Greenhouse Gas Monitoring: Online Monitors Contribute to Pollution Reduction and Carbon Emission Cuts,Contributing to Their Green Development.

Context Of Application

The topic of “carbon” has frequently topped trending lists, and the achievement of “dual carbon” goals has garnered widespread attention. The emission of greenhouse gases has become a challenge faced by humanity as a whole. An increase in greenhouse gases triggers the greenhouse effect, also known as the “greenhouse effect,” which occurs when shortwave solar radiation passes through the atmosphere to reach the Earth’s surface. The surface, after being heated, emits a large amount of longwave heat radiation that is absorbed by the atmosphere, causing an increase in surface and lower atmospheric temperatures. This process is similar to the function of a greenhouse used for cultivating crops, hence the name “greenhouse effect.”

Since the Industrial Revolution, the excessive burning of coal, oil, and natural gas in human production and daily life, along with the massive emission of automobile exhaust, has been a direct cause of the greenhouse effect. This, in turn, leads to a series of issues ranging from climate to ecology and health, such as glacier retreat, rising sea levels, climate zone shifts, high temperatures, heatwaves, tornadoes, and cardiovascular diseases.

In human production and daily life, industrial enterprises produce a significant amount of energy pollution, particularly in key emitting industries like power generation, petrochemicals, chemicals, building materials, steel, nonferrous metals, papermaking, and aviation. The consumption of these energies generates large amounts of CO2 and other greenhouse gases, putting pressure on the environment.

To reduce corporate carbon emissions and respond to policy calls to achieve “dual carbon” and green production goals, key emitting enterprises are working to reduce carbon emissions by optimizing industrial structures. This includes increasing the use of clean energy, energy recycling and utilization, adopting low-carbon technologies, and resource sharing among enterprises. While enterprises take proactive measures to reduce greenhouse gas emissions, monitoring the emissions of greenhouse gases during industrial production is a complex and urgent issue. The online greenhouse gas monitor has emerged in response to this need.

Product Description

The online greenhouse gas monitor is a multi-component greenhouse gas online monitoring system developed by Tianjin Zwinsoft Technology Co., Ltd., leveraging over a decade of environmental monitoring experience. It is specifically designed for “dual carbon” regulatory emission enterprises and integrates CO2, CH4, N2O, wind speed, wind direction, temperature, humidity, atmospheric pressure, and other environmental monitoring factors (optional).

The system includes data collection and transmission, video surveillance management, and an information technology platform in a modular environmental air greenhouse gas online monitoring device. The equipment uses a pump suction sampling method and highly integrates electrochemical sensors and non-dispersive infrared sensor modules, as well as meteorological parameter sensors. The modular combination highlights cost-performance ratio, providing data support and traceability analysis for environmental air greenhouse gas online monitoring. It can meet different monitoring needs of users and has been widely applied in industries such as steel, chemicals,electricity, energy, and coal.

Technical Features:

1. Flexible Configuration: By selecting lasers or light sources, the system can meet a variety of application needs.
2. Full-Range Dynamic Calibration Technology: This feature ensures a high dynamic range and stable operation, reducing measurement errors.
3. Simultaneous Measurement of Multiple Gases: The system is capable of measuring CO2, CH4, N2O, CO, and other gases at the same time.
4. Wireless Communication Options: It uses 4G, 5G, or GPRS wireless communication methods for data transmission.
5. Low Measurement Uncertainty and High Flexibility: The system can achieve trace-level measurements with low uncertainty.
6. Modular Design: The instrument features intelligent operation, a long service life, and low maintenance requirements.

In summary

Reliability and accuracy of the greenhouse gas online monitoring instrument are key to building the monitoring capabilities for corporate greenhouse gas emissions. It provides data support for achieving digital and refined management within enterprises. Proper use of this instrument can effectively assist companies in self-checking their internal greenhouse gas emissions, contributing to pollution reduction, carbon emission cuts, and green development.