Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
4989079 | Journal of Membrane Science | 2017 | 9 Pages |
Abstract
Pilot-scale tests generate information about the performance of energy systems and thus help in the deployment of new technologies. This work aims at demonstrating the pilot-scale application of palladium-based membrane technology for the purification of H2. A multitube membrane module with a total permeable area of 1050 cm2 was tested under actual coal-derived syngas. The module was composed of seven membranes with a Pd/Au/Pd layered structure supported on PSS tubes. The membranes were arranged with one membrane at the center and six equally distributed around it. The membranes had a composition of 7 µm Pd and 0.4 µm Au and a cumulative He leak of <0.01 cm3/min/bar before testing. The module was operated at 450 °C, 12.6 bar and 10 lb/h of desulfurized syngas provided by a gasification unit and enriched with H2 to 34%. The module showed a stable H2 permeance of 16.2 Nm3 mâ2 hâ1 barâ0.5 throughout 840 h. The produced H2 purity was in the range of 99.87-98%. An H2 production of 6 lb/day and recovery of 64% were achieved, representing a significant development in the field. The scalability and industrial applicability of this technology was successfully demonstrated. Furthermore, a CFD model illustrated different physical phenomena associated with this multitube configuration.
Related Topics
Physical Sciences and Engineering
Chemical Engineering
Filtration and Separation
Authors
Bernardo Castro-Dominguez, Ivan P. Mardilovich, Rui Ma, Nikolaos K. Kazantzis, Anthony G. Dixon, Yi Hua Ma,