Hi I have the 3 dimensional matrix in the code below. I am trying to sum all the 24 elements of "n" for every "number_panels" and "number_turbines" combination.

what I have below doesn't sum across the 3rd dimension

for number_panels = 0:5

```
for number_turbines = 0:2
for n = 1:24 % number of hours per day
hourly_deficit(number_panels + 1, number_turbines + 1, n) = Demand(n) -...
(PV_supply(n)*number_panels) - (WT_supply(n)*number_turbines);
if hourly_deficit(number_panels + 1, number_turbines + 1, n)< 0
hourly_deficit(number_panels + 1, number_turbines + 1, n) = 0;
end
daily_deficit(number_panels + 1, number_turbines + 1) = sum(sum(sum(hourly_deficit(:,:,:))))
hourly_total_RES(number_panels + 1, number_turbines + 1, n) = PV_supply(n)*number_panels + WT_supply(n)*number_turbines;
if hourly_total_RES(number_panels + 1, number_turbines + 1, n) < Demand(n),
renewables_penetration(number_panels + 1, number_turbines + 1, n) = (hourly_total_RES(number_panels + 1, number_turbines + 1, n)) / Demand(n); % ratio of renewable energy supply to demand
else
renewables_penetration(number_panels + 1, number_turbines + 1, n) = 1 ;
end
peak_deficit(number_panels + 1, number_turbines + 1,n) = max(hourly_deficit(number_panels + 1, number_turbines + 1,n));
end
```