What is the optimal angle for a PV system?

In all years and in all regions the optimal azimuth is pointing south (180 ± 3°) and optimal tilt angles are between 30° and 45° depending on the latitude of the site. Fig. 4 shows a comparison of the influence of installation angles on the output and on the spot market value of a PV system in Vienna for spot market prices of the year 2012.

How can angle combinations benefit a PV system?

Angle combinations that aim at maximizing the output of a PV system throughout the year will still lead to almost minimal generation costs of the whole system in the medium term.

Does adapting PV installation angles reduce electricity generation cost?

This paper evaluates the trade-off between annual energy losses and possible electricity generation cost reductions through adapting PV installation angles for the current electricity system and for potentially higher PV penetration levels in the future.

How do cost minimizing angles affect PV production?

In other regions, the cost minimizing angles for low PV penetration levels can show a tendency to point toward south-west to shift production peaks toward the afternoon (cf. Borenstein ).

Will a steeper tilt increase the market value of new PV systems?

For additional PV capacity of up to 70 GW adjustments of the azimuth of PV systems in Austria and Germany toward east (up to 165°) and steeper tilt could slightly increase the market value of new installations.

Does not including capacity costs affect PV installation angles in Austria & Germany?

However, it is argued that not including capacity costs will not affect the choice for installation angles in Austria and Germany as even extremely high shares of PV in the system do not significantly affect peak demand which usually occurs in the evening hours of fall and winter in the absent of sunlight (see Section 4). 15