Power Plant Engineering
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Power-Plant-Engineering
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- Rs. 1980000.00. Example 4.
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Solution. Total hours = (24 hr) × (30 days) × (11 months) = 7920 hrs
Total energy generated = MW × hr = 100 × 7920 = 7920 × 100 mW hr = 792 × 10 3 kW hr Total cost of energy sold = kW hr × Rs. × kW hr = 792 × 10 3 × 2.5 Rs. = Rs. 1980000.00. Example 4. Calculate annual requirement of lignite (fuel) for a thermal power plant rated 2000 mW under following conditions. Plant rating 2000 mW, Annual load factor = × Energy Delivered Rated power Total hours in year = 0.5 Plant efficiency = Electrical power output Thermal power input = 0.25 Utility factor of fuel = Useful energy in fuel Available energy in fuel = 0.7 Available energy density in coal = 14 mJ/kg. Solution. Total energy delivered in year (mW hr) e = Rated power × Hours × Load factor hours in year = 365 × 24 = 8760 hrs (mW hr) e = 2000 × 8760 × 0.5 = 8760000 NON-CONVENTIONAL ENERGY RESOURCES AND UTILISATION 111 Thermal energy input = Electrical energy output Plant efficiency = 8760000 0.25 = 35040000 (mW hr) t Thermal energy input to plant for one year = 35040000 (mW hr) t Lignite input to plant for one year = (mW hr) (Useful mW/kg) in lignite t Useful energy in fuel per kg = Available energy in fuel × Utility factor = (14 mJ/kg) × 0.7 = 9.8 mJ/kg Lignite input per year = 35040000 (mW hr) t Conversion factor: 1 mW hr = 1 mW × 3600 s = 3600 mW.s = 3600 mJ Lignite required per year = 35040000 × 3600 9.8 = 1.287 × 10 10 kg = 12870 × 10 6 kg Since (1 MT = 1000 kg) = 12870 × 10 Download 3.45 Mb. Do'stlaringiz bilan baham: 
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