Keywords: احتراق متان; Catalytic combustion; Electrodeposition; Cobalt oxide (Co3O4); Micro-channel reactor; Methane combustion;
مقالات ISI احتراق متان (ترجمه نشده)
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Keywords: احتراق متان; Alumina support; Bimetallic catalyst; Chromium; Methane combustion; Rhodium;
Keywords: احتراق متان; Ceramic membrane reactor; Methane combustion; Oxy-fuel combustion; CO2 recovery;
Keywords: احتراق متان; Modelling; Biogas engines; Structured reactors; Metal oxides catalyst; Methane combustion;
Keywords: احتراق متان; Methane steam reforming; Methane combustion; Surface microkinetic; Catalytic plate reactor; Segmented reforming catalyst; Segmented combustion catalyst;
A comparative parametric study of a catalytic plate methane reformer coated with segmented and continuous layers of combustion catalyst for hydrogen production
Keywords: احتراق متان; Methane steam reforming; Methane combustion; Microkinetic; Catalytic plate reactor; Segmented combustion catalyst; Parametric study;
Keywords: احتراق متان; Perovskite; Microemulsion; Methane combustion; Environmental;
Keywords: احتراق متان; Regenerative catalytic oxidizer; Hybrid reactor; Methane combustion; Water inhibition; Reverse flow reactor; Dynamic modelling;
Keywords: احتراق متان; Morphology-dependent; Cobalt oxide (Co3O4); Methane combustion
Keywords: احتراق متان; Methane combustion; Computational fluid dynamics; Longwall coal mining; Flame characteristics; Tube diameter
Generalised two-dimensional correlation analysis of the Co, Ce, and Pd mixed oxide catalytic systems for methane combustion using in situ infrared spectroscopy
Keywords: احتراق متان; Methane combustion; In situ FTIR; 2D correlation spectroscopy; Metal oxide;
Effect of MOx (Mâ¯=â¯Ce, Ni, Co, Mg) on activity and hydrothermal stability of Pd supported on ZrO2-Al2O3 composite for methane lean combustion
Keywords: احتراق متان; Palladium; ZrO2-Al2O3 composite; Methane combustion; Lean burn; Natural gas vehicles;
Methane combustion reactivity during the metalâmetallic oxide transformation of Pd-Pt catalysts: Effect of oxygen pressure
Keywords: احتراق متان; Methane combustion; Pd-Pt catalysts; Metallic oxideâââmetal transformation; Thermodynamic;
Role of Brønsted acid site during catalytic combustion of methane over PdO/ZSM-5: Dominant or negligible?
Keywords: احتراق متان; Methane combustion; ZSM-5; Surface acid sites; Supported Pd; Stability; Water-resistance;
Advanced Pd/CexZr(1âx)O2/MCM-41 catalysts for methane combustion: Effect of the zirconium and cerium loadings
Keywords: احتراق متان; Pd/(CexZr(1âx)O2)/MCM-41 catalysts; Methane combustion; Catalytic activity;
Complete combustion of methane over Co3O4 catalysts: Influence of pH values
Keywords: احتراق متان; Methane combustion; Co3O4; pH values;
Stability of Pd-Pt catalysts in low-temperature wet methane combustion: Metal ratio and particle reconstruction
Keywords: احتراق متان; Methane combustion; Hydrothermal ageing; Stability; Deactivation; Bimetallic catalysts;
Structural requirements of manganese oxides for methane oxidation: XAS spectroscopy and transition-state studies
Keywords: احتراق متان; Mn oxides; Crystallographic structure; Methane combustion; H2O/CO2; DFT+U calculation;
Evaluation of hydrothermal stability of encapsulated PdPt@SiO2 catalyst for lean CH4 combustion
Keywords: احتراق متان; Silica-encapsulated catalyst; Bimetallic nanoparticle; Methane combustion; Hydrothermal stability;
Preparation, characterization, and catalytic performance of PdPt/3DOM LaMnAl11O19 for the combustion of methane
Keywords: احتراق متان; Three-dimensionally ordered macropore; Bimetallic nanoparticle; Supported noble metal catalyst; Methane combustion; Ex situ XPS;
3DOM LaMnAl11O19-supported AuPd alloy nanoparticles: Highly active catalysts for methane combustion in a continuous-flow microreactor
Keywords: احتراق متان; Three-dimensionally ordered macropore; Mn-substituted hexaaluminate; Gold-palladium alloy nanoparticle; Supported noble metal catalyst; Methane combustion;
Catalytic methane combustion over Pd/ZrO2 catalysts: Effects of crystalline structure and textural properties
Keywords: احتراق متان; Zirconia; Pd/ZrO2 catalyst; Tetragonal; Methane combustion; Density functional theory;
Catalytic combustion of methane over Pd/SnO2 catalysts
Keywords: احتراق متان; Methane combustion; Palladium; Tin oxide; Lattice match; Oxygen activation;
Water shifts PdO-catalyzed lean methane combustion to Pt-catalyzed rich combustion in Pd-Pt catalysts: In situ X-ray absorption spectroscopy
Keywords: احتراق متان; Methane combustion; XAS; XANES; EXAFS; In situ spectroscopy; Water poisoning; Palladium hydroxide; Mechanism; Stoichiometric combustion; NGV;
Effect of Pd doping on CH4 reactivity over Co3O4 catalysts from density-functional theory calculations
Keywords: احتراق متان; Spinel cobalt oxide; Palladium dopant; Methane combustion; Density function theory calculation; Reaction rate; Collision theory;
Co3O4/HZSM-5 catalysts for methane combustion: The effect of preparation methodologies
Keywords: احتراق متان; Methane combustion; Co3O4; HZSM-5; Plasma; DRIFT;
Catalytic combustion of lean methane at low temperature over ZrO2-modified Co3O4 catalysts
