Le Photovoltaïque.

Le Réveilleur
26 Jul 201835:02

Summary

TLDRThis educational video explores whether photovoltaic solar panels are a credible way to produce electricity. It provides an in-depth look at how crystalline silicon solar panels work, their energy return on investment, lifecycle analyses, recycling potential, and more. The host concludes that while panels are improving and costs dropping, solar intermittency limits very high penetration rates without storage and grid upgrades. Yet solar PV could still provide up to 20% of global electricity by 2050.

Takeaways

  • 😀 The sun provides an enormous amount of energy to the earth, 174,000 terawatts at the top of the atmosphere.
  • ☀️ Photovoltaic panels convert sunlight directly into electricity using semiconductors like silicon in PV cells.
  • 🌞 Crystalline silicon PV panels have energy payback times around 3 years and lifetimes of 30+ years.
  • 🔆 Solar PV met less than 1% of global energy demand but grew exponentially and may reach 16% of electricity by 2050.
  • 🚀 PV panel efficiency continues to slowly increase, now reaching 25% in lab tests with room for improvement.
  • 🌄 Solar PV correlates with electricity peak demand from AC in sunny regions unlike wind.
  • 💡 Solar PV reductions in manufacturing costs lead to cheaper cleaner energy over time.
  • ☁️ Intermittency requiresstorage, source flexibility & grid upgrades to balance high penetrations of PV.
  • 🌍 Solar PV displaces fossil fuels reducing emissions but careful siting optimizes climate benefit.
  • 🏠 Rooftop PV decentralizes electricity generation empowering consumers.

Q & A

  • What is the energy payback time for polycrystalline solar panels?

    -The energy payback time for polycrystalline solar panels is around 3 years, meaning it takes about 3 years for the panels to generate the same amount of energy that was used to produce them.

  • What percentage of the energy reaching Earth's atmosphere is directly reflected?

    -30% of the energy reaching the top of Earth's atmosphere is directly reflected.

  • What are the main differences between monocrystalline and polycrystalline solar panels?

    -The main differences are: 1) Monocrystalline panels are black while polycrystalline panels are blue; 2) Monocrystalline panels are slightly more efficient but polycrystalline handles heat better, making them advantageous in hot regions.

  • Why is silver consumption an issue for the expansion of photovoltaics?

    -Silver makes up the electrical contacts in solar panels. The current small photovoltaic market already accounts for 8% of global silver demand. Expanding photovoltaics could quickly make silver extraction a limiting factor.

  • What percentage of global electricity could photovoltaics provide by 2050 according to International Energy Agency projections?

    -The International Energy Agency projected in 2014 that photovoltaics could provide 16% of global electricity production by 2050.

  • What is a key advantage of concentrating solar power technologies?

    -Concentrating solar power uses lenses to focus sunlight onto small, highly efficient solar cells. This means less semiconductor material is needed for the same energy output.

  • Why might the energy payback time be lower than suggested in some studies?

    -Some studies don't account for all the embedded energy costs like transportation, maintenance, recycling, etc. If those are not needed for a particular installation, the payback time would be shorter.

  • How might photovoltaics help mitigate climate change?

    -By displacing fossil fuel energy sources which emit high levels of greenhouse gases. The climate benefit increases if the panels are manufactured using low-carbon energy sources.

  • What percentage of energy used worldwide does electricity constitute?

    -Electricity constitutes less than one fifth of total energy use worldwide.

  • What are the main barriers to faster deployment of solar photovoltaics?

    -The intermittency requiring storage and grid upgrades, economic and political factors, and the more diffuse nature requiring more materials per unit energy than other sources.

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