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
- Products
- Services
RTO oxidation technology
This process uses the high temperature environment of the regenerative oxidation
furnace to oxidize and decompose the VOCs in waste gas. It has a multi-bed regenerator structure, with each regenerator bed filled with regenerative ceramics. The bed
intakes, exhausts or purges by opening and closing the lifting valve, which can not
only efficiently decompose VOCs, but also recover and utilize heat.
furnace to oxidize and decompose the VOCs in waste gas. It has a multi-bed regenerator structure, with each regenerator bed filled with regenerative ceramics. The bed
intakes, exhausts or purges by opening and closing the lifting valve, which can not
only efficiently decompose VOCs, but also recover and utilize heat.
Technical Advantages
- It has a high removal rate, meeting the cleaning emission standard;
- It adopts self-lifting valves and multi-stage seal;
- Flow field simulation provides a guarantee for the best furnace shape.
Case
VOCs Exhaust Gas Treatment RTO Project of a SINOPEC Petrochemical Company
| Para. | Raw gas | Design index |
|---|---|---|
| Flue gas flow rate, Nm³/h | 10000 | |
| NMHC mg/Nm3 | 6700 | 20 |
