Solar Panel Technology
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Questions and Answers

What is the thickness of the glass on FLASH and SPRING panels?

  • 3.2mm
  • 5mm
  • 4mm
  • 2.8mm (correct)
  • What is the primary cause of degradation in solar panels during the first year of use?

  • Water damage
  • Mechanical stress
  • Light-induced degradation (correct)
  • Overheating
  • What is the formula used to calculate the amount of heat provided by DualSun SPRING panels?

  • PV=nRT
  • F=ma
  • E=mc²
  • Q=mCpT (correct)
  • What is the tension of impulse or shock resistance of FLASH Shingle 375 panels?

    <p>16,000V</p> Signup and view all the answers

    What technology is used in FLASH and SPRING panels to provide better efficiency, resistance, and appearance?

    <p>Shingle cells</p> Signup and view all the answers

    What is the process involved in manufacturing Shingle cells?

    <p>Laser cutting, cell placement, and string formation</p> Signup and view all the answers

    What is the primary factor that affects solar panels due to oxygen in the silicon wafer?

    <p>Light-induced degradation</p> Signup and view all the answers

    What is the calorific capacity of water-salt or chlorine?

    <p>4 J.kg-1.K-1</p> Signup and view all the answers

    What is the risk associated with traditional interconnection methods?

    <p>Cell cracking</p> Signup and view all the answers

    How long has the LID phenomenon been known in the industry?

    <p>Over 20 years</p> Signup and view all the answers

    Study Notes

    1. The production of DualSun SPRING panels is directly linked to daily hot water consumption.
    2. DualSun's NOCT panels have improved photovoltaic characteristics in realistic test conditions.
    3. The glass thickness of FLASH and SPRING panels is 2.8mm and 3.2mm for other panels.
    4. Shingle technology in FLASH and SPRING panels provides better efficiency, resistance, and appearance.
    5. Shingle cells have a lower intensity per cell, reducing Joule losses and improving temperature performance.
    6. The Shingle manufacturing process involves laser cutting, cell placement, and string formation.
    7. Shingle panels have a unique circuit that reduces the risk of hotspots and improves efficiency in shading.
    8. The interconnection process in Shingle panels reduces internal mechanical stress.
    9. Traditional interconnection methods have a higher risk of cell cracking.
    10. Shingle technology uses a conductive adhesive that polymerizes at a lower temperature.
    • The text discusses non-linear loss in value over time.
    • During the first year of use, there is typically a degradation rate of 1 to 2.5%.
    • This is primarily due to light-induced degradation.
    • The LID phenomenon affects solar panels due to oxygen in the silicon wafer.
    • The amount of heat provided by DualSun SPRING panels can be calculated using the formula Q=mCpT.
    • The inputs required for the formula are the temperature difference, fluid volume, and fluid's calorific capacity.
    • The formula calculates the amount of heat in joules.
    • The mass of fluid is denoted by Dhutilisation.
    • The calorific capacity of water-glycol is 3.5 J.kg-1.K-1, and water-salt or chlorine is 4 J.kg-1.K-1.
    • The tension of impulse or shock resistance of FLASH Shingle 375 panels is 16,000V.
    • The tension of impulse is also known as the tension of shock resistance.
    • The LID phenomenon has been known in the industry for over 20 years.
    • The LID phenomenon occurs in the first few hours of solar panel exposure to sunlight.

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    Description

    Test your knowledge on solar panel technology with this quiz! Learn about DualSun's innovative SPRING and FLASH panels, as well as the benefits of shingle technology. Discover the science behind light-induced degradation and how to calculate the amount of heat produced by SPRING panels. Challenge yourself with questions on shock resistance, interconnection methods, and more. Expand your understanding of solar panel technology with this informative quiz!

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