KR102538352B1 - A system for tracking the source of fine dust-causing substances using a remote spectroscopic measurement vehicle - Google Patents

Abstract

The present invention relates to a system for tracking fine dust-causing substances emission sources using a remote spectroscopy vehicle, comprising: a remote spectroscopy vehicle;
Measuring equipment installed in a remote spectroscopy vehicle;
It is characterized by consisting of.
The measuring equipment protrudes from the top of the vehicle through the mast to measure pollutants in the air, and traces the source of the emission of substances that cause fine dust by inhaling the sample through a sampling line separately installed on the top of the vehicle and analyzing it in real time.
The analyzer is characterized in that it consists of infrared (IR) and ultraviolet (UV) rays.
The measuring equipment includes equipment capable of measuring wind direction and wind speed to select pollutant emission suspected workplaces and find problem processes, and to measure from the ground to the sky through a spectroscopic technique. By reducing the time and manpower required, it is possible to quickly identify pollutant emission sources and at the same time secure data on the concentration and emission of pollutants. Therefore, the concentration of pollutants in the air environment in industrial complexes or areas where pollutant emission workplaces are concentrated. has a significant effect on improving

Description

A system for tracking the source of fine dust-causing substances using a remote spectroscopic measurement vehicle}

The present invention relates to a system for tracking the emission source of fine dust causative substances using a remote spectroscopy vehicle, and more particularly, by reducing the time and manpower required in the existing method of tracking pollutants, quickly identifying the emission source of pollutants and simultaneously reducing the amount of pollutants. Since data on concentration and emission can also be obtained, it is about a fine dust causative substance emission source tracking system using a remote spectroscopic measurement vehicle that improves the concentration of pollutants in the atmospheric environment in industrial complex areas or areas where pollutant emission workplaces are concentrated. .

In general, to establish effective reduction strategies to improve regional air quality, especially high-concentration particulate matter, and to reduce exposure from air pollutants in the community, it is necessary to measure pollutant emission characteristics across facilities in industrial sites in real time or near real time. It is important to accurately identify Existing methods for measuring pollutant emissions at industrial sites mainly used intermittent measurement or fixed installation and continuous measurement. In order to understand this, the current test method alone is insufficient. Recently, the measurement methods are expanding to the field of 3D observation that can calculate emissions or continuous measurement methods by moving type by expanding fixed ground intensive observation.

And as an example of the prior patent technology Publication No. 10-2019-0108841 A housing 10 having a flow path including an air inlet 11 and an outlet 12;

a blowing fan 20 installed in the housing 10 to implement forced air blowing through a flow path;

a dust concentration detector installed in the flow path of the housing 10 to measure the concentration of dust contained in the air; and

A dust detection device for a vehicle having a moisture removal unit installed in the flow path of the housing 10 to remove moisture contained in the air is disclosed.

In addition, registration number 10-2214633 discloses a vehicle equipped with air chemical substance detection equipment.

However, the above conventional techniques have a disadvantage in that a lot of time and manpower are required for tracking the pollutant source, so that the cost of identifying the pollutant emission source is high.

Therefore, the present invention has been devised to solve the above problems, and the object of the present invention is to analyze harmful air pollutants in real time using a remote optical measurement vehicle, and also to identify the characteristics of individual chemical species of fine dust causative substances. For this purpose, it is possible to calculate not only the concentration of pollutants in the air, but also the emissions of fine dust-causing substances based on measurements by specific pollution sources and industrial complexes. When the pollutant tracking system developed in the present invention is used, it is possible to selectively manage pollutant emission-suspected workplaces using a remote spectroscopy vehicle that can improve the existing pollutant tracking method that requires large-scale manpower and time. It is intended to provide a system for tracking the source of fine dust-causing substances.

The present invention relates to a system for tracking fine dust-causing substances emission sources using a remote spectroscopy vehicle, comprising: a remote spectroscopy vehicle;

Measuring equipment installed in a remote spectroscopy vehicle;

It is characterized by consisting of.

The measuring equipment protrudes from the top of the vehicle through the mast to measure pollutants in the air, inhales the sample through a sampling line separately mounted on the top of the vehicle, and analyzes it in real time to track the emission source of the substance causing fine dust.

