SOLAR SYSTEMS IN THE REGION

As shown on the map in Hatay, according to the average solar radiation value regions 1500 Kw/m2 to 1750 Kw/m2. 

If we're going to do a production account, roughly: 

650 m 2 constructed a facility to: 

Power may be generated from this field = The annual rate of solar radiation x Plant area x Module efficiency 

Our region is the minimum ratio of solar radiation for a field: 

Annual electricity generation = 1500 x 650 x 0.20 = 195.000Kw 

Our region is the maximum ratio of solar radiation for a field: 

Annual electricity generation = 1750 x 650 x 0.20 = 227.500Kw 

Here is an example of the power of the system to be established through a panel, if we compute: 

Panel Size: 1650mm X 1000mm = 1.65m2 

Panel Power : 250W/p 

Number of Panel: 650/1.65 = 400 PCS panels 

System Power: 400 x 250 = 100.000W/h

The quality of the panel quality, used in the inverter, due to factors such as the conductive quality, ghosting, angle the system will be a loss of 10%-20%r.

So it appears we've reestablished a system 100 Kw/h a year here as we have a production between Kw and 156,000 204.500 Kw. In connection with the distribution company according to the law of RES according to an agreement, we can produce electricity 13.3 $ cent system through. 

This return is: 

 Min : 156.000 X 0.133 = 20.750$ 

 Max : 204.500 X 0.133 = 27.200$

System life cycle an average of 35-40 years. 

(100 Kw/h is a power plant with 116.370 EURO 95.130 EURO system cost.)