Numerical Prediction of Coaxial Flow Diffusion Flames with Radiative Heat Transfer
スポンサーリンク
概要
- 論文の詳細を見る
A new numerical method of evaluating radiative heat transfer was incorporated into the framework of the numerical prediction of diffsion flames. The model of radiative heat transfer was based on tihe idea of the heat ray tracing method originally proposed by Hayasaka et al. The present method enables us to evaluate both the radiative heat loss from a flame and the local formation and oxidation rate of soot, which significantly interact with each other. Some predicted results were compared with those of experiments.
- 一般社団法人日本機械学会の論文
- 1990-11-15
著者
-
KATSUKI Masashi
Department of Mechanical Engineering, Graduate School of Engineering, Osaka University
-
LEE Do
Department of Materials Engineering, SungKyunKwan University
-
Mizutani Yukio
Department Of Mechanical Engineering Osaka University
-
Mizutani Yukio
Department Of Mechanical Engineering Faculty Of Engineering Osaka University
-
Hattori Yoshihiro
Panasonic
-
ANDO Akihiro
Shin Meiwa Industry
-
JINJA Yoichi
Kawasaki Heavy Industry
-
Lee Do
Department Of Civil Environmental And Railroad Engineering Paichai University
-
Jinja Yoichi
Kawasaki Heavy Industries Ltd.
-
Katsuki Masashi
Department Of Mechanical Engineering Faculty Of Engineering Osaka University
-
Lee Do
Department Of Mechanical Engineering Pusan National Institute Of Technology
-
KATSUKI Masashi
Department of Mechanical Engineering, Osaka University
-
Lee Do
Department of Chemical Engineering, Inha University, 253 Yonghyun-dong, Nam-gu, Incheon 402-751, Republic of Korea
-
MIZUTANI Yukio
Department of Mechanical Engineering, Osaka University
関連論文
- Inhibition of Coagulation Activation and Inflammation by a Novel Factor Xa Inhibitor Synthesized from the Earthworm Eisenia andrei(Pharmacology)
- A Study on Effects of Surface Structural Clearance in Nanometer Scale on Energy Transfer and Molecular Behavior at a Liquid-Solid Interface
- Effects of Tin Concentration on the Electrical Properties of Room-Temperature Ion-Beam-Assisted-Evaporation-Deposited Indium Oxide Thin Films : Surfaces, Interfaces, and Files
- Observation of Detailed Structure of Turbulent Pulverized-Coal Flame by Optical Measurement : Part 2, Instantaneous Two-Dimensional Measurement of Combustion Reaction Zone and Pulverized-Coal Particles
- Observation of Detailed Structure of Turbulent Pulverized-Coal Flame by Optical Measurement : Part 1, Time-Averaged Measurement of Behavior of Pulverized-Coal Particles and Flame Structure
- E210 Experimental Study on the Particle Behaviors and the Structure of a Turbulent Pulverized Coal Flame
- Inhibition of Cytokine-Induced β Cell Apoptosis via Laccase and Its Therapeutic Advantages for Insulin-Dependent Diabetes Mellitus, Type 1 Diabetes
- Reliability Analysis of a Suspension Bridge Affected by Hydrogen Induced Cracking Based upon Response Surface Method
- CIP Characteristics in Direct Numerical Simulations(CIP)
- Numerical Simulation of Combustion and Nongray Radiative Heat Transfer in a Furnace and Its Comparison with Experiments
- Numerical Prediction of Coaxial Flow Diffusion Flames with Radiative Heat Transfer
- Prevention of Inflammation-Mediated Neurotoxicity by Rg3 and Its Role in Microglial Activation(Pharmacology)
- Combustion of Lean Flammable Mixtures in an Intense Radiation Field : Effects of Radiant Heat Flux on Laminar Bunsen Flames
- Combustion of Lean Flammable Mixtures in an Intense Radiation Field
- The Oxidation and Reduction Behavior of Metal Surface in a Flame
- Turbulence and Mixing in Turbulent Premixed Flames : Fine Flame Structure and Its Influence on Mixing Processes
- Design Study and Analysis of a Shipboard NO_x Reduction Plant
- Experimental and Numerical Study on Combustion Mechanism of Liquid Fuel Spray Entering Gaseous Flame Front
- B12-113 HEAT TRANSFER ENHANCEMENT BY ADHERENT NANO-PARTICLE ON SURFACE : EXPERIMENTAL AND MOLECULAR DYNAMICS STUDY
- Measurements of Temperature and Concentration in Flames using 2.0-μm DFB Diode Laser Sensors
- Molecular Dynamics Study on Effects of Adherent Molecules on Surface Reaction and Surface Energy Transfer
- Fine Flame Structure and Combustion Mechanism of Lean Turbulent Premixed Flames
- Observation of the Distributed Reaction Zone in Turbulent Premixed Flames
- Visualization and Image Analyses of Combustion Fields
- Macroscopic Flame Structure in a Premixed-Spray Burner : Formation and Disappearance Processes of Droplet Clusters and Two-Stage Flame Structure
- C111 Numerical Study on Combustion Characteristics of Spray Flat Flames : Time-dependent Burning Behavior of Polydisperse Spray Entering Gaseous Flame Front(Spray/laminar flame)
- Modeling of the Reaction Rate in Turbulent Premixed Flames
- TED-AJ03-215 MOLECULAR SCALE MECHANISM ON EVAPORATION AND REMOVAL PROCESSES OF ADHERENT MOLECULES ON SURFACE BY BURNT GAS
- D304 MOLECULAR DYNAMICS STUDY ON EVAPORATION PROCESS OF ADHERED THIN FILM ON SURFACE BY HIGH TEMPERATURE GAS(Molecular dynamics)
- Effect of Oxygen Concentration on Properties of Indium Zinc Oxide Thin Films for Flexible Dye-Sensitized Solar Cell
- QMD Processes of Thermal Interaction between Light and Matter