The analyzer is characterized in that it consists of infrared (IR) and ultraviolet (UV) rays.

The measurement equipment includes equipment capable of measuring wind direction and wind speed, selects pollutant emission-suspected workplaces and discovers problem processes, and measures from the ground to the sky through a spectroscopic technique.

Therefore, the present invention reduces the time and manpower required in the pollutant tracking method, quickly identifies the pollutant emission source, and at the same time secures data on the concentration and emission of pollutants. It has a remarkable effect on improving the concentration of pollutants in the atmospheric environment.

1 is a flowchart of a fine dust causative substance emission source tracking system using a remote spectroscopic measurement vehicle of the present invention
2 is a block diagram of a fine dust causative substance emission source tracking system using a remote spectroscopic measurement vehicle of the present invention

The present invention relates to a system for tracking fine dust-causing substances emission sources using a remote spectroscopy vehicle, comprising: a remote spectroscopy vehicle;

Measuring equipment installed in a remote spectroscopy vehicle;

It is characterized by consisting of.

The measuring equipment protrudes from the top of the vehicle through the mast to measure pollutants in the air, inhales the sample through a sampling line separately mounted on the top of the vehicle, and analyzes it in real time to track the emission source of the substance causing fine dust.

The analyzer is characterized in that it consists of infrared (IR) and ultraviolet (UV) rays.

The controller is characterized in that it consists of a transmitter, a receiver, a controller, and a storage. The measuring equipment is characterized in that it can communicate with a computer and can be remotely controlled.

The controller may create a virtual pillar-shaped zone between the sun and the remote spectroscopy vehicle measuring equipment, and surround the entire target, which is a business site, with the virtual pillars to find a scattering leak point.

For the purpose of calculating emissions, it is characterized by analyzing fine dust-causing substances and specific air pollutants in real time while moving the boundaries of the business site.

The control unit is characterized in that it can statistically process pollutant concentration and emission data for the movement route using GPS.

The measurement equipment includes equipment capable of measuring wind direction and wind speed, selects pollutant emission-suspected workplaces and discovers problem processes, and measures from the ground to the sky through a spectroscopic technique.

The present invention will be described in detail with reference to the accompanying drawings. 1 is a flow chart of a fine particle causative substance emission source tracking system using a remote spectroscopic measurement vehicle of the present invention, and FIG. 2 is a configuration diagram of a fine dust causative substance emission source tracking system using a remote spectroscopic measurement vehicle of the present invention.

The fine dust causative substance emission source tracking system using the remote spectroscopic measuring vehicle of the present invention includes a remote spectroscopic measuring vehicle;

Measuring equipment installed in a remote spectroscopy vehicle;

consists of

The measuring equipment protrudes from the top of the vehicle through the mast to measure pollutants in the air, inhales the sample through a sampling line separately mounted on the top of the vehicle, and analyzes it in real time to track the emission source of the substance causing fine dust.

The analyzer is characterized in that it consists of infrared (IR) and ultraviolet (UV) rays.

The measuring equipment is characterized in that it can communicate with a computer and can be remotely controlled. The power of the measuring equipment is supplied from the engine power or battery of the remote spectroscopic measurement vehicle.

The controller of the present invention is composed of a transmission unit, a reception unit, a storage unit for storing data, a comparison unit for comparing set data and data transmitted from a sensor, and a control unit.

In particular, a communication module is installed in the measuring equipment to communicate with the remote management server.

The control unit creates a virtual pillar-shaped zone between the sun and the remote spectroscopy vehicle measuring equipment, and surrounds the entire target, which is a business site, with the virtual pillars to find a scattering leak point.

Therefore, for the purpose of calculating emissions, it analyzes fine dust causative substances and specific air pollutants in real time while moving the boundaries of the business site.

In particular, the control unit can statistically process pollutant concentration and emission data for the movement route using GPS. The measurement equipment includes equipment capable of measuring wind direction and speed, so that pollutant emission-suspected workplaces are selected and problem processes are discovered.

