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and carbon formation, vapor compound formation, vapor-solid and solid-solid reactions, attrition and crushing (1) 1
attrition (1) 1
carbon-monoxide (1) 1
catalyst : deactivation, degradation, fouling, poisoning, sintering, and mechanical degradation of (1) 1
catalyst deactivation by : coke (1) 1
catalyst deactivation by: coke and carbon formation, vapor compound formation, vapor-solid and solid-solid reactions, attrition and crushing (1) 1
catalyst: deactivation, degradation, fouling, poisoning, sintering, and mechanical degradation of (1) 1
chemistry, physical (1) 1
coke formation (1) 1
environmental sciences (1) 1
fluidized-bed (1) 1
mechanisms of : catalyst, deactivation, fouling, poisoning, sintering, vapor-solid and solid-solid reactions, and mechanical degradation (1) 1
mechanisms of: catalyst deactivation, fouling, poisoning, sintering, vapor-solid and solid-solid reactions, and mechanical degradation (1) 1
nickel (1) 1
nitric-oxide (1) 1
platinum (1) 1
research opportunities and needs : mechanisms of catalyst deactivation, fouling, poisoning, sintering, vapor-solid and solid-solid reactions, and mechanical degradation (1) 1
research opportunities and needs: mechanisms of catalyst deactivation, fouling, poisoning, sintering, vapor-solid and solid-solid reactions, and mechanical degradation (1) 1
sulfur adsorption (1) 1
supported palladium (1) 1
surface-area (1) 1
technical knowledge status of : mechanisms of catalyst deactivation, fouling, poisoning, sintering, vapor-solid and solid-solid reactions, and mechanical degradation (1) 1
technical knowledge status of: mechanisms of catalyst deactivation, fouling, poisoning, sintering, vapor-solid and solid-solid reactions, and mechanical degradation (1) 1
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Applied catalysis. A, General, ISSN 0926-860X, 2001, Volume 212, Issue 1-2, pp. 17 - 60
.... The status of knowledge and needs for further work are also summarized for each type of deactivation mechanism... 
Catalyst deactivation by: coke and carbon formation, vapor compound formation, vapor-solid and solid-solid reactions, attrition and crushing | Technical knowledge status of: mechanisms of catalyst deactivation, fouling, poisoning, sintering, vapor-solid and solid-solid reactions, and mechanical degradation | Research opportunities and needs: mechanisms of catalyst deactivation, fouling, poisoning, sintering, vapor-solid and solid-solid reactions, and mechanical degradation | Mechanisms of: catalyst deactivation, fouling, poisoning, sintering, vapor-solid and solid-solid reactions, and mechanical degradation | Catalyst: deactivation, degradation, fouling, poisoning, sintering, and mechanical degradation of | research opportunities and needs : mechanisms of catalyst deactivation, fouling, poisoning, sintering, vapor-solid and solid-solid reactions, and mechanical degradation | catalyst : deactivation, degradation, fouling, poisoning, sintering, and mechanical degradation of | and carbon formation, vapor compound formation, vapor-solid and solid-solid reactions, attrition and crushing | SURFACE-AREA | SUPPORTED PALLADIUM | PLATINUM | CHEMISTRY, PHYSICAL | catalyst deactivation by : coke | ATTRITION | ENVIRONMENTAL SCIENCES | NICKEL | CARBON-MONOXIDE | NITRIC-OXIDE | mechanisms of : catalyst, deactivation, fouling, poisoning, sintering, vapor-solid and solid-solid reactions, and mechanical degradation | FLUIDIZED-BED | COKE FORMATION | SULFUR ADSORPTION | technical knowledge status of : mechanisms of catalyst deactivation, fouling, poisoning, sintering, vapor-solid and solid-solid reactions, and mechanical degradation
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