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Publication DateJournal of Geophysical Research: Space Physics, ISSN 2169-9380, 09/2013, Volume 118, Issue 9, pp. 5695 - 5719
Estimates are calculated for the storm time reduction of solar wind/magnetosphere coupling by the mass density ρm of the magnetospheric plasma. Based on the...
plasma sheet | reconnection | plasmasphere | cloak | solar‐wind/magnetosphere coupling | solar-wind/magnetosphere coupling | OUTER PLASMASPHERE | MAGNETIC RECONNECTION | THERMAL PLASMA | solar-wind | AURORAL IONOSPHERE | GEOMAGNETIC STORMS | DRIVEN STORMS | ASTRONOMY & ASTROPHYSICS | LATITUDE IONOSPHERE | magnetosphere coupling | GEOSYNCHRONOUS ORBIT | COORDINATED MODELING CENTER | RING CURRENT | Plasma | Solar physics | Oxygen | Ionosphere | Geophysics
plasma sheet | reconnection | plasmasphere | cloak | solar‐wind/magnetosphere coupling | solar-wind/magnetosphere coupling | OUTER PLASMASPHERE | MAGNETIC RECONNECTION | THERMAL PLASMA | solar-wind | AURORAL IONOSPHERE | GEOMAGNETIC STORMS | DRIVEN STORMS | ASTRONOMY & ASTROPHYSICS | LATITUDE IONOSPHERE | magnetosphere coupling | GEOSYNCHRONOUS ORBIT | COORDINATED MODELING CENTER | RING CURRENT | Plasma | Solar physics | Oxygen | Ionosphere | Geophysics
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Loading Rights1996, ISBN 3527294309, xv, 339
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2019, ISBN 9783038977506
Plasma catalysis is gaining increasing interest for various gas conversion applications, such as CO2 conversion into value-added chemicals and fuels, N2...
in plasma-catalysis | gas composition | radiofrequency plasma | calcium carbonate decomposition | phenanthrene | methane reforming | dry reforming of methane | NH3 decomposition | dielectric barrier discharge | gas temperature | relative humidity | CO selectivity | isotope labelling | nanocatalyst | packed-bed dielectric barrier discharge | mineralization | rotating gliding arc plasma | dielectric barrier discharge (DBD) | catalyst | plasmas-catalysis | H2S oxidation | post plasma-catalysis | naphthalene | VOC abatement | nonstoichiometry | zeolites | H2 generation | tar destruction | adsorption-plasma catalysis | NOx conversion | catalyst preparation | CeO2 | nonequilibrium plasma | non-thermal plasmas | mode transition | bimetal | DBD plasma | surface filament | self-cooling | indium | plasma catalysis | gallium | perovskite catalysts | ammonia synthesis | packing materials | In alloys | air pollution | toluene | particle-in- cell/Monte Carlo collision method | CO2 decomposition | Manganese
in plasma-catalysis | gas composition | radiofrequency plasma | calcium carbonate decomposition | phenanthrene | methane reforming | dry reforming of methane | NH3 decomposition | dielectric barrier discharge | gas temperature | relative humidity | CO selectivity | isotope labelling | nanocatalyst | packed-bed dielectric barrier discharge | mineralization | rotating gliding arc plasma | dielectric barrier discharge (DBD) | catalyst | plasmas-catalysis | H2S oxidation | post plasma-catalysis | naphthalene | VOC abatement | nonstoichiometry | zeolites | H2 generation | tar destruction | adsorption-plasma catalysis | NOx conversion | catalyst preparation | CeO2 | nonequilibrium plasma | non-thermal plasmas | mode transition | bimetal | DBD plasma | surface filament | self-cooling | indium | plasma catalysis | gallium | perovskite catalysts | ammonia synthesis | packing materials | In alloys | air pollution | toluene | particle-in- cell/Monte Carlo collision method | CO2 decomposition | Manganese
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Loading RightsJournal of Thermal Spray Technology, ISSN 1059-9630, 2/2017, Volume 26, Issue 3, pp. 279 - 291
The properties of plasma-sprayed coatings are controlled by the heat, momentum, and mass transfer between individual particles and the plasma jet. The particle...
