E113 BURN-OUT PHENOMENA OF A LIQUID NITROGEN FORCED CONVECTIVE FLOW IN A TUBE HEATED IN COSINE-DISTRIBUTION(Critical heat flux)
スポンサーリンク
概要
- 論文の詳細を見る
Forced convective critical heat flux was experimentally studied. Liquid nitrogen was used for the working fluid in a vertical tube the heat flux of which had a cosine distribution. It was examined the rise of the tube wall temperature, the fluctuation of the pressure and the flow pattern for the critical heat flux based on the averaged critical heat flux of the tube. Two phenomena on the critical heat flux were found. One was a burn-out phenomenon occurred when flow pattern changed from slug or churn flow to annular flow at higher heat flux. The other was a DNB phenomenon just after the boiling at lower heat flux. The phenomena on the critical heat flux were experimentally studied and discussed.
- 一般社団法人日本機械学会の論文
- 2000-10-01
著者
-
TAKENAKA NOBUYUKI
Department of Orthopaedic Surgery, Teikyo University
-
Fujii Terushige
Department Of Mechanical Engineering Kobe University
-
Fujii Terushige
Department Mechanical Of Engineering Kobe University
-
Takenaka Nobuyuki
Department Mechanical Of Engineering Kobe University
-
UMEKI Isamu
Department Mechanical of Engineering, Kobe University
-
Umeki Isamu
Department Mechanical Of Engineering Kobe University
関連論文
- Implant failure of long Gamma nail in a patient with intertrochanteric-subtrochanteric fracture
- Visualization and Measurement of Dynamic Water Behavior in Polymer Electrolyte Fuel Cell by Neutron Radiography
- Influence of Inter-Carrier Scattering on Hot Electron Distribution Function in GaAs
- The Behavior of an Immiscible Equal-Density Liquid Two-Phase Flow in a Horizontal Tube
- E113 BURN-OUT PHENOMENA OF A LIQUID NITROGEN FORCED CONVECTIVE FLOW IN A TUBE HEATED IN COSINE-DISTRIBUTION(Critical heat flux)
- Non-Maxwellian Electron Distribution Function in n-GaAs Determined from Electric Field-Dependent Photoluminescence Spectrum
- Characteristics of Bed-Material Behavior and Heat Transfer around Vertical Tube Banks in a Fluidized Bed
- Characteristics of Heat Transfer and Bed Material Movement around Vertical Tube in Fluidized Bed
- B205 DISTRIBUTION OF VOID FRACTION AND HEAT TRANSFER COEFFICIENT AROUND VERTICAL TUBE BANKS IN FLUIDIZED BED
- Performance Characteristics of Divergent-Convergent Nozzles for Subcooled Hot Water
- B213 VOID FRACTION DISTRIBUTIONS OF AIR-WATER TWO-PHASE FLOW IN A ROD BUNDLE MEASURED BY NEUTRON RADIOGRAPHY(Nuclear power-3)
- G106 FLOW PATTERN AND VOID FRACTION DISTRIBUTION OF GAS-LIQUID TWO-PHASE FLOW IN A PLATE HEAT EXCHANGER MEASURED BY NEUTRON RADIOGRAPHY(Heat pipe fundamental and application)
- Development of Heat Supply Unit Using Phase Change Materials for the Neighboring Communities Co-Generation System
- A study of Water Hammer Phenomena in a One-Component Two-Phase Bubbly Flow
- A309 THE PHASE SEPARATION CHARACTERISTICS OF A GAS-LIQUID TWO-PHASE FLOW IN AN IMPACTING Y-JUNCTION. : Application to microgravity condition(Phase separation)
- D115 VELOCITY AND VOID FRACTION MEASUREMENT IN MOLTEN LEAD-BISMUTH TWO-PHASE FLOW BY NEUTRON RADIOGRAPHY(Measurement by radiation/absorption)
- A104 SIMULATION AND OPTIMIZATION OF DISTRICTED ENERGY SUPPLY SYSTEM BASED ON EXERGY
- G314 AN EXERGY ANALYSIS OF THE LiBr-WATER TRIPLE-EFFECT ABSORPTION-TYPE REFRIGERATOR(Absorption heat pump)
- TED-AJ03-191 MICROGRAVITY TWO-PHASE FLOW CHARATERISTICS IN ADIABATIC PIPES
- TED-AJ03-180 A Study of High Performance Gas-Liquid Phase Separator by Utilizing Y-junction under Micro-gravity Condition
- Effects of Wettability on Mercury Heat Transfer
- Study on the Effect of a Cogeneration System Capacity on its CO2 Emissions
- Visualization and Measurement of Hygroscopic Water Distribution in a Unit Cell of Silica-Gel Adsorber by Neutron Radiography