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Solar Thermal Air Conditioner. Design Team 8. Introduction. Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 2 of 30. Team 8: Chris DesRoches Patricia Duncan James Mills Amanda Wiseman Supervisor: Dr. Dominic Groulx. Outline. Introduction
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Solar Thermal Air Conditioner Design Team 8
Introduction Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 2 of 30 Team 8: • Chris DesRoches • Patricia Duncan • James Mills • Amanda Wiseman Supervisor: • Dr. Dominic Groulx
Outline • Introduction • Background • Problem Definition • Design • System • Construction • Testing • Testing System • Results • Conclusion • Acknowledgements
Background Information Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 4 of 30 Energy Use in a Typical Home Source: http://www.energystar.gov/index.cfm?c=products.pr_pie
Background Information Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 5 of 30 • Solar technology is improving • Evacuated tube panels can be up to 70% efficient, produce temperatures up to 170˚C
Problem Definition Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 6 of 30 • Design a solar powered air conditioner • Goals: • Provide 1.76 kW of cooling • Minimum system COP of 0.4 • Maximum size of 125 L • Maximum weight of 40 kg
Problem Definition Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 7 of 30 Theoretical tie-in to existing system:
Design Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 8 of 30 • Ammonia Absorption Cooling System • Cooling System Components • Generator • Condenser • Evaporator • Absorber
Design Final design: Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 9 of 30
Solar Simulator Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 10 of 30
Construction Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 11 of 30 • Fabrication of helical heat exchanger for generator
Construction Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 12 of 30 • Assembly/charging of system completed by certified technician
Construction Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 13 of 30 • Construction of testing system Relief Valve Pump Flow Meter Expansion Tank Immersion Heater Generator Insulation Steam Hose Valves and fittings Pressure Gauge
Budget Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 14 of 30 • Proposed budget: $2700
Testing Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 15 of 30 • 300 W electrical resistance heater • Absorption refrigeration conventionally uses propane flame • Thermocouples on 8 points
Testing Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 16 of 30 • Transient Response • Condenser indicated tipping point of system at 50 ˚C • Quick response due to instantaneous electrical input
Testing Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 17 of 30 • Lowest temperature recorded -25˚C
Testing Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 18 of 30 Response with forced air:
Testing Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 19 of 30 • Average COP: 0.67 • Average Cooling: 221.76 W
Testing Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 20 of 30 • Glycol input
Testing Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 21 of 30 • Glycol input • Slope: 1.0 °C/min • Condenser maximum: 28°C
Testing Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 22 of 30 • Glycol input • Slope: 1.67 °C/min • Condenser maximum: 43°C
Design Summary Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 23 of 30
Design Summary Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 24 of 30
Recommendations Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 25 of 30 • Research into ammonia absorption cooling cycle to increase efficiency • More precise testing system able to achieve high temperatures
Recommendations Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 26 of 30 • Optimize design of generator heat exchanger to improve heat transfer
Conclusion Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 27 of 30 • Cooling system met many goals with electric input, but solar tests were not successful • Solar thermal power is not feasible to run a/c effectively with current technology • Ammonia system is inefficient compared to current technology
Acknowledgements Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 28 of 30 • Dalhousie University • Faculty of Mechanical Engineering • Dr. Dominic Groulx • Dr. Julio Militzer • Dr. Peter Allen • LAMTE Grad Students • NSCC • Dr. Alain Joseph • Kevin O’halloran • Joao Antunes
Acknowledgements Solar Air Conditioner Introduction Design Testing Conclusion 5 April 2012 Team 8 Slide 29 of 30 • Absorption Refrigeration Services of Canada • Dave Fraser • Efficiency Nova Scotia • Shell