CFD | particle behavior | Materials Science | modeling | mass transfer | plasma spraying | momentum transfer | Operating Procedures, Materials Treatment | Analytical Chemistry | Tribology, Corrosion and Coatings | Characterization and Evaluation of Materials | Surfaces and Interfaces, Thin Films | heat transfer | HEAT-TRANSFER | EVAPORATION | THERMAL PLASMAS | MOTION | POWDER PARTICLES | INJECTION | JET | DYNAMICS | SYSTEMS | MASS-TRANSFER | MATERIALS SCIENCE, COATINGS & FILMS | Plasma physics | Analysis
CFD | particle behavior | Materials Science | modeling | mass transfer | plasma spraying | momentum transfer | Operating Procedures, Materials Treatment | Analytical Chemistry | Tribology, Corrosion and Coatings | Characterization and Evaluation of Materials | Surfaces and Interfaces, Thin Films | heat transfer | HEAT-TRANSFER | EVAPORATION | THERMAL PLASMAS | MOTION | POWDER PARTICLES | INJECTION | JET | DYNAMICS | SYSTEMS | MASS-TRANSFER | MATERIALS SCIENCE, COATINGS & FILMS | Plasma physics | Analysis
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Loading RightsFood Chemistry, ISSN 0308-8146, 10/2017, Volume 232, pp. 476 - 486
Plasma is a medium of unbound negative and positive particles with the overall electrical charge being roughly zero. Non-thermal plasma processing is an...
Wheat flour | Structure | Starch modification | Application | Physicochemical property | Non-thermal processing | RHEOLOGICAL PROPERTIES | COLD-PLASMA | FOOD SCIENCE & TECHNOLOGY | FUNCTIONAL-PROPERTIES | GLOW-DISCHARGE PLASMA | WHEAT-FLOUR | NUTRITION & DIETETICS | NONTHERMAL PLASMA | FILMS | MOLECULAR-STRUCTURES | GRANULAR STARCHES | SURFACE | CHEMISTRY, APPLIED | Starch - chemistry | Triticum | Structure-Activity Relationship | Flour | Food Handling | Plasma Gases | Plasma physics | Green technology | Usage | Food
Wheat flour | Structure | Starch modification | Application | Physicochemical property | Non-thermal processing | RHEOLOGICAL PROPERTIES | COLD-PLASMA | FOOD SCIENCE & TECHNOLOGY | FUNCTIONAL-PROPERTIES | GLOW-DISCHARGE PLASMA | WHEAT-FLOUR | NUTRITION & DIETETICS | NONTHERMAL PLASMA | FILMS | MOLECULAR-STRUCTURES | GRANULAR STARCHES | SURFACE | CHEMISTRY, APPLIED | Starch - chemistry | Triticum | Structure-Activity Relationship | Flour | Food Handling | Plasma Gases | Plasma physics | Green technology | Usage | Food
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Loading RightsJournal of Physics D: Applied Physics, ISSN 0022-3727, 05/2016, Volume 49, Issue 24, pp. 243001 - 243024
This review describes the history and development of plasma-assisted catalysis focussing mainly on the use of atmospheric pressure, non-thermal plasma. It...
adsorption | plasma chemistry | plasma diagnostics | catalysis | plasma catalysis | plasma physics | non-thermal plasma | PHYSICS, APPLIED | HETEROGENEOUS CATALYSIS | PACKED-BED | DIELECTRIC BARRIER DISCHARGE | VIBRATIONALLY EXCITED METHANE | MANGANESE OXIDE CATALYST | NONTHERMAL-PLASMA | IN-SITU | ASSISTED CATALYSIS | VOLATILE ORGANIC-COMPOUNDS | ATMOSPHERIC-PRESSURE PLASMA | Atmospheric pressure | Catalysts | Barometric pressure | Surface chemistry | Diagnostic systems | Catalysis | Plasma (physics) | Discharge
adsorption | plasma chemistry | plasma diagnostics | catalysis | plasma catalysis | plasma physics | non-thermal plasma | PHYSICS, APPLIED | HETEROGENEOUS CATALYSIS | PACKED-BED | DIELECTRIC BARRIER DISCHARGE | VIBRATIONALLY EXCITED METHANE | MANGANESE OXIDE CATALYST | NONTHERMAL-PLASMA | IN-SITU | ASSISTED CATALYSIS | VOLATILE ORGANIC-COMPOUNDS | ATMOSPHERIC-PRESSURE PLASMA | Atmospheric pressure | Catalysts | Barometric pressure | Surface chemistry | Diagnostic systems | Catalysis | Plasma (physics) | Discharge
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Loading RightsSAE technical paper series, Volume 2009-01-3071.
