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Convection Experiment. Leader: Tom Salerno Partners: Greg Rothsching Stephen Johnson Jen DiRocco. What will you hear today?. Introduction Theory Equipment and Procedure Results and Discussion Conclusions Questions. Introduction. What is convection?
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Convection Experiment Leader: Tom Salerno Partners: Greg Rothsching Stephen Johnson Jen DiRocco
What will you hear today? • Introduction • Theory • Equipment and Procedure • Results and Discussion • Conclusions • Questions
Introduction • What is convection? • Heat transfer from fluid flowing over solid surface • Why study convection? • Occurs in almost every process plant • Example: Heat Exchangers, Tray Dryers, etc.
Theory – Newton’s Law of Cooling • Flat Plate: • Finned Plate (Resistances in Parallel):
Theory – Forced Convection • Physical Situation: • Solving Boundary Layer Equations • Continuity Equation - • Momentum Balance - • Thermal Balance – • Rigorous analytical solution
Theory – Forced Convection • Forced Convection – analytically developed • Dimensionless Parameters • Reynolds: • Prandtl: • Nusselt: • Flat Plate:
Theory - Natural Convection • Physical Situation: • New Momentum Equation: • Must now solve all three boundary layer equations simultaneously
Theory - Natural Convection • Experimental Correlation: • Churchill and Chu • Dimensionless Parameters • Grashoff: • Rayleigh: • Correlation:
Equipment and Procedure Figure 9: Front view of convection duct. Figure 10: Side view of convection duct.
Results and Discussions • Flat Plate: Laminar Flow
Results and Discussions • Turbulent Mix • New Correlation -
Results and Discussions • Flat Plate: Turbulent Mix
Results and Discussions • Finned Plate: Laminar
Results and Discussions • Turbulent Mix • New Correlation -
Results and Discussions • Finned Plate: Turbulent Mix
Results and Discussions • Effectiveness of Fin Addition
Conclusions – What we learned • The convective heat transfer coefficient increases linearly with the square root of air velocity • Predictive Equations are useful for predicting trend in data, but not the absolute numbers • Natural Convection is the limit to forced convection, though it is difficult to predict • The addition of fins will increase the heat transfer rate substantially at low air velocities, but not as much at higher air velocities
Conclusions – Significance? • Aid in design of heat exchangers • How to increase heat transfer coefficient • How to increase heat transfer rate • Realize presence of natural convection for cheap ways to cool electronic equipment • Confidence of Predictive Equations • Use for other experiments, such as tray dryer • Only if can perfectly match geometry, or can run a short scale experiment to obtain correction factor