NH₃ condensation within plate heat exchangers: Flow patterns, heat transfer and frictional pressure drop

INIS

• heat exchangers 100%
• plates 100%
• heat transfer 100%
• pressure drop 100%
• ammonia 100%
• design 50%
• heat 50%
• refrigerants 33%
• working fluids 33%
• compacts 33%
• correlations 33%
• safety 33%
• energy conversion 33%
• condensers 16%
• electricity 16%
• flexibility 16%
• heating load 16%
• energy supplies 16%
• energy 16%
• applications 16%
• risks 16%
• thermal properties 16%
• comparative evaluations 16%
• recovery 16%
• rankine cycle 16%
• thermal conductivity 16%
• hydrocarbons 16%
• maintenance 16%
• chemical engineering 16%
• thermodynamic cycles 16%
• size 16%
• charges 16%
• refrigeration 16%
• energy shortages 16%

Engineering

• Heat Transfer 100%
• Frictional Pressure Drop 100%
• Plate Heat Exchanger 100%
• Energy Engineering 60%
• Facilities 40%
• Fluid 40%
• Energy Conversion 40%
• Small Size 20%
• Produce Electricity 20%
• High Thermal Conductivity 20%
• Coming Year 20%
• Refrigerant 20%
• Refrigeration 20%
• Data Base 20%
• Drives 20%
• Safety Issue 20%
• Natural Refrigerant 20%
• Recovery 20%
• Experiments 20%
• Design 20%
• Safety Risk 20%
• Heating Load 20%
• Renewables 20%
• Condenser 20%
• Organic Rankine Cycle 20%

Chemical Engineering

• Heat Transfer 100%
• Thermal Load 25%
• Hydrocarbon 25%
• Refrigeration 25%
• Thermal Conductivity 25%
• Thermodynamic Property 25%
• Chemical Engineering 25%
• Rankine Cycle 25%
• Latent Heat 25%