Materialographic Investigation on the Mechanism of Hydrogen Production through the Reaction between Iron Carbide and Steam at a Temperature of 673K
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概要
- 論文の詳細を見る
- Japan Institute of Metalsの論文
- 2004-06-20
著者
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Akiyama Tomohiro
Center for Advanced Research of Energy Conversion Materials, Hokkaido University
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Tsutsumi Atsushi
Department of Chemical System Engineering, The University of Tokyo
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AKIYAMA Tomohiro
Department of Chemical Engineering, Osaka Prefecture University
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Tsutsumi Atsushi
Department Of Chemical System Engineering School Of Engineering University Of Tokyo
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Tsutsumi Atsushi
Department Of Chemical Engineering University Of Tokyo
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Akiyama Tomohiro
Department Of Chemical Engineering Graduate School Of Engineering Osaka Prefecture University
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HISA Masaaki
Department of Chemical Engineering, Osaka Prefecture University
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Hisa Masaaki
Department Of Chemical Engineering Graduate School Of Engineering Osaka Prefecture University
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Akiyama T
Department Of Chemical Engineering Graduate School Of Engineering Osaka Prefecture University
関連論文
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- Development of PCM Reactor for Methane Steam Reforming
- Latent Heat of Amorphous Slags and Their Utilization as a High Temperature PCM
- Technology of Latent Heat Storage for High Temperature Application: A Review
- Mechanism of the Formation of Slag Particles by the Rotary Cylinder Atomization
- Development of a Rotary Cylinder Atomizing Method of Slag for the Production of Amorphous Slag Particles
- Technical Feasibility Study of Waste Heat Transportation System Using Phase Change Material from Industry to City
- Vickers hardness of β-SiAlON prepared by a combination of combustion synthesis and spark plasma sintering
- Chronic Treatment with NGF Induces Spontaneous Fluctuations of Intracellular Ca2+ in Icilin-Sensitive Dorsal Root Ganglion Neurons of the Rat
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- Thermoelectric Properties of Solution Combustion Synthesized Al-Doped ZnO
- Design of Cascaded Oxide Thermoelectric Generator
- Thermoelectric Properties of Combustion Synthesized and Spark Plasma Sintered Sr_R_xTiO_3 (R = Y, La, Sm, Gd, Dy, 0 < x ≦ 0.1)
- Thermoelectric Properties of Combustion-Synthesized Lanthanum-Doped Strontium Titanate
- Bubble Characteristics in Multi-Phase Flow Systems: Bubble Sizes and Size Distributions
- Exergy Analysis of Hydriding Combustion Synthesis
- Pressure-Composition-Temperature Properties of Hydriding Combustion-Synthesized Mg_2NiH_4
- Operating Conditions for Hydriding Combustion Synthesis of Pure Mg_2NiH_4
- Combustion Synthesis of Doped Lanthanum Gallate as an Electrolyte for Solid Oxide Fuel Cells
- Exergy, CO_2 and Economical Analyses of the Hydrogen Production Using Waste Heat from Molten Slag in the Steel Industry
- Prediction of Granulated Slag Properties Produced from Spinning Disk Atomizer by Mathematical Model
- Characteristics of Glass Beads from Molten Slag Produced by Rotary Cup Atomizer
- Feasibility Study for Recovering Waste Heat in the Steelmaking Industry Using a Chemical Recuperator
- Validation of a Blast Furnace Solid Flow Model Using Reliable 3-D Experimental Results
- Sophisticated Multi-phase Multi-flow Modeling of the Blast Furnace
- Thermodynamic Analysis of Thermochemical Recovery of High Temperature Wastes
- Effect of diluents on high purity β-SiAlONs by mechanically activated combustion synthesis
- Optimization of Sintering Temperature for Maximizing Dimensionless Figure of Merit of La-Doped Strontium Titanate Thermoelectric Material in the Combination of Combustion Synthesis with Post Spark Plasma Sintering
- Macroscopic Flow Structure of Solid Particles in Circulating Liquid-Solid Fluidized Bed Riser
- Hydrogen Production from Waste Aluminum at Different Temperatures, with LCA
- Technical Feasibility Study of Waste Heat Transportation System Using Phase Change Material from Industry to City
- Latent Property of Defect-Controlled Metal Oxide : Nonstoichiometric Titanium Oxides as Prospective Material for High-Temperature Thermoelectric Conversion
- Energy-Recuperative Coal-Integrated Gasification/Gas Turbine Power Generation System
- Synthesis of Zeolite-X from Waste Metals
- Feasibility of Rotary Cup Atomizer for Slag Granulation
- Hydriding Chemical Vapor Deposition of Metal Hydride Nano-Fibers
- Development of PCM for Recovering High Temperature Waste Heat and Utilization for Producing Hydrogen by Reforming Reaction of Methane
- Microstructure Evolution of Iron Carbide during Reaction with Steam at Elevated Temperatures
- Materialographic Investigation on the Mechanism of Hydrogen Production through the Reaction between Iron Carbide and Steam at a Temperature of 673K
- Reduction of Iron Oxides by Nano-Sized Graphite Particles Observed in Pre-Oxidized Iron Carbide at Temperatures around 873K
- Exergy Analysis of Steel Production Processes
- Cold Experiments of Rotary Vaned-disks and Wheels for Slag Atomization
- Latent Heat of Amorphous Slags and Their Utilization as a High Temperature PCM
- Mechanism of the Formation of Slag Particles by the Rotary Cylinder Atomization
- Development of a Rotary Cylinder Atomizing Method of Slag for the Production of Amorphous Slag Particles
- Exergy Analysis of Methane Steam Reformer Utilizing Steelmaking Waste Heat
- Energy-Recuperative Biomass Integrated Gasification Power Generation System
- Effects of Slag Compositions on the Rate of Methane-Steam Reaction
- Observation of Molten Slag Surface under Gas Impingement by X-ray Computed Tomography
- Theoretical Design of Cup Atomizer for Heat Recovery of Molten Slag by Chemical Quench
- Effect of Slag Basicity on the Rate of Methane-steam Reaction
- Methodology to Evaluate Reduction Limit of Carbon Dioxide Emission and Minimum Exergy Consumption for Ironmaking
- GAS-LIQUID MASS TRANSFER IN A THREE-PHASE REACTOR
- Nonlinear Modeling of Chaotic Dynamics in a Circulating Fluidized Bed by an Artificial Neural Network
- Coproduction of Iron and Hydrogen from Iron Carbide
- Thermal Stress Analysis of PCM Encapsulation for Heat Recovery of High Temperature Waste Heat
- Combustion Synthesis of Aluminium Nitride From Dross
- Solid Circulation in a Spouted Bed with a Draft Tube
- Stochastic analysis of bubble and particle motions in a 2-D three-phase reactor.