INTRODUCTION OF INDIVIDUAL ENERGY LEVEL FOR EXERGY ANALYSIS OF PROCESS SYSTEMS WITH MULTIPLE COMPONENTS
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概要
- 論文の詳細を見る
- 社団法人 化学工学会の論文
- 1993-08-20
著者
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ISHIDA Masaru
Research Laboratory of Resources Utilization, Tokyo Institute of Technology
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TAPRAP Ruchira
Research Laboratory of Resources Utilization, Tokyo Institute of Technology
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Taprap Ruchira
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
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Ishida Masaru
Research Laboratory Of Resources Utilization Tokyo Institute Of Technology
関連論文
- GRAPHIC PRESENTATION OF EXERGY LOSS IN MIXING ON AN ENERGY-UTILIZATION DIAGRAM
- APPLICATION OF ENERGY-UTILIZATION DIAGRAM FOR GRAPHIC EXERGY ANALYSIS OF MULTICOMPONENT DISTILLATION COLUMNS
- ELECTRODE REACTION AT FIXED PLATINUM FILM-FIXATION OF PLATINUM FILM ON STABILIZED-ZIRCONIA ELECTROLYTE AND ITS EFFECT ON THE ELECTRODE PERFORMANCE OF THE SOLID-ELECTROLYTE FUEL CELL-
- Structured PENN Controller for MIMO Process
- Analysis of Behavior of Individual Conponents in Extraction on Material-Utilization Diagram
- Evaluation of Component Behavior in Process System on Material-Utilization Diagram
- THREE-DIMENSIONAL GRAPHICAL EXERGY ANALYSIS OF A DISTILLATION COLUMN
- CONTROL BY A NEW POLICY-AND EXPERIENCE-DRIVEN NEURAL NETWORK TO FOLLOW A DESIRED TRAJECTORY
- INTRODUCTION OF INDIVIDUAL ENERGY LEVEL FOR EXERGY ANALYSIS OF PROCESS SYSTEMS WITH MULTIPLE COMPONENTS
- CONTROL OF A PROCESS WITH TIME DELAY BY POLICY-AND-EXPERIENCE-DRIVEN NEURAL NETWORKS
- Graphical Evaluation of Gibbs Free Energy Change from Process Vector
- NEURAL NETWORK CONTROL FOR A MIMO PROCESS WITH TIME DELAY
- CHARACTERISTICS OF POLICY- AND EXPERIENCE-DRIVEN NEURAL NETWORK WHEN APPLIED TO LEVEL CONTROL
- Performance Improvement of an Absorption-Compression Hybrid Heat Transformer by Utilizing the Absorber and Generator in Close-to-Equilibrium Operation
- THE EFFECT OF ADSORPTION ISOTHERMS AND FLOW RATES ON SEPARATION PERFORMANCE IN MULTICOMPONENT CONTINUOUS SEPARATION
- CONTROL BY A POLICY-AND-EXPERIENCE-DRIVEN NEURAL NETWORK
- A NEW PROCESS FOR MULTICOMPONENT CONTINUOUS SEPARATION BY COMBINING MULTIPLE LIQUID CHROMATOGRAPHY COLUMNS
- A NOVEL COMBUSTOR BASED ON CHEMICAL-LOOPING REACTIONS AND ITS REACTION KINETICS
- MACROSCOPIC INTERPRETATION OF DIFFUSION AND ION TRANSPORT BASED ON INTERMEDIARY ENERGY MODEL
- Rotation of a horizontal disk within an aerated particle bed. Behavior of solid particles and torque requirements.:BEHAVIOR OF SOLID PARTICLES AND TORQUE REQUIREMENTS
- Increase in the rate of reduction of hematite to iron by prereducing under high concentration of hydrogen.
- Exergy study of the reverse cycles of absorption heat pumps by use of energy-utilization diagrams.
- Automatic drawing of energy-utilization diagrams for multiphase processes.
- Introduction of the concept of stream stack and structured flowsheeting to a chemical process system simulator.
- Development of a language that allows both procedural and inferential programming and its application to rule-based control.
- Development of a compiler-type simulator for pressure swing adsorption and its application to oxygen enrichment in air.
- The entrainment of solid particles from a gas-solid fluidized bed.
- Equilibrium bed heights when a fluidized bed and a fixed bed are connected through an opening. Effect of contracting the bed columns at the gas exit.:EFFECT OF CONTRACTING THE BED COLUMNS AT THE GAS EXIT
- Application of a cation exchange membrane to a sodium ion pump.
- An optical probe to detect both bubbles and suspended particles in a three-phase fluidized bed.
- Graphical Analysis of Microscopic Energy Transformation Schemes.
- CIRCULATION OF SOLID PARTICLES WITHIN THE FLUIDIZED BED WITH A DRAFT TUBE:EQUILIBRIUM BED HEIGHTS WHEN A FLUIDIZED BED AND A FIXED BED ARE CONNECTED THROUGH AN OPENING
- Derivation of Characteristics of Intermediary Energy and Proposal of Microscopic Energy-Utilization Diagram.
- Radial and vertical distributions of the interstitial gas velocity in a fluidized bed.
- DYNAMIC EFFECTIVE DIFFUSIVSTY WHEN APPLIED TO THE PRESSURE INCREASE DURING REACTION FOR MULTICOMPONENT GASEOUS SYSTEMS WITHIN A POROUS SOLID:REDUCTION OF IRON-OXIDE POWDER BED BY HYDROGEN-INERT GAS MIXTURES AT 900°C