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Hydrogen Purification through a Membrane–Cryogenic Integrated Process: A 3 E’s (Energy, Exergy, and Economic) Assessment

Ahmad Naquash, Amjad Riaz, Fatma Yehia, Yus Donald Chaniago, Hankwon Lim, Moonyong Lee

2023Gases17 citationsDOIOpen Access PDF

Abstract

Hydrogen (H2) is known for its clean energy characteristics. Its separation and purification to produce high-purity H2 is becoming essential to promoting a H2 economy. There are several technologies, such as pressure swing adsorption, membrane, and cryogenic, which can be adopted to produce high-purity H2; however, each standalone technology has its own pros and cons. Unlike standalone technology, the integration of technologies has shown significant potential for achieving high purity with a high recovery. In this study, a membrane–cryogenic process was integrated to separate H2 via the desublimation of carbon dioxide. The proposed process was designed, simulated, and optimized in Aspen Hysys. The results showed that the H2 was separated with a 99.99% purity. The energy analysis revealed a net-specific energy consumption of 2.37 kWh/kg. The exergy analysis showed that the membranes and multi-stream heat exchangers were major contributors to the exergy destruction. Furthermore, the calculated total capital investment of the proposed process was 816.2 m$. This proposed process could be beneficial for the development of a H2 economy.

Topics & Concepts

ExergyProcess engineeringPressure swing adsorptionAir separationHeat exchangerProcess (computing)HydrogenProcess integrationMembraneMembrane technologyEnergy consumptionHeat recovery ventilationCapital investmentEnvironmental scienceWaste managementEngineeringComputer scienceChemistryMechanical engineeringBusinessOxygenFinanceOrganic chemistryBiochemistryElectrical engineeringOperating systemMembrane Separation and Gas TransportCarbon Dioxide Capture TechnologiesSpacecraft and Cryogenic Technologies