Dependence of submerged jet heat transfer on nozzle length

Engineering

• Centerline Velocity 100%
• Flow Regime 66%
• Pipeline Fluid Flow 66%
• Good Agreement 33%
• Separation Bubble 33%
• Parametric Study 33%
• Laminar Flows 33%
• Linear Dependence 33%
• Micro-Jet 33%
• Flow in Nozzles 33%
• Jet Velocity 33%
• Exit Plane 33%
• Nozzle Exit 33%
• Direct Numerical Simulation 33%
• Design Tool 33%
• Centerline Plane 33%
• Stagnation Point 33%

Keyphrases

• Heat Transfer 100%
• Nozzle 100%
• Submerged Jet 100%
• Centerline Velocity 37%
• Pipe Flow 25%
• Predictive Correlations 25%
• Flow Regime 12%
• Separation Bubble 12%
• Model Validation 12%
• Linear Dependence 12%
• Design Tools 12%
• Stagnation Point 12%
• Heat Transfer Correlation 12%
• Direct numerical Simulation 12%
• Intermediate Range 12%
• Practical Design 12%
• Inlet Conditions 12%
• Vena Contracta 12%
• Validity Range 12%
• Laminar Regime 12%
• Velocity Scaling 12%
• Micro-jet Cooling 12%
• Nozzle Exit 12%
• Nozzle Flow 12%
• Jet Velocity 12%
• Jet Impingement Heat Transfer 12%
• Heater 12%
• Submerged Jet Impingement 12%