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Openai/67d9ce0c-64a4-8006-9fa5-0272ee2e5770
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===== #### ===== # Light Concentration with Convex Lenses - A 20m × 20m convex lens focuses sunlight onto a 10m × 10m solar panel. - This increases light intensity by a factor of 4 (concentration ratio). - The solar panel receives 3,200 W/m² instead of the usual 800 W/m². - Assuming a 25% efficiency, the panel generates 80,000 W (80 kW) instead of 20 kW. # Total Internal Reflection (TIR) Enhancement - Using a rod-like solar panel design, light undergoes multiple reflections, increasing the chance of photon absorption. - One-way mirrors are added to reflect escaped photons back into the depletion region. - Prisms dynamically adjust based on the Schrödinger equation to optimize light wavelength absorption. - Expected improvement in efficiency: +20% (conservative estimate). # Heat Extraction & Usage in Silicon Production - Excess heat from solar panels is redirected via tunnels to a furnace used for converting sand into silicon. - Heat Captured: 144 kW per panel setup (after 60% efficiency in transfer). - Furnace requires 21.94 MWh/day for processing 50,000 kg of sand/day. - Our system contributes 0.144 MWh/day. - Annual savings in electricity costs: $2,628. # Large-Scale Deployment for Egypt - Assuming 1,600 km² of solar panels (realistic large-scale deployment in the Sahara). - Expected daily output: 1.92 million MWh/day. - Annual output: 700.8 million MWh/year. - Egypt's current electricity demand: 186 million MWh/year. - Our project can cover 376% of Egypt's energy needs. # Revenue Projections - Selling electricity at $50/MWh. - Annual revenue: $35.04 billion USD.
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