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How can we capture invisible chemical molecules in the air?

2020-08-14

Ministry of Ecology and Environment: 2020 is the decisive year for winning the battle to safeguard blue skies.

So, as a crucial component of summer air pollution control, how should we tackle the challenge of volatile organic compounds (VOCs)?

As a manufacturing enterprise, have you also encountered the following issues?

An increasing number of manufacturing enterprises are striving to find VOCs exhaust-gas treatment technologies that are more efficient, safer, and better suited to their specific production characteristics. However, due to safety constraints, current direct treatment technologies are not fully suitable for the VOCs treatment needs of many enterprises.

And today, we will proudly introduce... Chemical molecular capture technology then effectively meets the needs of these enterprises mentioned above.

What is chemical molecular capture technology?

“Chemical molecular capture technology,” as its name suggests, involves capturing chemical pollutants from exhaust gases, primarily targeting... In cases where the exhaust gas concentration is relatively high (e.g., exceeding 25% of the explosion limit, making incineration unsuitable for treatment) or exhibits significant concentration fluctuations (e.g., the concentration is high only during feeding periods and low at other times, resulting in unstable calorific value), 。

In cases where the source of exhaust gas is relatively simple, you can also recover and reuse the materials in the exhaust gas that have economic value!

Chemical molecular capture technology The core consists of specialized chemical molecular scavengers formulated by professional technical engineers based on years of project experience, capable of effectively targeting and capturing specific pollutants. Targeted and efficient capture Meanwhile, chemical molecular capture agents possess excellent... Safety and thermal stability It can be repeatedly distilled and regenerated for reuse.

So, under what circumstances can this technology be applied?

Chemical molecular capture technology in the vast majority of cases VOCs exhaust gas treatment The technology of chemical molecular capture demonstrates excellent applicability in various scenarios—for instance, in the treatment of pharmaceutical exhaust gases. These gases are characterized by intermittent emissions, unstable discharge patterns, significant variations in pollutant types and concentrations, and low odor thresholds for contaminant factors, which result in a wide-ranging impact. Therefore, chemical molecular capture technology is particularly well-suited for addressing these challenges. Pharmaceutical Waste Gas Treatment Field Among them, having stronger Competitiveness.

What exactly are the application methods of chemical molecular capture technology?

Odor elimination

Chemical molecular capture technology is highly effective for removing difficult-to-treat odors, particularly demonstrating excellent performance in handling substances with low olfactory thresholds.

Last-mile guarantee

Chemical molecular capture technology is suitable as a final safeguard for existing treatment technologies, enabling exhaust gases that fail to meet standards or cannot consistently meet standards after treatment to achieve stable and continuous compliance with emission limits.

Front-end buffering

Chemical molecular capture technology can serve as a front-end buffering process for existing treatment technologies. When the source of exhaust gas is highly unstable, processing through the chemical molecular capture process can buffer peak concentrations of exhaust gas, thereby enhancing the safety and stability of the entire exhaust gas treatment system.

Material reuse

When dealing with exhaust gases that have relatively simple compositions, the chemical molecular capture liquid can be recycled and regenerated continuously. At the same time, it allows for the recovery and reuse of valuable materials from the exhaust gases. After undergoing recovery processes such as distillation and condensation, these recovered materials can be reintroduced into the production process, significantly reducing the enterprise’s production costs.

Safe, economical, and environmentally friendly

Chemical molecular capture technology can... Reduce security risks At the same time, it can flexibly and reliably capture pollutant components from exhaust gases. Moreover, since the chemical molecular capture technology does not require the addition of auxiliary fuels such as natural gas during operation, its... Operating costs are more controllable and offer superior economic benefits. 。

Today, we’ve covered so many features and advantages of chemical molecular capture technologies. I wonder how much you’ve grasped—feel free to reach out to our expert technical engineers if there’s anything you don’t quite understand. Let us help you learn more!