Gas separation explained

Gas separation can refer to any of a number of techniques used to separate gases, either to give multiple products or to purify a single product.

Swing adsorption techniques

Pressure swing adsorption

See main article: Pressure swing adsorption. Pressure swing adsorption (PSA) pressurizes and depressurizes a multicomponent gas around an adsorbent medium to selectively adsorb some components of a gas while leaving other components free-flowing.^[1]

Vacuum swing adsorption

Vacuum swing adsorption (VSA) uses the same principle as PSA but swings between vacuum pressures and atmospheric pressure.^[2] PSA and VSA techniques may be combined and are called "vacuum pressure swing adsorption" (VPSA) in this case.

Temperature swing adsorption

Temperature swing adsorption (TSA) is similar to other swing adsorption techniques but cycles the temperature of the adsorbent bed-gas system instead of the gas pressure to achieve separation.^[3]

Cryogenic distillation

See main article: Air separation. Cryogenic distillation is typically only used for very high volumes because of its nonlinear cost-scale relationship, which makes the process more economical at larger scales. Because of this it is typically only used for air separation.^[4]

Notes and References

1. Book: Basu . Swapan . Debnath . Ajay . PowerPlant Instrumentation and Control Handbook . 2019 . 978-0-12-819504-8 .
2. Ntiamoah . Augustine . Ling . Jianghua . et al. . CO2 capture by vacuum swing adsorption: role of multiple pressure equalization steps . 18 September 2015. Adsorption . 21 . 509-522 . 10.1007/s10450-015-9690-8. 11343/115935 . free .
3. Ntiamoah . Augustine . Ling . Jianghua . et al. . CO2 capture by vacuum swing adsorption: role of multiple pressure equalization steps . 18 September 2015. Adsorption . 21 . 509-522 . 10.1007/s10450-015-9690-8. 11343/115935 . free .
4. Hermes . Santa Anna . Amaro . Barreto . et al. . Methane/nitrogen separation through pressure swing adsorption process from nitrogen-rich streams . May 2016 . Chemical Engineering and Processing: Process Intensification . 103 . 70-79 . 10.1016/j.cep.2015.11.002.