A new coating technology for functionalization of semi-finished aluminium products for heat exchanger (HEX) applications was developed. Compared to binder...
Coatings, colorants, and finishes | Aluminum | Parts | Thermal management
Coatings, colorants, and finishes | Aluminum | Parts | Thermal management
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Loading RightsJournal of Thermal Spray Technology, ISSN 1059-9630, 10/2017, Volume 26, Issue 7, pp. 1641 - 1650
In the plasma spray–physical vapor deposition process (PS-PVD), there is no obvious heating to the feedstock powders due to the free molecular flow condition...
Operating Procedures, Materials Treatment | Materials Science | Analytical Chemistry | Tribology, Corrosion and Coatings | self-cooling | Characterization and Evaluation of Materials | Surfaces and Interfaces, Thin Films | heat flux | evaporation | heat transfer | PS-PVD | MICROSTRUCTURES | PRESSURE | PHASE | YTTRIA-STABILIZED ZIRCONIA | THERMAL BARRIER COATINGS | CERAMIC COATINGS | MATERIALS SCIENCE, COATINGS & FILMS | Plasma physics | Powders | Analysis
Operating Procedures, Materials Treatment | Materials Science | Analytical Chemistry | Tribology, Corrosion and Coatings | self-cooling | Characterization and Evaluation of Materials | Surfaces and Interfaces, Thin Films | heat flux | evaporation | heat transfer | PS-PVD | MICROSTRUCTURES | PRESSURE | PHASE | YTTRIA-STABILIZED ZIRCONIA | THERMAL BARRIER COATINGS | CERAMIC COATINGS | MATERIALS SCIENCE, COATINGS & FILMS | Plasma physics | Powders | Analysis
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Loading RightsJournal of thermal spray technology, ISSN 1059-9630, 1992
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Surface & Coatings Technology, ISSN 0257-8972, 05/2017, Volume 318, pp. 122 - 128
Improving efficiency of hot section components of aero engines such as turbine blades or nozzle guide vanes is critical for the aircraft industry. Over many...
YSZ | Thermal diffusivity | Thermal conductivity | Columnar microstructure | Thermal Barrier Coating | Suspension Plasma Spraying | PHYSICS, APPLIED | BARRIER COATINGS | BEHAVIOR | PARAMETERS | LIFETIME | CONDUCTIVITY | MATERIALS SCIENCE, COATINGS & FILMS | Thermal properties | Coatings | Analysis | Turbines | Electric properties
YSZ | Thermal diffusivity | Thermal conductivity | Columnar microstructure | Thermal Barrier Coating | Suspension Plasma Spraying | PHYSICS, APPLIED | BARRIER COATINGS | BEHAVIOR | PARAMETERS | LIFETIME | CONDUCTIVITY | MATERIALS SCIENCE, COATINGS & FILMS | Thermal properties | Coatings | Analysis | Turbines | Electric properties
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Loading RightsJournal of Physics D: Applied Physics, ISSN 0022-3727, 05/2004, Volume 37, Issue 9, pp. R86 - R108
This article intends to summarize our actual knowledge in plasma spraying with an emphasis on the points where work is still in progress. It presents...
