Business Field
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Technologies
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Process Technologies
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Flue Gas Treatment
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DeSOx Technology
- Wet desulfurization and dust collection technology
- M·Dwave® reverse jetting technology
- M·Sulfurp® acid gas treatment/waste acid recovery technology
- M·Sorb® sulfur dioxide recovery technology
- M·HyPerO® oxidative desulfurization using hydrogen peroxide technology
- M·SWFGD seawater desulfurization technology
- M·SemiD® semi-dry desulfurization technology
- DeNOx Technology
- Decarbonization Technology
- Colored Plume Elimination Technology
- VOCs Treatment Technology
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DeSOx Technology
- Waste Water Treatment
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Flue Gas Treatment
- Internet of Things
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Process Technologies
- Materials
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M·CO2C Series of Carbon Dioxide Capture Technology
MSTN developed two series of CO2 capture technologies, M·CO2C-F series and M·CO2C-P series.
M·CO2C-F for skid-mounted equipment for the low flowrate of exhausted gas with CO2. The F series are used for DeCO2 from low flow flue gas of boilers, and also DeCO2 for natural gas near oil/ natural gas production well.
M·CO2C-P for big-scale engineering project on the very high flue gas flowrate concluding huge scrubbers and other equipment installed in jobsite after complex construction.
The two series have same process uses the proprietary two-phase absorbent and unique methods to achieve efficient recovery of CO2.
M·CO2C-F for skid-mounted equipment for the low flowrate of exhausted gas with CO2. The F series are used for DeCO2 from low flow flue gas of boilers, and also DeCO2 for natural gas near oil/ natural gas production well.
M·CO2C-P for big-scale engineering project on the very high flue gas flowrate concluding huge scrubbers and other equipment installed in jobsite after complex construction.
The two series have same process uses the proprietary two-phase absorbent and unique methods to achieve efficient recovery of CO2.
Technical Advantages
- It can absorb more than 99% CO2 to the utmost;
- The recovered CO2 has a purity of 98%;
- The two-phase absorbent is highly stable, with small loss and no corrosion;
- It adopts atmospheric desorption, requiring low energy consumption.
