SunRui GasLink® OCCS
Currently, marine decarbonization technologies mainly rely on chemical absorption methods, with other technologies including cryogenic methods, calcium oxide methods, and pre-combustion capture. SunRui's developed carbon dioxide capture and storage system uses an amine absorption method, determining an economic decarbonization rate based on the ship's power consumption, steam production, and future CII evaluation targets. It develops high-efficiency green absorbents accordingly, supported by corresponding processes and equipment to ensure long-term stable system operation.
- Passed plan reviews and ship-type risk assessments by classification societies DNV, LR, KR, and CCS
- Technical indicators for the CO₂ capture system: CO₂ recovery rate ≥85%, CO₂ purity ≥99.9%, energy consumption ≤3 GJ/tCO₂
- Joint development of clean and efficient absorbents with excellent basic performance, low decomposition rate, low leakage, environmental friendliness, and significantly improved overall performance
- Based on the principle of not adding complex equipment, reduces renewable energy consumption through system thermal energy integration and optimization, achieving over 10% comprehensive energy savings through simulation analysis
SunRui GasLink® OCCS
Currently, marine decarbonization technologies mainly rely on chemical absorption methods, with other technologies including cryogenic methods, calcium oxide methods, and pre-combustion capture. SunRui's developed carbon dioxide capture and storage system uses an amine absorption method, determining an economic decarbonization rate based on the ship's power consumption, steam production, and future CII evaluation targets. It develops high-efficiency green absorbents accordingly, supported by corresponding processes and equipment to ensure long-term stable system operation.
- Passed plan reviews and ship-type risk assessments by classification societies DNV, LR, KR, and CCS
- Technical indicators for the CO₂ capture system: CO₂ recovery rate ≥85%, CO₂ purity ≥99.9%, energy consumption ≤3 GJ/tCO₂
- Joint development of clean and efficient absorbents with excellent basic performance, low decomposition rate, low leakage, environmental friendliness, and significantly improved overall performance
- Based on the principle of not adding complex equipment, reduces renewable energy consumption through system thermal energy integration and optimization, achieving over 10% comprehensive energy savings through simulation analysis