Download - Solar Desiccant Air Conditioning Arian Nadertabar Diego Guardia Javier Borrase Rick Parra
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Solar Desiccant Air Conditioning
Arian NadertabarDiego GuardiaJavier Borrase
Rick Parra
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External Parameters
• Outdoor Temperature• Indoor Temperature• Outdoor Relative Humidity• Indoor Relative Humidity
*How big is the space you are attempting to cool?
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Desiccant Wheel• Desiccants (also known as hygroscopic
substances) can be solid or liquid• Silica Gel• Rotates Slowly• Takes in warm humid air on the supply inlet
(bottom)• Takes in hot humid air from the reactivation
inlet (top)• Regenerates at high temperatures (250
degrees F)
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Desiccant Wheel
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Thermal Wheel
• Lower Chamber: Recovers thermal energy from the dried (processed) air which had run through the desiccant
• Lower Chamber: Cools processed supply air• Top Chamber: Preheats the reactivation air
that will be used to regenerate the desiccant
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Air to water heat exchanger (Radiator)
• Passes thermal energy from the solar heated water to the preheated air from the thermal wheel
• Water Glycol Solution or pure glycol?
Water-Glycol Solution: 5% Water, 95% Glycol
Constraint: Water boils at 212 degrees Fahrenheit
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Solar Panel:
• Solar apparatus acts as a solar water heater• Is the use of the solar panel economically
feasible?• Heat source can come from anything
theoretically (i.e. heating coil)
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Miscellaneous
• 80 Degree Air with R.H. of 60 % with Soaked Pad at 70 degrees could yield 75 degree air with R.H. of 76 %.
• 85 Degree Air with R.H. of 60 % with the same conditions would yield 75 degree air with R.H. of 111 % (impossible!!!)
• Dry air 85 degrees Fahrenheit good candidate for evaporative cooling for terminal stage of the supply chamber.
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Conclusion
• Difficult to Model• Difficulty of achieving steady-state • Assume Steady State for calculations
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Questions?