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Volumn 192, Issue 1, 2009, Pages 158-164
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The role of surface reactions on the active and selective catalyst design for bioethanol steam reforming
a,b
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Author keywords
Bio energy; Bioethanol; Fuel cell; Fuel processor; Hydrogen; Reforming
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Indexed keywords
BIO-ENERGY;
ETHANOL CONVERSIONS;
ETHANOL REFORMING;
FUEL PROCESSOR;
HIGH STABILITIES;
INTERMEDIATE PRODUCTS;
LONG-TERM STABILITY TESTS;
PRODUCTION EFFICIENCIES;
REACTION PATHWAYS;
REACTION PRODUCTS;
REACTION SEQUENCES;
REFORMING;
SELECTIVE CATALYSTS;
STABLE CATALYSTS;
STEAM REFORMING;
STEAM-TO-CARBON RATIOS;
TECHNICAL BARRIERS;
ACETONE;
ALDEHYDES;
ATMOSPHERIC PRESSURE;
BIOETHANOL;
CARBON DIOXIDE;
CATALYSIS;
CATALYST ACTIVITY;
CATALYST SELECTIVITY;
ELECTROCHEMISTRY;
ETHANOL;
ETHYLENE;
FUEL CELLS;
GAS PRODUCERS;
NONMETALS;
REFORMING REACTIONS;
STEAM;
STEAM ENGINEERING;
SURFACE REACTIONS;
TEMPERATURE PROGRAMMED DESORPTION;
HYDROGEN PRODUCTION;
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EID: 65949098926
PISSN: 03787753
EISSN: None
Source Type: Journal
DOI: 10.1016/j.jpowsour.2009.02.015 Document Type: Article |
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Times cited : (29)
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References (34)
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