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Catalysts Deactivation, Poisoning and Regeneration

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...

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Bibliographic Details
Main Author: Lisi, Luciana
Other Authors: Cimino, Stefano
Format: eBook
Language:English
Published: MDPI - Multidisciplinary Digital Publishing Institute 2019
Subjects:
Deactivation By Coking
Over-reduction
Co-zn/h-beta
Vanadia Species
Catalyst Durability
Phthalic Anhydride
Regeneration
Catalyst Deactivation
Nickel Catalysts
In Situ Regeneration
Dry Reforming Of Methane
Hydrogenation
N/a
Natural Gas
Catalytic Methane Combustion
Mw Incinerator
Deactivation Mechanism
Oxysulfate
Diesel
Selective Catalytic Reduction (scr)
Water
Vehicle Emission Control
Syngas
Denox
Tem
Technology: General Issues / Bicssc
No Removal
Sulfur Poisoning
Homogeneous Catalysis
Cyclic Operation
Copper
Tetragonal Zirconia
Barium Carbonate
Phase Stabilization
Nox Reduction By C3h8
Effect Of Flow Rate
Palladium Sulfate
Rh Catalysts
Aluminum Sulfate
Coke Deposition
Vanadia-titania Catalyst
Co2 Reforming
Ni-catalyst
Rh
Catalyst
Biogas
Octanol
Sulfur Deactivation
Thermal Stability
So3
Sodium Ions
So2 Poisoning
Nh3-scr
Low-temperature Catalyst
Octanal
Poisoning
Sulfur-containing Sodium Salts
Deactivation
V2o5-wo3/tio2 Catalysts
Ammonium Sulfates
Unusual Deactivation
Nitrogen Oxides
Cpo Reactor
Iso-octane
Oxysulfide
Physico-chemical Characterization
Oxygen Storage Capacity
Liquefied Natural Gas
Exhaust Gas
Nitrous Oxide
Washing
Sem
Cu/ssz-13
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
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653 |a over-reduction 
653 |a Co-Zn/H-Beta 
653 |a vanadia species 
653 |a catalyst durability 
653 |a phthalic anhydride 
653 |a regeneration 
653 |a catalyst deactivation 
653 |a nickel catalysts 
653 |a in situ regeneration 
653 |a dry reforming of methane 
653 |a hydrogenation 
653 |a n/a 
653 |a natural gas 
653 |a catalytic methane combustion 
653 |a MW incinerator 
653 |a deactivation mechanism 
653 |a oxysulfate 
653 |a diesel 
653 |a Selective Catalytic Reduction (SCR) 
653 |a water 
653 |a vehicle emission control 
653 |a syngas 
653 |a DeNOx 
653 |a TEM 
653 |a Technology: general issues / bicssc 
653 |a NO removal 
653 |a sulfur poisoning 
653 |a homogeneous catalysis 
653 |a cyclic operation 
653 |a copper 
653 |a tetragonal zirconia 
653 |a barium carbonate 
653 |a phase stabilization 
653 |a NOx reduction by C3H8 
653 |a effect of flow rate 
653 |a palladium sulfate 
653 |a Rh catalysts 
653 |a aluminum sulfate 
653 |a coke deposition 
653 |a vanadia-titania catalyst 
653 |a CO2 reforming 
653 |a Ni-catalyst 
653 |a Rh 
653 |a catalyst 
653 |a biogas 
653 |a octanol 
653 |a sulfur deactivation 
653 |a thermal stability 
653 |a SO3 
653 |a sodium ions 
653 |a SO2 poisoning 
653 |a NH3-SCR 
653 |a Low-temperature catalyst 
653 |a octanal 
653 |a poisoning 
653 |a sulfur-containing sodium salts 
653 |a deactivation 
653 |a V2O5-WO3/TiO2 catalysts 
653 |a ammonium sulfates 
653 |a unusual deactivation 
653 |a nitrogen oxides 
653 |a CPO reactor 
653 |a iso-octane 
653 |a oxysulfide 
653 |a physico-chemical characterization 
653 |a oxygen storage capacity 
653 |a Liquefied natural gas 
653 |a exhaust gas 
653 |a nitrous oxide 
653 |a washing 
653 |a SEM 
653 |a Cu/SSZ-13 
700 1 |a Cimino, Stefano 
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082 0 |a 600 
520 |a 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. 

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