@article{oai:tsukuba.repo.nii.ac.jp:00027685,
 author = {宋, 春風 and 北村, 豊 and Song, Chun-Feng and Kitamura, Yutaka and Li, Shu-Hong and Ogasawara, Kenji},
 journal = {International journal of greenhouse gas control},
 month = {Mar},
 note = {In this research, a novel cryogenic CO2capturesystembased on Stirlingcoolers has been developed. By the capturesystem designed, an effective separation can be achieved according to differences in condensation and desublimation. From the capture process, H2O and CO2 can condense and desublimate at different parts of the capturesystem, while residual gas flows out without properties change. It is noteworthy that in the process, CO2 can be captured in a solid form, thus avoiding the use of the solvents and consideration of pressure in other methods. Furthermore, two significant parameters (the temperature of Stirlingcoolers and the flow rate of the gas stream) were investigated in detail. The results showed that under the optimal temperature and flow rate, CO2 recovery of the cryogenic process can reach 96%, which demonstrated that the system can capture CO2 gas effectively.},
 pages = {107--114},
 title = {Design of acryogenic CO2capturesystembased on Stirlingcoolers},
 volume = {7},
 year = {2012}
}