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Applications

Ammonia Removal Case

Membrane Distillation Case

Carbon Capture Case

Applications

Conano
Power plant reverse osmosis concentrated water-low temperature membrane distillation

Power plant reverse osmosis concentrated water-low temperature membrane distillation

Power plant reverse osmosis concentrated water - low temperature membrane distillation 4 times concentrated

Pigment wastewater deammoniation project

Pigment wastewater deammoniation project

Pigment wastewater is a difficult problem in industrial wastewater treatment. The water quality of organic pigment wastewater has the characteristics of high ammonia nitrogen content, high acidity, high COD, high chroma, high salt content, and difficulty in biodegradation of organic matter. At the same time, there are problems such as intermittent discharge and large changes in water quality and quantity over time.

AG-glass etching wastewater deammoniation project

AG-glass etching wastewater deammoniation project

In the AG glass etching production process, the use of a variety of strong acids and fluorides makes the chemical composition of the wastewater extremely complex and the ammonia nitrogen content is high. At the same time, due to differences in product batches, different etching processes and changes in raw materials, the quality and amount of wastewater often fluctuate greatly. After the etching process is completed, the glass needs to be cleaned. During this period, a large amount of cleaning water containing glass debris and abrasive particles is discharged into the wastewater pipe, causing the content of suspended matter and organic matter in the wastewater to rise sharply. The above factors have brought extremely severe challenges to the treatment of AG glass etching wastewater to meet the discharge standards.

Carbon dioxide capture and utilization

Carbon dioxide capture and utilization

The utilization and storage of carbon dioxide (CCUS) refers to the process of capturing and separating CO2 from emission sources such as energy utilization and industrial processes, or directly from the air. The captured CO2 is then transported via trucks, pipelines, ships, etc., to suitable sites for utilization or storage . This technology plays a crucial role in achieving China's goals of carbon peaking and carbon neutrality, and is an indispensable component of the technology mix for reducing CO2 emissions.

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