KR100359443B1 - System and Method to provide Information Of Air Pollution Using Laser Radar And Dispersion model - Google Patents

Abstract

The present invention relates to a method and a system for providing air pollution information using a laser radar and a diffusion model, and to develop an air pollution diffusion model and to build an air pollution electronic mapping system using raw data measured by a laser radar. By integrating the measurement data, air pollution diffusion model, and air pollution electronic map to form an environmental information system, it provides users with more accurate and detailed air pollution measurement data and air pollution electronic map in real time, as well as the real time measurement. Based on the measured data, it is possible to quickly cope with air pollution by predicting the movement path of air pollution and the prediction of secondary pollutants.

Description

System and Method to provide Information Of Air Pollution Using Laser Radar And Dispersion model}

The present invention shows a method and system for providing air pollution information using a laser radar and a diffusion model, and more specifically, the development of an optimal air diffusion model based on raw data measured by a laser radar to move dust and other pollutants. By identifying the route and processing the air diffusion model in conjunction with the Geographic Information System (hereinafter referred to as "GIS"), a detailed air pollution map for the measurement area can be provided to the user in real time. .

Modern society has achieved rapid industrial development with the introduction of automation system thanks to the brilliant development of science and technology, but in the process, various pollutants are generated and environmental pollution reaches a level that threatens survival. A regulatory system was required.

Therefore, in order to prepare for future environmental pollution in accordance with such urgent demands, research on accurate measurement technology for environmental pollution and development of measurement equipment are actively underway, starting with the development of various alternative energies.

Laser radars (also known as lidars), the most modern optical measuring instruments currently used to measure air pollution, are not only able to focus light in a narrow range but are also monochromatic and have a constant phase, such as radio waves. Use a laser.

In addition, the laser radar is a precision measuring device capable of observing smoke or air pollutants relatively accurately due to the advantage of measuring scattering caused by much smaller particles, that is, aerosols or air molecules, compared to ordinary weather radars.

However, the air pollution map prepared by using the general air pollution measuring device makes the average value of the air pollution at one point in the measurement area and shows the average value as the pollution degree of the whole measurement area. It is difficult to show a more detailed air pollution degree is shown there was a problem that the reliability is lost.

In addition, the air pollution data measured as described above is measured at one point, and based on this, it is impossible to grasp the movement path of other air pollutants and predict secondary pollutants. It is difficult to deal with air pollution quickly because there is no integrated environmental information system to provide fast and accurate in real time.

The present invention has been devised to solve the above problems, by applying the data measured by the laser radar to the air diffusion model to determine the movement path of dust and other pollutants to establish an accurate air diffusion model, and also air diffusion The purpose is to provide a method and system for providing air pollution information using a laser radar and a diffusion model that provides the user with more detailed air pollution status in the measurement area in real time by linking the model with GIS.

The present invention for achieving the above object is a step of measuring the dust of the air using a laser radar, the step of setting the air pollution diffusion model using the measured raw data (A), air pollution map preparation system Divided into building stages (B); Constructing an environmental information system by integrating the measured data, the air pollution diffusion modeling data, and the air pollution map, and providing the measurement data, air pollution diffusion modeling data, and air pollution map of the environment information system to a user through a network. A step-by-step information provision method that provides users with real-time network of detailed air pollution measurement data and air pollution electronic map. It is precisely provided, and it is characterized by the fact that the movement path of air pollution and the prediction of secondary pollutants can cope with air pollution quickly.

1 is a view showing an air pollution information providing method and system using a laser radar and diffusion model of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view illustrating an air pollution information providing method using a laser radar and a diffusion model of the present invention. First, a step of measuring atmospheric dust using a laser radar, and after the measuring step, spread air pollution It is divided into the stage of setting up the model and the stage of building the air pollution mapping system.

First, forming an air pollution diffusion model based on raw data measured by a laser radar, and using the diffusion model to determine the concentration and movement path of dust and other air pollutants, and the dust and air pollution Prediction of secondary pollutants using the concentration and meteorological data, and the step of building a database of the measurement data and prediction data measured by the laser radar.