Soon, the configuration of the present invention is (1) real-time measurement using a remote optical measurement vehicle (which can measure the emission concentration and emission of fine dust-causing substances (VOCs, nitrogen oxides, sulfur oxides) and specific air pollutants in real time) (2) It consists of verification using a statistical system, (3) selection of workplaces with suspected pollutant emissions, (4) identification of suspicious emissions processes through detailed inspections, (5) technical support for process improvement, and (6) improvement effect analysis.

The remote optical measurement vehicle creates a virtual pillar-shaped zone between the sun and the measurement equipment, surrounds the entire business site, finds scattering leak points, and calculates emissions. Hazardous substances are analyzed in real time. Using the GPS system, pollutant concentration and emission data can be statistically processed, and wind direction and wind speed can be measured, so it is excellent for selecting pollutant emission-suspected workplaces and discovering problem processes.

The air from the ground to the sky is measured through a conventional spectroscopic technique, and the types and concentrations of pollutants are identified by integrating the data, and pollutant emission source information and By comparing and analyzing the actual measured data, the suspected contamination workplace is selected. In order to identify the cause of the high concentration phenomenon in the workplace, the comparison unit and calculation unit identify the relationship between the facilities around the high-concentration emission facility and the measured pollutants. At this time, parameter values such as air humidity and temperature at the time of measurement are multiplied by weights to make calculations accurate. As an example, if the relative humidity is 40, the weight is multiplied by 1, if it is 50 or more, 1.2, etc. On days with severe yellow dust, the level of fine dust increases, so multiply by lowering the weight to avoid excessive measurement values. The wind strength (speed) is also multiplied so that the higher the wind strength, the higher the value, so lower the weight to prevent excessive measurement values. It can be determined as a weight by multiplying the yellow phase value and the wind strength weight together. Then, by multiplying the composite value, the yellow dust value × wind strength × temperature × humidity × height correction value × time value such as morning, afternoon, and daytime are multiplied together to increase the measurement accuracy. Based on the comparison results, a suspected emission facility is selected, a detailed investigation is conducted, the cause is identified, technical review is conducted for improvement, and improvement and repair work is performed for the process and facilities. Finally, it consists of a step of evaluating the improvement efficiency through re-measurement of the improved facility.

Therefore, the present invention can rapidly identify the pollutant emission source by dramatically reducing the time and manpower required in the existing pollutant tracking method, and at the same time secure data on the concentration and emission of pollutants. It has a remarkable effect on improving the concentration of pollutants in the atmospheric environment in densely populated areas.

Claims (3)

remote spectroscopy vehicle;
Measuring equipment installed in a remote spectroscopy vehicle;
It consists of, but the measuring equipment is installed with a plurality of optical measurement and analysis equipment to track emission sources such as fine dust causative substances, including infrared (IR) and ultraviolet (UV) analysis equipment, and a controller for controlling the measuring equipment In the fine dust causative substance emission source tracking system using a remote spectroscopy vehicle in which is installed,
The measuring equipment is in the shape of a square box, but the upper part is stretched in length, and the measuring equipment has sensors for harmful gas sensors, carbon dioxide detection sensors, and fine dust detection sensors. The emission source is tracked, and the controller consists of a transmitter, a receiver, a control unit, and a storage unit, and a communication module is installed in the measuring equipment to communicate with the remote management server.
The control unit creates a virtual pillar-shaped zone between the sun and the remote spectroscopy vehicle measuring equipment, and surrounds the entire target, which is the site of the business site, with virtual pillars to find the scattering leak point, but for the purpose of calculating emissions, the business site While moving the boundary, it analyzes the cause of fine dust and specific air pollutants in real time. A gyro sensor and speed sensor are installed to measure wind direction and speed, select pollutant emission-suspected workplaces, and discover problem processes or suspicious emission facilities.
The air from the ground to the sky is measured through spectroscopic techniques, and the types and concentrations of pollutants are identified by integrating the data, and the pollutant emission source information and the actually measured data are compared and analyzed to select the suspected pollution workplace. In order to identify the cause of the high-concentration phenomenon, the correlation between the facilities around the high-concentration emission facility and the measured pollutants is identified in the comparison unit and the calculation unit. , Fine dust causative substance emission source tracking system using a remote spectroscopic measurement vehicle, characterized in that the problem process or suspected emission facility is selected based on the results of comparison, and a detailed investigation is conducted to identify the cause. delete delete

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