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Catalyst lifetime represents one of the most crucial economic aspects in industrial catalytic processes, due to costly shutdowns, catalyst replacements, and proper disposal of spent materials. Not surprisingly, there is considerable motivation to understand and treat catalyst deactivation, poisoning, and regeneration, which causes this research topic to continue to grow. The complexity of catalyst poisoning obviously increases along with the increasing use of biomass/waste-derived/residual feedstocks and with requirements for cleaner and novel sustainable processes. This book collects 15 research papers providing insights into several scientific and technical aspects of catalyst poisoning and deactivation, proposing more tolerant catalyst formulations, and exploring possible regeneration strategies.
hydrogenation --- copper --- catalyst --- water --- deactivation --- octanal --- octanol --- V2O5–WO3/TiO2 catalysts --- poisoning --- sulfur-containing sodium salts --- SO3 --- NO removal --- Cu/SSZ-13 --- NH3-SCR --- sodium ions --- deactivation mechanism --- sulfur poisoning --- coke deposition --- in situ regeneration --- Co-Zn/H-Beta --- NOx reduction by C3H8 --- catalyst deactivation --- diesel --- natural gas --- SEM --- TEM --- poisoning --- oxygen storage capacity --- thermal stability --- cyclic operation --- deactivation --- oxysulfate --- oxysulfide --- Selective Catalytic Reduction (SCR) --- SO2 poisoning --- Low-temperature catalyst --- nitrogen oxides --- nitrous oxide --- dry reforming of methane --- nickel catalysts --- barium carbonate --- deactivation by coking --- catalytic methane combustion --- exhaust gas --- catalyst durability --- Liquefied natural gas --- biogas --- vehicle emission control --- sulfur deactivation --- catalyst deactivation --- aluminum sulfate --- palladium sulfate --- regeneration --- phthalic anhydride --- vanadia-titania catalyst --- unusual deactivation --- physico-chemical characterization --- over-reduction --- vanadia species --- coke deposition --- DeNOx --- MW incinerator --- deactivation --- ammonium sulfates --- regeneration --- washing --- CO2 reforming --- Ni-catalyst --- syngas --- tetragonal zirconia --- phase stabilization --- CPO reactor --- effect of flow rate --- deactivation --- iso-octane --- Rh catalysts --- Rh --- homogeneous catalysis --- catalyst deactivation --- n/a
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This volume provides unique views of combustion from many technical and international research perspectives.
steam methane reformer --- computational fluid dynamics --- tube surface temperature --- hydrogen yield --- wall shear stress --- swirling burner --- flaring angle --- fuel rich/lean combustion --- low load --- combustion adjustment --- flue gas mercury removal --- activated carbon sorbent --- CeO2 doping --- density functional theory(DFT) calculations --- air-pollution control --- battery recycling --- heavy metals --- control system efficiency --- chemical analysis --- short stroke engine --- bioethanol --- Atkinson cycle --- solid fuel --- cooking stove --- field study --- biofuel burner --- combustion --- ecological fuels --- energy management --- cleaner combustion --- fluidized bed --- powder coke --- MP-PIC method --- emission characteristics --- tubular diffusion flame --- methane/air --- NO emissions --- quantitative reaction pathway diagrams --- oxy-fuel combustion --- porous plate reactor --- oxidizer ratio --- methane --- CFD --- iso-octane --- high-pressure turbulent burning velocity --- Lewis number --- general correlations --- self-similar spherical flame propagation --- methane hydrate --- gas hydrate --- methane clathrate --- hydrate combustion --- hydrate flame spectrum --- hydrate ignition --- watery flames --- mitigation --- climate change --- ultra-lean methane flame --- lean flames --- methane–air combustion --- PIV --- GRI-Mech 3.0
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