On the other hand, in the step of constructing the air pollution map system, first, precision processing the raw data into three-dimensional data, inputting the processed data into the GIS to create a pollution map in real time, as described above in real time A step of preparing a predictive pollution map based on the created pollution map, and the step of systemizing the real-time pollution map and the predicted pollution map.

And integrating the measured data measured by the laser radar, the air pollution diffusion modeling data, and the air pollution map into an environment information system, and the measurement data, air pollution diffusion modeling data, and air pollution in the environment information system. The air pollution information system using the laser radar and the diffusion model of the present invention comprises: a laser radar measuring air dust; Air pollution by inputting the dust measurement data, meteorological data, and air pollutant data to calculate the migration path of dust and pollutants into the air, the conversion concentration of pollutants, and secondary pollutants by numerical methods using a computer. Diffusion modeling system; An air pollution map preparation system for processing the measured data by three-dimensional processing and inputting the processed data into a GIS to generate a real time air pollution map and a predicted pollution map for an individual measurement area; An environmental information system constructed by integrating the measured data, air pollution diffusion modeling data, and air pollution map; And a network connecting the environmental information system to provide air pollution information in real time.

In the present invention configured as described above, as shown in the accompanying drawings of FIG. 1, first, as well as meteorological data using the laser radar to measure the dust near the surface, at this time air pollution based on the raw data measured by the laser radar Develop a diffusion model. In other words, the present invention uses a laser radar used for dust observation to observe the emission form (plum rise and puff form) and atmospheric boundary layer (PBL) from the source. In addition, this data is converted into input data applicable to the existing atmospheric diffusion model, and then the model is operated to track the spread and movement of air pollutants. By measuring and analyzing the absorption and scattering that occur through water, the type, concentration, and distribution of pollutant molecules are determined. Laser radars include Mie scattering laser radars, Raman scattering laser radars, Doppler laser radars, and tunable solid laser radars. The Air Pollution Diffusion model is based on meteorology and is used to estimate the range and intensity of air pollution, after making a series of assumptions, with an essential understanding of atmospheric motion, such as turbulence diffusion and mixing processes. By using the computer numerical method, the process of contaminants spreading into the atmosphere from a particular pollutant (point source, line source, cotton source, etc.) and the concentration at a specific point after a certain time can be calculated. In general, the model used in environmental impact assessment is the US Environmental Protection Agency ( Many models of the UNAMAP series recommended by the US EPA are used, but various models are developed / used depending on the subject of the research, the area of the region, and the time. UNAMAP series models are Gaussian models, and Lagrangian models are developed / used as needed. If the target area is large, several models of weather models are also used for reliability of weather data. do. In addition, there are various methods of dividing the atmospheric diffusion model according to the size of the target area, but there are three methods of local diffusion model, regional air quality model, and inter-regional movement model. Can be divided into: Local diffusion model covers the areas of Korea's metropolitan area, Honam area and Yeongnam area, and is mainly used to study photochemical pollution in the area. Among the diffusion models used for the air pollution prediction, the Gaussian diffusion model is widely used because the calculation process is relatively simple and the input data can be easily collected. Among the local diffusion models, the Gaussian plume model assumes a steady state in which emission and weather conditions do not change over time, while the Gaussian puff model can consider regional differences in wind direction and wind speed over time. It is also a useful model for regions showing abnormal conditions because it can also consider changes in emissions of puffs over time.

At this time, the analysis by the laser radar is to analyze the distribution of dust, the accuracy of the data output, the time required for observation, the type and cause of the harmful substances, the analysis of the diffusion model is the type of input data, output type, diffusion Analysis of application theory, application period, application scale, topography, reactivity of hazardous substances, air condition, and targets of applied pollutants establishes the most accurate air pollution diffusion model.

Then, the concentration of other air pollutants (eg sulfur dioxide (SO ₂ ), nitrogen dioxide (NO ₂ ), volatile organic substances (VOCs)) is calculated using the air pollution diffusion model set as described above. Predict the extent of diffusion.

