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In waste gas treatment, activated carbon can effectively respond to the complex challenges of highly toxic and multi-component pollutants through process innovation and functional modification. AC technology has become the core support for the green transformation of the pesticide industry.
The application of activated carbon in automotive air filters not only ensures the health and comfort of drivers and passengers, but also becomes a core component of the “healthy cockpit” ecosystem of smart cars by adsorbing harmful gases and intercepting particles and microorganisms.
Activated carbon plays an important role in gas-phase and liquid-phase treatment in breeding industry. In terms of gas phase treatment, it is mainly used for the purification of ventilation waste gas and biogas in livestock and poultry houses, and the removal of odorous gases such as NH3, H2S and VOCs.
Alcohol (such as liquor, beer, wine) is prone to produce turbidity, polyphenol oxidation pigment and sulfide odor during fermentation and storage. Activated carbon can significantly improve the clarity and taste of the wine by adsorbing colloids and taste molecules.
With the increasing prominence of indoor decoration pollution and suspended particles in the air, activated carbon cartridges have become the core component of modern air purification equipment, and their adsorption performance directly affects purification efficiency and users’ health.
Semiconductor manufacturing, biopharmaceuticals and other super clean rooms have stringent requirements for air cleanliness, and AMC concentrations need to be controlled at ppb level. The microporous oriented adsorption ability of activated carbon can accurately retain pollutants with molecular weights of 200-500 Da to ensure the stability of the production environment.
Activated carbon achieves efficient and low-cost pollution control in the manufacturing of lithium batteries, helping the industry to upgrade green pollution.
Sewage covers domestic sewage and some industrial wastewater, which needs to remove micropollutants (PPCPs), odors and disinfection by-product precursors. Activated carbon plays a key role in tertiary treatment to ensure that the effluent meets reuse or stringent discharge requirements.
In the future, activated carbon technology will continue to be upgraded and become the core support for safeguarding the quality of pharmaceuticals and reducing environmental risks.
The application of activated carbon in the photovoltaic industry mainly focuses on exhaust gas treatment, wastewater purification, chemical purification and production environment cleanliness control. With the development of photovoltaic technology towards high efficiency and low carbonization, activated carbon has become a key material to guarantee process stability and environmental compliance.
The adsorption performance of different activated carbons on anhydrous ethanol is significantly affected by their pore structure and surface chemical properties.
The flue gas produced in the process of waste incineration contains many kinds of toxic and harmful gases, and its direct emission will seriously threaten the environment and human health. Activated carbon, with its high specific surface area and strong adsorption capacity, becomes the core material of the flue gas purification system and helps to realize efficient emission reduction.
The spraying and painting industry uses a large number of organic solvents and dyes, whose molecules are usually polar molecules. After being modified and loaded with electron-rich polar groups, activated carbon has efficient and specific trapping ability for pollutant molecules with large dipole moments.
Activated carbon is widely used in the electronics and semiconductor industries. Its core function is to remove impurities, pollutants and hazardous gases in the process through physical or chemical adsorption, so as to ensure the cleanliness of the production environment and product yield.
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