Large-scale CO2 disposal/storage in bedded rock salt caverns of China: An evaluation of safety and suitability

As a major greenhouse gas, carbon dioxide (CO2) causes climate warming and weather changes. On the basis of CO2 disposal/storage in salt caverns in this study, a new carbon cycle model is proposed, which provides a new way for carbon capture and storage. The safety and suitability evaluation of CO2 disposal/ storage in bedded rock salt caverns in China was carried out. Long-term disposal (Time > 1000 years), medium-term disposal (several hundred years), and short-term storage (0-30 years) were studied to meet permanent geological isolation of carbon and temporary carbon cycle. The results show that: 1) For long-term and medium-term disposal/storage, it is feasible to carry out permanent geological isolation at proper depth and operating pressure. 2) For short-term storage, the stability of CO2 and CH4 storage in bedded rock salt has a little difference by controlling the operating pressure constant withdrawal injection cycle. However, the stored CO2 has a much larger storage density and working density than the stored CH4. 3) If dozens of such caverns can be used in a salt mine, the potential for disposal or storage is much considerable. Therefore, the utilization of CO2 storage in salt caverns also acts as an attractive way of carbon neutralization and carbon cycle. (C) 2022 Elsevier Ltd. All rights reserved.

Automated summary

This study proposes a new carbon cycle model for carbon capture and storage based on the disposal/storage of carbon dioxide (CO2) in salt caverns. The safety and suitability evaluation of CO2 disposal/storage in bedded rock salt caverns in China was carried out. The results show that long-term and medium-term disposal/storage can achieve permanent geological isolation at proper depth and operating pressure, while short-term storage can be achieved by controlling the operating pressure.