Shaping the future of net-zero industry and efficiently realizing the vision of carbon neutrality
Exclusive co2 capture solvents Antioxidant Degradation Technology
Ultimate Energy-efficient Design Realize Green Production
CCUS Customized Service System
CO₂ Absorption Solvent Purification and Recovery Recycling
Low Concentration CO₂ Capture Technology
TONEXUS CCUS Application Cases
Ship-based CCUS Projects (10,000-ton Class)
Application: Low-concentration ship exhaust under fluctuating conditions
Highlights: Solvent supplied for multiple 10,000-ton ship-based systems
Tangshan Yannan Cement ccus oil and gas Project
Application: High-oxygen, high-dust cement kiln flue gas
Highlights: Core equipment for one of China’s largest cement CCUS projects
Rizhao Steel Converter Gas CO₂ Capture Unit
Application: Sulfur-containing converter gas from steel plants
Highlights: 150,000 t/y unit with patented pretreatment, lower OPEX
Liaocheng Xinfa Carbon–Nitrogen Co-production Project
Application: High-sulfur, high-humidity coal-fired flue gas
Highlights: Key pressure vessels supplied for the system
CCUS Project for a Leading Building Materials Company
Application: Multi-gas sources with high oxygen and dust
Highlights: Integrated solvent and process, >97% CO₂capture
Carbon Capture, Storage and Utilization Application Difficulties
Degradable
High oxygen content accelerates solvent degradation
Complex flue gas composition reduces solvent stability
Frequent solvent replacement generates large waste liquid volumes
High Cost
High steam prices (>200 RMB/t) drive operating costs
Traditional solvents require ~2.0 t steam per t CO₂
Steam consumption accounts for over 70% of total OPEX
High Loss
High amine evaporation during regeneration
Significant solvent losses in continuous operation
Rising solvent makeup and replacement costs
Exclusive Carbon Capture Absorption Solvent Antioxidant Degradation Technology
The antioxidant degradation capacity of TX-1 absorption solvent is 20~300 times higher than that of MEA
TX-1 absorption solvent regeneration energy consumption up to 2.1GJ/t CO₂
Low Concentration CO₂ Capture Technology
Effectively captures low-pressure, low-concentration (5–30%) CO₂ from cement, steel, and power plant flue gases.
Ultimate Energy-efficient Design Realize Green Production
Wet Carbon Capture Process Core Benefits (TXIO Process)
<1.0 t steam / t CO₂ ultra-low regeneration energy
High-loading, fast-absorption solvent
ΔT 5–7 K heat exchanger + 10–20% higher reboiler efficiency
Low solvent loss via optimized separation and alkaline washing
Utilization of CO₂ after Capture
Energy: EOR / fracturing / mineralization
Chemicals: Methanol, acetic acid, olefins
Industry: Food-grade CO₂, inert gas, wastewater treatment
Driving Economic Cost Change in the CCUS
A cement plant with an annual production capacity of 300,000 tons of CO₂ capture is used as a simulation (the specific benefits need to be measured according to the actual scheme and local policies, welcome contact us for a free proposal and precise analysis).
For more information about control over air pollution and cost of carbon capture per ton, please feel free to contact us!
If you are interested in our flue gas desulfurization cost, please feel free to contact us for more information. Our team is ready to answer any questions you might have and help you find the right solution for your project.