Then, the concentration of ozone (O ₃ ) which is the most severe as a secondary pollutant based on the concentration of the dust and air pollutants (eg sulfur dioxide (SO ₂ ), nitrogen dioxide (NO ₂ ), volatile organic substances (VOCs)). It is expected to build a database based on the measured data and the predicted data.

Meanwhile, at the same time as the air pollution diffusion model is constructed, the air pollution map is prepared. First, the raw data of the dust measured by the laser radar is precisely analyzed in three dimensions to process the data, and the processed data is GIS. The air pollution map in real time is created as a kind of meteorological map that inputs / processes the data into the measurement area.

The air pollution map prepared as described above does not express the air pollution state of the measurement area in the unit of administrative region as in the prior art, but implements each of them individually, for example, expresses the air pollution degree differently according to the measuring point even in the administrative region. It is possible to pinpoint the state of air pollution.

In addition, through the air pollution map created in real time as described above to estimate the movement path of the air pollution is to create a predicted pollution map.

In addition, an environmental information system is constructed by combining the measured data measured by the laser radar, the air pollution diffusion modeling data, and the air pollution map into one. Then, the user connected to the environment information system is connected to the diffusion and movement path of air pollutants. It provides real-time and forecast data on real time, and provides more accurate environmental information by providing segmented air pollution electronic map as network.

Therefore, conventionally, if the administrative area is the same due to the measurement by the point sample in the administrative area, the pollution level is represented as the same as a whole, so that the accurate and granular air pollution state cannot be known, and thus, the movement path for more air pollutants. Of course, it was impossible to predict the secondary pollutants, but the present invention measures and analyzes various points with a laser radar to set a relatively accurate diffusion model, and comprehensively analyzes the air pollution diffusion modeling data and the air pollution map using the same. By establishing it as an environmental information system, it is possible to provide users with more accurate and detailed air pollution measurement data and air pollution electronic maps in real time.

In addition, it is possible to achieve a rapid response to air pollution by predicting the movement path and secondary pollutants of air pollution by the measurement data measured in real time.

As described above, the present invention provides the user with more accurate and detailed air pollution measurement data and air pollution electronic map in real time, and predicts the movement path and secondary pollutants of air pollution by the measured data measured in real time. There is an effect that can achieve a quick response to air pollution.

Claims (4)

The atmospheric dust measurement step using laser radar, The air pollution diffusion model is set using the measured raw data (A), and the air pollution mapping system is constructed into a step (B); Constructing a visitor information system by integrating the measured data, air pollution diffusion modeling data, and air pollution map; And providing measurement data, air pollution diffusion modeling data, and air pollution map to the user through a network. The method of claim 1, In the step (A), the raw data is applied to the atmospheric diffusion model to determine the movement path of the dust; Calculating concentrations of other air pollutants by using the air diffusion model and determining a movement path of air pollutants; Predicting secondary pollutants using the air pollutants and meteorological data; A method of providing air pollution information using a laser radar and a diffusion model, characterized in that the measurement data and the prediction data are constructed as a database to establish an air diffusion model. The method of claim 1, In the step (B), the raw data are measured / analyzed at various angles and processed into data by three-dimensional processing; Creating a pollution map in real time by inputting the processed data into a GIS; Creating a predicted pollution map based on the real-time pollution map; Method for providing air pollution information using a laser radar and diffusion model, characterized in that to construct an air pollution mapping system by synthesizing the pollution map. Laser radar for measuring dust in the atmosphere; Air pollution by inputting the dust measurement data, meteorological data, and air pollutant data to calculate the migration path of dust and pollutants into the air, the conversion concentration of pollutants, and secondary pollutants by numerical methods using a computer. Diffusion modeling system; An air pollution map preparation system for processing the measured data by three-dimensional processing and inputting the processed data into a GIS to generate a real time air pollution map and a predicted pollution map for an individual measurement area; An environmental information system constructed by integrating the measured data, air pollution diffusion modeling data, and air pollution map; And Air pollution information system using a laser radar and diffusion model characterized in that the network is configured to provide the air pollution information in real time by connecting the environmental information system.