Composite Pd and Pd Alloy Porous Stainless Steel Membranes for Hydrogen Production and Process Intensification

Ma, Yi Hua; Kazantzis, Nikolaos; Mardilovich, Ivan; Guazzone, Federico; Augustine, Alexander; Koc, Reyyan

doi:10.2172/1048881

Title: Composite Pd and Pd Alloy Porous Stainless Steel Membranes for Hydrogen Production and Process Intensification

Technical Report · Sun Nov 06 00:00:00 EDT 2011

DOI:https://doi.org/10.2172/1048881· OSTI ID:1048881

Ma, Yi Hua; Kazantzis, Nikolaos; Mardilovich, Ivan; Guazzone, Federico; Augustine, Alexander; Koc, Reyyan

The synthesis of composite Pd membranes has been modified by the addition of a Al(OH){sub 3} graded layer and sequential annealing at high temperatures to obtain membranes with high permeance and outstanding selectivity stability for over 4000 hours at 450Â°C. Most of the membranes achieved in this work showed H{sub 2} flux well above 2010 DOE targets and in some case, also above 2015 DOE targets. Similar composite membranes were tested in water gas shift reaction atmospheres and showed to be stable with high CO conversion and high hydrogen recovery for over 1000 hours. The H{sub 2} permeance of composite Pd-Au membranes was studied as well as its resistance in H{sub 2}S containing atmospheres. H{sub 2}S poisoning of Pd-based membranes was reduced by the addition of Au and the loss undergone by membranes was found to be almost totally recoverable with 10-30 wt%Au. PSA technique was studied to test the possibility of H{sub 2}S and COS removal from feed stream with limited success since the removal of H{sub 2}S also led to the removal of a large fraction of the CO{sub 2}. The economics of a WGS bundle reactor, using the information of the membranes fabricated under this project and integrated into an IGCC plant were studied based on a 2D reactor modeling. The calculations showed that without a government incentive to impose a CO{sub 2} tax, application of WGS membrane reactors in IGCC would be not as economically attractive as regular pulverized coal plants.

View Technical Report

Cite

Export

Save

Research Organization:: Worcester Polytechnic Institute, MA (United States)

Sponsoring Organization:: USDOE

DOE Contract Number:: FC26-07NT43058

OSTI ID:: 1048881

Country of Publication:: United States

Language:: English

Similar Records

Engineering Design of Advanced H₂ – CO₂ Pd and Pd/Alloy Composite Membrane Separations and Process Intensification

Technical Report · Thu Mar 31 00:00:00 EDT 2016 · OSTI ID:1048881

Yi Hua Ma, Yi

Integration of Methane Steam Reforming and Water Gas Shift Reaction in a Pd/Au/Pd-Based Catalytic Membrane Reactor for Process Intensification

Journal Article · Fri Sep 16 00:00:00 EDT 2016 · Membranes · OSTI ID:1048881

Castro-Dominguez, Bernardo; Mardilovich, Ivan; Ma, Liang-Chih; +4 more

High-Temperature Ceramic-Carbonate Dual-Phase Membrane Reactor for Pre-combustion Carbon Dioxide Capture (Final Scientific/Technical Report)

Technical Report · Sun Nov 27 00:00:00 EST 2022 · OSTI ID:1048881

Lin, Jerry Y. S.

Related Subjects

08 HYDROGEN
36 MATERIALS SCIENCE

Title: Composite Pd and Pd Alloy Porous Stainless Steel Membranes for Hydrogen Production and Process Intensification

Citation Formats

Similar Records

Related Subjects