STEEL PARTICLES | PHYSICS, APPLIED | TRANSPORT-PROPERTIES | RESIDUAL-STRESSES | THERMAL BARRIER COATINGS | PARTICLE TEMPERATURE | PROCESS PARAMETERS | FERRITE PERMEABILITY | MASS-TRANSFER | MOLYBDENUM PARTICLES | 3-DIMENSIONAL SIMULATION
STEEL PARTICLES | PHYSICS, APPLIED | TRANSPORT-PROPERTIES | RESIDUAL-STRESSES | THERMAL BARRIER COATINGS | PARTICLE TEMPERATURE | PROCESS PARAMETERS | FERRITE PERMEABILITY | MASS-TRANSFER | MOLYBDENUM PARTICLES | 3-DIMENSIONAL SIMULATION
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Loading RightsPlasma Processes and Polymers, ISSN 1612-8850, 02/2015, Volume 12, Issue 2, pp. 98 - 131
Plasma technology applied to textiles is a dry, environmentally‐ and worker‐friendly method to achieve surface alteration without modifying the bulk properties...
textiles | fibers | non‐thermal plasma | surface modification | functionalization of polymers | Surface modification | Non-thermal plasma | Functionalization of polymers | Fibers | Textiles | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | POLYMER SCIENCE | PHYSICS, FLUIDS & PLASMAS | LOW-TEMPERATURE PLASMA | DIELECTRIC BARRIER DISCHARGE | MECHANICAL-PROPERTIES | IN-SITU PLASMA | CORONA DISCHARGE | ANTI-FELTING PROPERTIES | DYEING PROPERTIES | POLYESTER FABRICS | non-thermal plasma | ATMOSPHERIC-PRESSURE PLASMA | Chemical industry | Herbicides | Pesticides industry | Enzymes | Plasma physics | College teachers | Textile industry | Plasma | Alterations | Surface chemistry | Fibres | Polymers | Continuous fibers | Atmospherics | Drying
textiles | fibers | non‐thermal plasma | surface modification | functionalization of polymers | Surface modification | Non-thermal plasma | Functionalization of polymers | Fibers | Textiles | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | POLYMER SCIENCE | PHYSICS, FLUIDS & PLASMAS | LOW-TEMPERATURE PLASMA | DIELECTRIC BARRIER DISCHARGE | MECHANICAL-PROPERTIES | IN-SITU PLASMA | CORONA DISCHARGE | ANTI-FELTING PROPERTIES | DYEING PROPERTIES | POLYESTER FABRICS | non-thermal plasma | ATMOSPHERIC-PRESSURE PLASMA | Chemical industry | Herbicides | Pesticides industry | Enzymes | Plasma physics | College teachers | Textile industry | Plasma | Alterations | Surface chemistry | Fibres | Polymers | Continuous fibers | Atmospherics | Drying
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Loading RightsJournal of Nuclear Materials, ISSN 0022-3115, 2003, Volume 313, pp. 11 - 22
Some of the remaining crucial plasma edge physics and plasma-material interaction issues of the ITER tokamak are discussed in this paper, using either...
Boundary plasmas | ITER | Plasma–wall interaction | Plasma-edge physics | B2-EIRENE code | Divertor | Plasma-wall interaction | THERMAL RESPONSE | ELMY H-MODES | HIGH-DENSITY | MATERIALS SCIENCE, MULTIDISCIPLINARY | PELLET INJECTION | plasma-edge physics | DIII-D | boundary plasmas | HYDROCARBON RADICALS | FACING COMPONENTS | FEAT | ASDEX-UPGRADE | NUCLEAR SCIENCE & TECHNOLOGY | MINING & MINERAL PROCESSING | plasma-wall interaction | divertor
Boundary plasmas | ITER | Plasma–wall interaction | Plasma-edge physics | B2-EIRENE code | Divertor | Plasma-wall interaction | THERMAL RESPONSE | ELMY H-MODES | HIGH-DENSITY | MATERIALS SCIENCE, MULTIDISCIPLINARY | PELLET INJECTION | plasma-edge physics | DIII-D | boundary plasmas | HYDROCARBON RADICALS | FACING COMPONENTS | FEAT | ASDEX-UPGRADE | NUCLEAR SCIENCE & TECHNOLOGY | MINING & MINERAL PROCESSING | plasma-wall interaction | divertor
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