type HA-2. The meter 3 parameters of the air environment is made in the form of an anemometer model 8901, containing a wind direction meter 13, an air temperature sensor 14 connected through an analog-to-digital converter 15 with an interface input / output of the meter 3. The aerosol composition meter 4 includes a laser aerosol counter 16 and an optical aerosol counter 17. Counter 16 is made of the LAS-1 series with a particle measuring range from 0.15 microns to 2 microns and

with a productivity of 50 cm cube / min. The counter 17 is made of the OAS-2 series with a performance similar to that of the counter 16, and a particle measuring range from 1 micron to 10 micron. The device 7 control and digital processing of the results contains a laptop computer 18 with a block 19 of removable external memory and an electronic switch 20 (port splitter with external power supply). The removable external memory unit 19 is made on Western Digital flash memory elements with a memory capacity of at least 160 GB and is connected directly to one of the USB-2.0 interface ports of computer 18, the other USB-2.0 port of which is connected through an electronic switch 20 digital inputs / outputs of switch 12 of the sampling device and meters 3 and 4. The receiver 5 of navigation signals and the receiver 6 of weather data are made in the form of removable modules GSM / UMTS and GPS - the standard for installation in the corresponding receiving connectors of the computer 18. Computer R 18 is made in the form of a portable tablet computer with a touch control panel or type “Notebook” with a keypad typing field.

Aerosol measuring complex operates as follows.

To carry out environmental monitoring of a given territory, the equipment 1-20 of the complex is installed on mobile transport, for example, in one of the compartment of a passenger carriage. The inlet and outlet of the air intake 1 are connected to the external air through the ventilation system of the car. The wind direction meter 13 and the temperature sensor 14 of the anemometer 3 are mounted on the roof of the car and connected with a cable to an analog-to-digital converter 15 installed in the car compartment. The remaining measuring elements of the complex are connected to the computer through the appropriate ports and turn on the computer. In accordance with the program embedded in computer 18, the latter

periodically in time, for example, during short stops at railway stations, includes an air intake 1 and pumps it through its filter 10, providing for taking aerosol samples for mass concentration and chemical analysis. At the same time, a meter of 3 parameters of the air environment, a meter of 4 aerosol composition, a receiver of 5 navigation signals and a receiver of 6 meteorological data are turned on. The computer 18 polls the indicated meters 3, 4, as well as the receivers 5 and 6, and binds the received data to the time of the stops of transport and the geophysical measurement point. In this case, the measurement data and the bindings are accumulated in the removable memory 19. After the train returns to the original station, the removable memory 19 is removed from the computer 18. At the same time, the block 10 is removed from the air intake 1 and transferred to the chemical laboratory for weighing and chemical analysis of air samples. A removable memory 19 is also transferred there for installation in a laboratory stationary computer containing data from previous monitoring results and a map of permissible values of air pollution in the surveyed area by industrial waste. After chemical and weight analysis of air samples of filter 10 and comparison of the obtained environmental monitoring data with control values, possible environmental disturbances in specific areas of the survey area are identified and a decision is made on a more detailed study of infected areas using this complex. At the same time, the complex is installed on a car and an environmental examination of the infected areas of the territory is carried out and an environmental map of their infection is compiled.

The utility model is developed at the prototype level on the basis of the UAZ car. Successful testing of a prototype in the region of Caucasian Mineral Waters.

Claims (2)

1. Aerosol measuring complex, including an air intake, a meter of air parameters, a meter of aerosol composition, a navigation signal receiver and a weather receiver connected to a control and digital processing unit for the measurement results, characterized in that it further comprises an aerosol sampling device for mass concentration and chemical analysis installed in the air intake, the aerosol composition meter contains a laser aerosol counter and an optical aerosol counter, the air parameter meter is made in the form of an anemometer, and the control and digital processing device for the measurement results is in the form of a laptop computer with a removable external memory unit. 2. Aerosol measuring complex, characterized in that the aerosol sampling device for mass concentration and chemical analysis is made in the form of a block of replaceable filters, a portable computer is in the form of a tablet computer with a touch control panel or in the form of a personal computer of the “Notebook” type, and the block removable external memory - on the elements of flash memory production "Western Digital".