CO2Hing - Carbon Membranes for CO₂ Removal from High Pressure Natural Gas in Subsea Process

Developing novel environmentally friendly and energy efficient technology for CO₂ removal from natural gas is essential to improve the competition of natural gas processing plants. Although chemical absorption is still the state-of-the-art technology in this area, membrane technology posses many advantages such as small footprint, low capital and operating costs, being environmentally friendly, and exhibiting process flexibility shows great potential. The challenging on natural gas sweetening membranes in the market today are the membrane compaction and plasticization, which points to the need of development on novel membranes materials for high pressure application in subsea process. Thus, in the CO2Hing project, we aim at developing mechanically strong, high performance asymmetric hollow fiber carbon membranes that can exceed CO₂/CH₄ Robeson upper bound (CO₂ permeance >0.3 m3(STP)/(m2.h.bar) and CO₂/CH₄ selectivity >100) from cheap cellulose materials for natural gas sweetening.

In order to achieve this objective:

1. Suitable ionic liquids with appropriate physicochemical property will be designed by molecular dynamic simulation, and synthesized for dissolution of cellulose at room temperature (<50C);
2. Asymmetric cellulose hollow fibers with desired structure and morphology will be spun from cellulose/ionic liquids dope solution by controlling liquid-liquid demixing mechanism based on equilibrium thermodynamics of ternary phase diagram;
3. Asymmetric, defect-free and straight hollow fiber carbon membranes will be prepared by controlling carbonization protocol, and employing post-oxidation and post-reduction;
4. determining the optimal operating condition by experimental design and statistical analysis to achieve high CO₂/CH₄ separation performance of the carbon membranes.
5. Employing process simulation and life cycle assessment to evaluate the technology advance of a closed-loop two-stage carbon membrane system for natural gas sweetening in subsea process.

The project is funded by the Research Councli of Norway.