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example 17 3
number of units out 0 ,capacity out 0MW ,capacity available 200MW ,probability 0.814506
number of units out 1 ,capacity out 50MW ,capacity available 150MW ,probability 0.171475
number of units out 2 ,capacity out 100MW ,capacity available 100MW ,probability 0.013538
number of units out 3 ,capacity out 150MW ,capacity available 50MW ,probability 0.000475
number of units out 4 ,capacity out 200MW ,capacity available 0MW ,probability 0.000006
number of units out 0 ,capacity out 0MW ,capacity available 200MW ,probability 0.814506 ,tg in persentage 0.00 ,expected load 0.000000MW
number of units out 1 ,capacity out 50MW ,capacity available 150MW ,probability 0.171475 ,tg in persentage 0.00 ,expected load 0.000000MW
number of units out 2 ,capacity out 100MW ,capacity available 100MW ,probability 0.013538 ,tg in persentage 33.33 ,expected load 0.451205MW
number of units out 3 ,capacity out 150MW ,capacity available 50MW ,probability 0.000475 ,tg in persentage 66.66 ,expected load 0.031664MW
number of units out 4 ,capacity out 200MW ,capacity available 0MW ,probability 0.000006 ,tg in persentage 100.00 ,expected load 0.000625MW
expected loss of load is 0.483493MW percent of time. assuming 365 days in a year, then expected loss of load is 1.765MW days per year
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