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TY  - BOOK
ID  - 145183691
TI  - Environmental Friendly Catalysts for Energy and Pollution Control Applications
AU  - Lombraña, José Ignacio
AU  - Valdés, Héctor
AU  - Ferreiro, Cristian
PY  - 2022
PB  - MDPI - Multidisciplinary Digital Publishing Institute
DB  - UniCat
KW  - Technology: general issues
KW  - Environmental science, engineering & technology
KW  - photocatalysis
KW  - organic wastewater
KW  - preparation method
KW  - degradation
KW  - characterizations
KW  - hybridization
KW  - exoelectrogen
KW  - biocatalyst
KW  - microenvironment
KW  - porous electrode
KW  - anaerobic
KW  - recalcitrant compounds
KW  - E. coli K12
KW  - methylene blue
KW  - optimization
KW  - Pareto chart
KW  - perturbation graph
KW  - Pt-based promoter
KW  - CO oxidation
KW  - environmental catalysis
KW  - refinery compliance
KW  - fluid catalytic cracking
KW  - FCC
KW  - sodium citrate
KW  - sodium humate
KW  - SO2
KW  - absorption
KW  - BaQD
KW  - carbamazepine
KW  - ferric coordination complex
KW  - photo-Fenton
KW  - turbidity
KW  - cyanide
KW  - activated carbon
KW  - titanium dioxide
KW  - composites
KW  - continuous flow
KW  - adsorption
KW  - catalytic ozonation
KW  - Lewis and Brønsted acid sites
KW  - natural zeolite
KW  - reaction mechanism
KW  - toluene
KW  - three-phase modelling
KW  - fixed-bed reactor
KW  - wastewater treatment
KW  - phenol
KW  - granular activated carbon
KW  - Ad/Ox
KW  - volatile organic compounds
KW  - core–shell structures
KW  - spherical polymer templates
KW  - Co3O4
KW  - Pd-based promoter
KW  - NOx emission
KW  - metal–organic frameworks
KW  - heterogeneous catalysis
KW  - carbon dioxide
KW  - biomass
KW  - hydrogenation
KW  - oxidation
KW  - Fisher-Tropsch
KW  - photocatalysis
KW  - organic wastewater
KW  - preparation method
KW  - degradation
KW  - characterizations
KW  - hybridization
KW  - exoelectrogen
KW  - biocatalyst
KW  - microenvironment
KW  - porous electrode
KW  - anaerobic
KW  - recalcitrant compounds
KW  - E. coli K12
KW  - methylene blue
KW  - optimization
KW  - Pareto chart
KW  - perturbation graph
KW  - Pt-based promoter
KW  - CO oxidation
KW  - environmental catalysis
KW  - refinery compliance
KW  - fluid catalytic cracking
KW  - FCC
KW  - sodium citrate
KW  - sodium humate
KW  - SO2
KW  - absorption
KW  - BaQD
KW  - carbamazepine
KW  - ferric coordination complex
KW  - photo-Fenton
KW  - turbidity
KW  - cyanide
KW  - activated carbon
KW  - titanium dioxide
KW  - composites
KW  - continuous flow
KW  - adsorption
KW  - catalytic ozonation
KW  - Lewis and Brønsted acid sites
KW  - natural zeolite
KW  - reaction mechanism
KW  - toluene
KW  - three-phase modelling
KW  - fixed-bed reactor
KW  - wastewater treatment
KW  - phenol
KW  - granular activated carbon
KW  - Ad/Ox
KW  - volatile organic compounds
KW  - core–shell structures
KW  - spherical polymer templates
KW  - Co3O4
KW  - Pd-based promoter
KW  - NOx emission
KW  - metal–organic frameworks
KW  - heterogeneous catalysis
KW  - carbon dioxide
KW  - biomass
KW  - hydrogenation
KW  - oxidation
KW  - Fisher-Tropsch
UR  - https://www.unicat.be/uniCat?func=search&query=sysid:145183691
AB  - Catalysts are widely used in a great variety of technologies, providing remarkable efficiency in order to address sustainable energy production, climate change challenges, and to reduce industrial emissions. In the framework of the Environmental Catalysis section promoted by the Catalysts Editorial Office, this Special Issue, entitled “Environmental Friendly Catalysts for Energy and Pollution Control Applications”, comprises novel studies representing the state-of-the-art research for efficient energy generation and industrial emission control based on new environmentally friendly catalyst materials (EFCs). In particular, in this Special Issue (SI), different kinds of catalysts are presented for catalytic solutions, including the reduction of NOx emissions (new zeolite catalyst modified with Pt), the elimination of volatile organic compounds (Co3O4@SiO2 and acidic surface transformed natural zeolite) and the removal of SO2 emissions (through adsorption processes with sodium citrate). Moreover, novel biocatalysts for bioanodes and new functional nanostructured catalysts based on metal–organic framework (MOFs) for different applications are also included. Additionally, articles compiled in this SI are also focused on the improvement of catalytic processes. Thus, selected processes based on activated carbons (modified with titanium dioxide) and optimized Fenton processes for the removal of aqueous organic pollutants or for the inactivation of bacteria are also presented.
ER  -