Novel single-bed and twin-bed pressure swing adsorption systems

• Published in: Chemical engineering and processing Vol. 95; pp. 165 - 174
• Main Authors: Thakur, R.S., Kaistha, Nitin, Rao, D.P.
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.09.2015
• Subjects: CO2 capture; Duplex PSA; Molecular gate; Single-bed PSA; Twin-bed PSA; Twin-bed PSA; CO2 capture; Molecular gate; Single-bed PSA; Duplex PSA
• ISSN: 0255-2701; 1873-3204
• DOI: 10.1016/j.cep.2015.06.003

[Display omitted] •Any PSA cycle can be carried out with one bed and requisite number of surge tanks.•Studied molecular-gate, duplex and moving-bed emulating PSA cycles.•Found tanks sizes are unwieldy with single-bed systems.•Proposed twin-bed systems to avoid surge tanks.•Reported efficacies of these systems for CO2 capture. Pressure swing adsorption (PSA) is one of the promising technologies for separation of gas mixtures. Multi-bed (poly-bed) PSA units are used to get both raffinate and extract products of high purities. Any multi-bed PSA cycle can be carried out in a single bed (or in multiple beds connected in parallel to a common header) with a requisite number of holding tanks and a single set of compressors and vacuum pumps. The performances of single-bed systems have been studied operating on the molecular gate, duplex, modified and moving-bed emulation of 3-bed PSA cycles, which are known to yield both products of high purities and to have potential for process intensification. The sizes of holding tanks were found to be unwieldy for commercial applications. Twin-bed systems have been proposed in which an additional complementary bed replaced the holding tanks. The twin-bed system facilitates also the scale-up of molecular-gate PSA, which was considered difficult to scale up to commercial units. A process-intensification index has been used to compare the performance of different configurations. The studies show that the performances of the 3-bed and modified duplex PSA configurations are far superior to the other two for CO2 capture from flue gas.