Collaborative Monitoring Scheme for Atmospheric Particulates and Ozone

System Introduction

The collaborative mobile monitoring system for atmospheric particulates and ozone integrates diverse high-end equipment for tracing the sources of atmospheric pollution, including vehicle-mounted Aerosol LiDAR, vehicle-mounted ozone LiDAR, GPS positioning systems, and meteorological five-parameter monitors. By adopting working methods such as parked scanning or mobile measurement, the system conducts real-time, online, and continuous scanning and monitoring of the input, transit, and deposition processes of pollution clusters over the region. It analyzes the types, intensities, and evolutionary processes of pollutants. The LiDAR can establish a three-dimensional monitoring system for particulates and ozone, obtain remote sensing monitoring data on pollution transmission in polluted areas, monitor the formation of local pollution and the input of high-altitude pollution for particulates and ozone, analyze the temporal and spatial distribution of foreign-transmitted deposition, fine particles, and ozone, and explore the correlation between fine particles and ozone at high and low altitudes, thereby enhancing ozone monitoring capabilities. The system allows for control and viewing of radar status and data results anytime and anywhere,描绘 pollutants' three-dimensional distribution images, responds promptly to pollution processes, identifies pollution point sources, and becomes a powerful tool in the field of environmental supervision. Vehicle-mounted instruments can be customized according to user needs, fully meeting customers' monitoring requirements.

System Functions

Grid-based pollution investigation to identify polluted areas and pollution sources.

Monitoring the vertical distribution of atmospheric particulate matter and ozone concentrations.

Monitoring the transmission characteristics of particulate matter and ozone.

Rapid investigation of illegal emissions and leaks by enterprises.

Providing feasible suggestions for urban atmospheric pollution control.