Automatic Cruise Odor Gas Monitor

Using automatic guided vehicles (AGVs) as mobile platforms, equipped with highly sensitive odor gas sensors such as MEMS-MOS, EC, PID, etc. These sensors are capable of real-time sensing of odorous gas components and their concentrations in the air, and converting monitoring data into electrical signals for processing and transmission.

The monitoring device has a built-in data acquisition module that performs preliminary processing and organization of the data collected by the sensors, and then transmits the data in real-time to a remote monitoring center or cloud platform through a wireless communication module.

413 typeAutomatic Cruise Odor Gas MonitorDrive automatically according to the preset route or autonomously planned path, and continuously monitor the odor gas during the driving process. At the same time, with the help of GPS or Beidou positioning modules, the monitoring instrument can obtain its own position information in real time, and associate the position data with the monitoring data to achieve accurate positioning and trajectory recording of monitoring points.

1、 Technical features

1. High Mobility and Flexibility: Model 413Automatic Cruise Odor Gas MonitorIt can move freely in various complex environments without being limited by fixed monitoring points, and can quickly reach designated areas for monitoring, especially suitable for inspection of large-scale industrial parks, landfills, sewage treatment plants, and other places.

2. Real time monitoring and rapid response: It can monitor the concentration of odorous gases in the air in real time, and when the gas concentration exceeds the standard, quickly issue an alarm to remind relevant personnel to take timely measures.

3. Multi parameter monitoring: It can not only monitor the concentration of odorous gases, but also simultaneously monitor other relevant parameters in the environment, such as temperature, humidity, air pressure, wind speed, wind direction and other meteorological parameters, as well as inhalable particulate matter (PM2.5, PM10).

4. Intelligent data processing and analysis: With the help of excellent data analysis software and algorithms, in-depth analysis of a large amount of collected monitoring data is carried out to achieve automated sorting, storage, querying, and statistics of data. Various charts and reports can also be generated to visually display monitoring results and trends, and potential pollution patterns and problems can be discovered through data mining techniques.

5. Automatic calibration and low maintenance: Equipped with cloud based automatic online calibration function, it can automatically correct sensor drift and environmental interference, ensuring the accuracy of monitoring data without frequent on-site manual calibration, reducing maintenance workload and costs.

2、 Application scenarios

1. Industrial parks: In various industrial parks such as chemical, pharmaceutical, and electronic industries, AGVs automatically patrol and monitor the emission of odorous gases, timely detect odor sources, evaluate the operational effectiveness of enterprise waste gas treatment facilities, provide a basis for environmental supervision, urge enterprises to improve production processes and pollution control measures, and reduce the impact of odorous gases on surrounding residents.

2. Garbage disposal site: used for odor monitoring around garbage disposal facilities such as landfills, garbage transfer stations, and garbage incineration plants, to real-time grasp the diffusion range and concentration changes of odorous gases, provide guidance for optimizing garbage disposal processes, taking effective deodorization measures, and reducing the impact on the surrounding environment and residents' quality of life.

3. Sewage treatment plant: Monitor the odor gases generated during the sewage treatment process, such as hydrogen sulfide, ammonia, etc., and promptly detect the leakage points of odor gases or problems in the treatment process, in order to adjust process parameters, improve deodorization effect, and ensure the quality of the surrounding air environment.

4. Livestock and poultry farms: Conduct odor monitoring around livestock and poultry farms to provide data support for scientific planning of farm layout, improvement of livestock waste treatment methods, evaluation of deodorization equipment effectiveness, and reduction of odor pollution interference on the surrounding environment and residents' lives.

5. Emergency monitoring: In emergency situations such as sudden environmental incidents, major events and competitions, heavy pollution weather, etc., it can quickly arrive at the scene, monitor the concentration of odorous gases in the air in real time, quickly trace the source, provide timely and accurate data support for emergency decision-making, and ensure public health and environmental safety.