# Fileset

[Carbon CryoCapture様_A1パネル_確認用_3.pdf](https://mdr.nims.go.jp/filesets/f1fa69c7-f87b-4678-b791-63a0a75c6de3/download)

## Creator

[I. Ichinose](https://orcid.org/0000-0002-2236-0942), Y. Hirai

## Rights

[In Copyright](http://rightsstatements.org/vocab/InC/1.0/)

## Other metadata

[A New Cryogenic Recovery Technology for Low Price, High Purity, and Readily Transportable Liquid CO2 and for Zero-Emission of Methane](https://mdr.nims.go.jp/datasets/3c80219e-c4ec-4820-bf89-b78f84f898d0)

## Fulltext

1007確認用_UMI_A1A New Cryogenic Recovery Technology for Low Price, High Purity, and Readily Transportable Liquid CO2 and for Zero-Emission of Methane. CO2 Separation SystemEnergy Savings Compared to Conventional Systems$/t-CO2The cost is high dueto the optimizationfor low-concentration CO2recoveryChemisorption Physisorption NIMS MembraneThe sorption of CO2 intoorganic solvents results in highequipment costs and significantenvironmental impact*Excluding the cost of the compressorPressure(in)Composition(in)0.1MPaCO2 14%5.7MPaCO2  42%5MPaCO2 60%0.1MPaCO2 14%CO2Liquify(5MPa)No CH4 leakageCooling Process at -40。C❄ ❄*Almost No pressure loss*Patent pendingLiquid CO2CO2 circulation (0.5MPa)Liquid CO2CH4 purification(>98%)CH4/CO2（30-70%）CH4(5MPa)（>98%）CO2Capture/Release(5MPa)CO2Capture/Release(5MPa)The most cost-effectiveCarbon CryoCapture Co.,Ltd.Japan-UAE Coordination scheme for Advanced TechnologyP