Advanced Cooling Systems
Advanced Cooling Systems
© 2008 ANSYS, Inc. All rights reserved.
1
ANSYS, Inc. Proprietary
Spray Cooling of a Hot Surface with Water Droplets • Droplets Colored by Diameter (splashing) • Surface Colored by Temperature • Planar Cut Shows Concentration of Water Vapor
• • • • •
Spray Angle Flow Rate Droplet Size Initial Droplet Speed Droplet Material and Properties
© 2008 ANSYS, Inc. All rights reserved.
2
ANSYS, Inc. Proprietary
Micro Channels • Very Small Hydraulic Diameters ~ 100 m • Very High Heat Transfer Coefficient (10,000 < h < 100,000 w/m2K) • But Very High Pressure Drop!
parallel flow counter flow
© 2008 ANSYS, Inc. All rights reserved.
3
ANSYS, Inc. Proprietary
Heat Pipes
• Passive Device of Very High “Effective” Thermal Conductivity • Heat is Transferred By: – Evaporation (evaporator section) – Convection (adiabatic section) – Condensation (condenser)
liquid vapor
evaporator © 2008 ANSYS, Inc. All rights reserved.
adiabatic 4
condenser ANSYS, Inc. Proprietary
Heat Pipes Case Study
liquid flow
vapor flow
Pressure
Temperature
Vadakkan et al. “Transient Analysis of flat heat pipes”, SHTC, HT2003-47349
© 2008 ANSYS, Inc. All rights reserved.
5
ANSYS, Inc. Proprietary
Multiphysics Cooling Systems
© 2008 ANSYS, Inc. All rights reserved.
6
ANSYS, Inc. Proprietary
Piezoelectric Fan • Piezoelectric Fan – Spot cooling for electronic components – Low magnetic permeability – Blade driven by piezoelectric bimorph Bimorph
Blade
FR4 Board Two piezoelectric layers with opposing polarity
Finite Element Mesh © 2008 ANSYS, Inc. All rights reserved.
7
ANSYS, Inc. Proprietary
Piezoelectric Fan
• Results – Fan Driven at Resonance – 115Volts at 60 Hz Fixed
© 2008 ANSYS, Inc. All rights reserved.
+Vin
8
ANSYS, Inc. Proprietary
Thermoelectric Cooler • Multistage Thermoelectric Cooler – Thermal-electric coupling • n-type and p-type semiconductors Cold Side (Heat Absorbed)
Ground
20 Amps
Hot Side (Heat Rejected)
© 2008 ANSYS, Inc. All rights reserved.
9
ANSYS, Inc. Proprietary
Thermoelectric Cooler • Thermoelectric Results – Thermal gradient in Peltier blocks
Electric Potential
Cold Side (Heat Absorbed)
Hot Side (Heat Rejected) Temperature © 2008 ANSYS, Inc. All rights reserved.
Current Density
10
ANSYS, Inc. Proprietary
Thermoelectric Cooler • Optimization – Response surface and sensitivity
© 2008 ANSYS, Inc. All rights reserved.
11
ANSYS, Inc. Proprietary
© 2008 ANSYS, Inc. All rights reserved.
1
ANSYS, Inc. Proprietary
Spray Cooling of a Hot Surface with Water Droplets • Droplets Colored by Diameter (splashing) • Surface Colored by Temperature • Planar Cut Shows Concentration of Water Vapor
• • • • •
Spray Angle Flow Rate Droplet Size Initial Droplet Speed Droplet Material and Properties
© 2008 ANSYS, Inc. All rights reserved.
2
ANSYS, Inc. Proprietary
Micro Channels • Very Small Hydraulic Diameters ~ 100 m • Very High Heat Transfer Coefficient (10,000 < h < 100,000 w/m2K) • But Very High Pressure Drop!
parallel flow counter flow
© 2008 ANSYS, Inc. All rights reserved.
3
ANSYS, Inc. Proprietary
Heat Pipes
• Passive Device of Very High “Effective” Thermal Conductivity • Heat is Transferred By: – Evaporation (evaporator section) – Convection (adiabatic section) – Condensation (condenser)
liquid vapor
evaporator © 2008 ANSYS, Inc. All rights reserved.
adiabatic 4
condenser ANSYS, Inc. Proprietary
Heat Pipes Case Study
liquid flow
vapor flow
Pressure
Temperature
Vadakkan et al. “Transient Analysis of flat heat pipes”, SHTC, HT2003-47349
© 2008 ANSYS, Inc. All rights reserved.
5
ANSYS, Inc. Proprietary
Multiphysics Cooling Systems
© 2008 ANSYS, Inc. All rights reserved.
6
ANSYS, Inc. Proprietary
Piezoelectric Fan • Piezoelectric Fan – Spot cooling for electronic components – Low magnetic permeability – Blade driven by piezoelectric bimorph Bimorph
Blade
FR4 Board Two piezoelectric layers with opposing polarity
Finite Element Mesh © 2008 ANSYS, Inc. All rights reserved.
7
ANSYS, Inc. Proprietary
Piezoelectric Fan
• Results – Fan Driven at Resonance – 115Volts at 60 Hz Fixed
© 2008 ANSYS, Inc. All rights reserved.
+Vin
8
ANSYS, Inc. Proprietary
Thermoelectric Cooler • Multistage Thermoelectric Cooler – Thermal-electric coupling • n-type and p-type semiconductors Cold Side (Heat Absorbed)
Ground
20 Amps
Hot Side (Heat Rejected)
© 2008 ANSYS, Inc. All rights reserved.
9
ANSYS, Inc. Proprietary
Thermoelectric Cooler • Thermoelectric Results – Thermal gradient in Peltier blocks
Electric Potential
Cold Side (Heat Absorbed)
Hot Side (Heat Rejected) Temperature © 2008 ANSYS, Inc. All rights reserved.
Current Density
10
ANSYS, Inc. Proprietary
Thermoelectric Cooler • Optimization – Response surface and sensitivity
© 2008 ANSYS, Inc. All rights reserved.
11
ANSYS, Inc. Proprietary
