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Membrane process design for biohydrogen purification with simultaneous CO2 capture: Feasibility and techno-economic assessment

Wenqi Xu, Arne Lindbråthen, Saravanan Janakiram, Luca Ansaloni, Linfeng Lei, Liyuan Deng

2023Chemical Engineering Science15 citationsDOIOpen Access PDF

Abstract

In this work, a membrane separation process is designed and optimized to purify dark fermentative biohydrogen by removing CO2. A CO2-selective PVAm-based nanocomposite membrane was selected considering its high CO2/H2 separation performance and unique features suitable for the process. We tested the membrane performances under the separation conditions to provide a more accurate simulation basis. Several design scenarios were investigated. A two-stage process with a recycle stream is determined as the optimal design, in which the specific cost for purifying H2 to 99.5 vol% with H2 loss of <10% reaches only 0.156 $/Nm3. The techno-economic feasibility study of biohydrogen purification with simultaneous CO2 capture was also performed through an alternative design by introducing a 3rd-stage using the same membrane or an H2-selective membrane. Adding a 3rd-stage membrane can capture and purify CO2 as a side product of various purities, which further decreases the H2 loss, leading to additional economic benefits.

Topics & Concepts

BiohydrogenMembraneProcess engineeringSeparation processProcess (computing)Membrane technologyProcess designChemistryChromatographyBiochemical engineeringComputer scienceEngineeringHydrogenProcess integrationHydrogen productionOrganic chemistryOperating systemBiochemistryMembrane Separation and Gas TransportMembrane Separation TechnologiesMembrane-based Ion Separation Techniques
Membrane process design for biohydrogen purification with simultaneous CO2 capture: Feasibility and techno-economic assessment | Litcius