ECONOMIC DISPATCH FOR _HVAC USING NOVEL BAT OPTIMIZATION ALGORITHM
Power Demand = 120 MW
Power from Generator 1 = 50 MW
Power from Generator 2 = 20 MW
Power from Generator 3 = 15 MW
Power from Generator 4 = 13.9831 MW
Power from Generator 5 = 10 MW
Power from Generator 6 = 12 MW
Total Power Generated = 120.983 MW
Transmission Power Loss = 0.442399 MW
Total Power Loss = 0.442399 MW
Fuel cost for Generator 1 = $439.493
Fuel cost for Generator 2 = $332.118
Fuel cost for Generator 3 = $339.181
Fuel cost for Generator 4 = $338.27
Fuel cost for Generator 5 = $342.618
Fuel cost for Generator 6 = $319.718
Total Fuel cost = $2111.4
Error = 0.54071 MW
Number of iterrations = 557
Convergence time = 1.85679 seconds
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Power Demand = 150 MW
Power from Generator 1 = 50 MW
Power from Generator 2 = 20 MW
Power from Generator 3 = 24.7441 MW
Power from Generator 4 = 24.1191 MW
Power from Generator 5 = 20.2784 MW
Power from Generator 6 = 12.0047 MW
Total Power Generated = 151.146 MW
Transmission Power Loss = 0.515864 MW
Total Power Loss = 0.515864 MW
Fuel cost for Generator 1 = $454.458
Fuel cost for Generator 2 = $347.083
Fuel cost for Generator 3 = $391.213
Fuel cost for Generator 4 = $392.134
Fuel cost for Generator 5 = $396.199
Fuel cost for Generator 6 = $334.7
Total Fuel cost = $2315.79
Error = 0.6305 MW
Number of iterrations = 992
Convergence time = 1.70579 seconds
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Power Demand = 180 MW
Power from Generator 1 = 50.0003 MW
Power from Generator 2 = 20.0001 MW
Power from Generator 3 = 33.4986 MW
Power from Generator 4 = 35 MW
Power from Generator 5 = 28.1048 MW
