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Solar Stirling Engine for Remote Power Generation

Solar Stirling Engine for Remote Power Generation. Denisse Aranda. Kevin LaMott. Stephen Wood. Advisor: Dr. Tao. Overview. Problem Statement Trade Studies and Design Alternatives Project Formulation Conceptual Design Prototype Specification Timeline and Division of Responsibilities.

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Solar Stirling Engine for Remote Power Generation

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  1. Solar Stirling Engine for Remote Power Generation Denisse Aranda Kevin LaMott Stephen Wood Advisor: Dr. Tao

  2. Overview • Problem Statement • Trade Studies and Design Alternatives • Project Formulation • Conceptual Design • Prototype Specification • Timeline and Division of Responsibilities

  3. Problem Statement The political, economical, environmental concerns over traditional fossil fuel power generation have led to an overwhelming amount of innovation and research into cleaner renewable sources. Of the existing sources of renewable energy, the most promising is the sun. It is the most abundant source of energy on the planet and it is a phenomenal source of light and heat. Scientific American magazine states, “The energy in sunlight striking the Earth for 40 minutes is the equivalent to global energy consumption for one year.”

  4. Design Alternatives :Solar Collectors Parabolic Mirrors Fresnel Lens The scale is based on a scale on 1 – 5, where 5 is the most desirable based on the metric that are required for this project.

  5. Design Alternatives:Solar Conversions Photovoltaics Brayton Cycle Stirling Engine The scale is based on a scale on 1 – 5, where 5 is the most desirable based on the metric that are required for this project.

  6. Design Alternatives:Types of Stirling Engines Alpha Beta Gamma The scale is based on a scale on 1 – 5, where 5 is the most desirable based on the metric that are required for this project.

  7. Project Formulation • A Stirling Engine of Beta configuration should generate up to 25 kW during peak performance • Fresnel lens should concentrate approximately 100 kW on solar energy on the hot end of the engine • Efficient conversion between mechanical energy to electrical energy

  8. Initial Conceptual Design

  9. Current Conceptual Design

  10. Prototype Specification • Fresnel lens should concentrate over 1kWh • Hot End Temperature 250˚F • Cold End Temperature 100˚F • Efficiencies 25 – 35 %

  11. Timeline & Division of Responsibilities

  12. Conclusion • A conceptual design and prototype of a Stirling engine of Beta configuration that uses a Fresnel lens for a solar collector will generate 25 kW of power for use in solar plant or to provide power for remote areas and disaster relief.

  13. Any Questions ?

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