Keywords: احتراق متان; Methane combustion; Co3O4; ZrO2;
Three-dimensionally ordered macroporous CoCr2O4-supported Au-Pd alloy nanoparticles: Highly active catalysts for methane combustion
Keywords: احتراق متان; Three-dimensionally ordered macropore; Au-Pd alloy nanoparticle; Cobalt chromate; Supported noble metal catalyst; Methane combustion;
Enhanced catalytic performance for methane combustion of 3DOM CoFe2O4 by co-loading MnOx and Pd-Pt alloy nanoparticles
Keywords: احتراق متان; Three-dimensionally ordered macropore; Cobalt ferrate; Supported manganese oxide catalyst; Supported noble metal nanoparticle; Methane combustion;
Low temperature CO oxidation and CH4 combustion over Co3O4 nanosheets
Keywords: احتراق متان; Co3O4 nanosheets; CO oxidation; Methane combustion;
Three-dimensionally ordered macroporous LaMnAl11O19-supported Pd nanocatalysts highly active for methane combustion
Keywords: احتراق متان; Three-dimensionally ordered macropore; Hexaaluminate; Noble metal nanoparticle; Supported palladium catalyst; Methane combustion;
Mesoporous PdxPt alloys: High-performance catalysts for methane combustion
Keywords: احتراق متان; Mesoporous Pd-Pt alloy; PdO-PtO2 active site; Redox property; Methane combustion; Methane activation ability;
In situ spectroscopic studies of methane catalytic combustion over Co, Ce, and Pd mixed oxides deposited on a steel surface
Keywords: احتراق متان; Methane combustion; In situ DRIFT; μRaman; Reaction mechanism; Wire gauze; Cobalt oxide;
Optimization of Pd catalysts supported on Co3O4 for low-temperature lean combustion of residual methane
Keywords: احتراق متان; Palladium; Cobalt spinel; Urea; Methane combustion; Lean conditions;
Catalytic performance enhancement by alloying Pd with Pt on ordered mesoporous manganese oxide for methane combustion
Keywords: احتراق متان; Ordered mesoporous manganese oxide; Pd-Pt alloy nanoparticle; Supported noble metal catalyst; Strong metal-support interaction; Methane combustion;
In-situ preparation of macro/mesoporous NiO/LaNiO3 pervoskite composite with enhanced methane combustion performance
Keywords: احتراق متان; Porous materials; Pervoskite; NiO/LaNiO3; Methane combustion;
Enhanced methane combustion over Co3O4 catalysts prepared by a facile precipitation method: Effect of aging time
Keywords: احتراق متان; Methane combustion; Co3O4; Aging time;
Ordered mesoporous MCo2O4 (MÂ =Â Cu, Zn and Ni) spinel catalysts with high catalytic performance for methane combustion
Keywords: احتراق متان; Methane combustion; Metal cobalt spinel; Mesoporous mixed metal oxide;
NOx abatement in the exhaust of lean-burn natural gas engines over Ag-supported γ-Al2O3 catalysts
Keywords: احتراق متان; NOx reduction; Lean-burn natural gas; Gamma-alumina; Silver; Methane combustion;
Catalytic combustion of methane over Pd/MWCNTs under lean fuel conditions
Keywords: احتراق متان; MWCNTs; methane combustion; oxygen-containing functional groups; active species; reaction mechanism;
Methane combustion over bimetallic Ru-Re/γ-Al2O3 catalysts: Effect of Re and pretreatments
Keywords: احتراق متان; Bimetallic Ru-Re catalyst; Methane combustion; Effect of pretreatment; Effect of rhenium
Study of influence of tremors on combined hazards. Longwall mining operations in co-occurrence of natural hazards. A case study
Keywords: احتراق متان; Underground mining; Combined hazards; Methane combustion;
Three-dimensionally ordered mesoporous Co3O4-supported Au–Pd alloy nanoparticles: High-performance catalysts for methane combustion
Keywords: احتراق متان; Mesoporous cobalt oxide; Noble metal alloy; Supported catalyst; Strong metal-support interaction; Methane combustion
Experimental study and modelling of NOx formation in high pressure counter-flow premixed CH4/air flames
Keywords: احتراق متان; NOx formation; High pressure flames; Laser Induced Fluorescence; Methane combustion; Kinetic analysis
Structure of CH4/O2/Ar flames at elevated pressures studied by flame sampling molecular beam mass spectrometry and numerical simulation
Keywords: احتراق متان; Methane combustion; Elevated pressure; Molecular beam mass spectrometry; Chemical kinetic modeling; Premixed flame;
Surface engineering and palladium dispersion in MCM-41 for methane oxidation
Keywords: احتراق متان; Mesoporous silica; MCM-41; Functionalisation; Palladium; Methane combustion;
Study of the electrical and catalytic properties of spinels with CuFe2âxMnxO4 composition (x = 0, 0.4, 0.8, 1.6 and 2)
Keywords: احتراق متان; Electrical conductivity; CuFe2-xMnxO4 spinels; Methane combustion;
Effect of Co/Ni ratios in cobalt nickel mixed oxide catalysts on methane combustion
Keywords: احتراق متان; Methane combustion; Cobalt nickel mixed oxide; NiCo2O4 spinel structure; EXAFS;
Properties of La0.9Sr0.1MnO3 and tourmaline compound catalytic materials for methane combustion
Keywords: احتراق متان; methane combustion; perovskite; tourmaline; sol-gel method; catalytic; rare earths
Low-temperature combustion of methane using PdO/Al2O3 catalyst: Influence of crystalline phase of Al2O3 support
Keywords: احتراق متان; Methane combustion; Alumina support; Crystalline phase; H2O desorption; Deactivation