example 17 4   

number of units out 0 ,capacity out 0MW ,capacity available 200MW ,probability 0.9223682 
number of units out 1 ,capacity out 50MW ,capacity available 150MW ,probability 0.0752954 
number of units out 2 ,capacity out 100MW ,capacity available 100MW ,probability 0.0023050 
number of units out 3 ,capacity out 150MW ,capacity available 50MW ,probability 0.0000314 
number of units out 4 ,capacity out 200MW ,capacity available 0MW ,probability 0.0000002  
    

number of units out 0 ,capacity out 0MW ,capacity available 200MW ,probability 0.922368 ,tg in persentage 0.00 ,expected load 0.000000MW
number of units out 1 ,capacity out 50MW ,capacity available 150MW ,probability 0.075295 ,tg in persentage 0.00 ,expected load 0.000000MW
number of units out 2 ,capacity out 100MW ,capacity available 100MW ,probability 0.002305 ,tg in persentage 41.67 ,expected load 0.096040MW
number of units out 3 ,capacity out 150MW ,capacity available 50MW ,probability 0.000031 ,tg in persentage 83.33 ,expected load 0.002613MW
number of units out 4 ,capacity out 200MW ,capacity available 0MW ,probability 0.000000 ,tg in persentage 125.00 ,expected load 0.000020MW

expected loss of load is 0.098673MW percent of time. assuming 365 days in a year, then expected loss of load is 0.360MW days per year ,some times the loss of load is also expressed as reciprocal of this figure and then the units are years per day this result is 2.7766MW years per day.