How to determine the tilt angle of photovoltaic modules?

What is the correct angle for tilting photovoltaic modules? This is a simple question and at the same time a mystery that permeates the world of solar energy.

If you have a roof the answer couldn't be more straightforward: the pitch angle is the same as your roof. If you are unhappy with your roof or are going to have a new one photovoltaic installation on a slab, or on the ground, then you will have to continue looking for the answer.

After all, what is the best tilt angle for photovoltaic module? How to calculate?

First, let's keep one thing in mind: we would like the front surface of the solar could always face the sun's rays (i.e., perpendicular to the direction of the rays).

Obviously this requires a tracking system, since the position and trajectory of the Sun in the sky change throughout the hours, days and months of the year. But in this case, we are talking about the fixed systems, in which we must choose one fixed tilt angle, which cannot be changed.

Let's use some basic geometry in the figure below. The illustrated situation shows what happens on the summer solstice in the southern hemisphere (21/12). On this day, solar declination is maximum and the Sun describes its highest trajectory in the sky.

At any point at latitude L, the solar module needs to be tilted at an angle of L-23,45°. Following similar reasoning, we can conclude that on the winter solstice (21/06) the module must be tilted at an angle L+23,45°.

The angle 23,45° corresponds to the declination of the Earth's axis of rotation (North-South axis) in relation to the axis of the translational movement around the Sun. This declination is responsible for the seasons of the year and also has the consequence of variation in the height of the solar path on different days of the year.

In summary, for a given latitude L the best tilt angle at summer solstice (when the solar altitude is maximum) would be L-23,45°. At the winter solstice (when the solar altitude is minimum) the angle should be L+23,45°. To prioritize energy generation throughout the summer (and not just at the solstice) the recommended inclination angle is L-15°, while in winter it is L+15°.

The number 15°, added or subtracted from the latitude angle L, is recommended by many authors because it is approximately the average value between the minimum and maximum Solar declination angles, between the equinoxes and the solstices. In fixed systems, in order not to privilege any day, month or season of the year, the general rule is to tilt the modules with their own latitude angle L.

This rule, however, does not replace generation analysis carried out using software such as PVSyst based on historical solarimetric data. There are climatic factors, and not only geometric ones, which affect the correct choice of the inclination angle in photovoltaic systems.

The following figures show inclination angles suggested by the PVSyst software in the city of Campinas-SP, with a South latitude of approximately 23°.

The following situations were considered: constant energy generation throughout the year (slope = 23°), higher generation in summer (slope = 23°-15°) and higher generation in winter (slope = 23°+15°).

A general rule is to always orient the modules to the North (in the Southern Hemisphere) and tilt with the latitude angle, but the general rule does not always apply and graphs like the one shown below can be obtained with an advanced optimization analysis in PVSyst for the location where the solar plant is intended to be installed.

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The ideal angles for installing a photovoltaic module may vary depending on the climate and terrain of the location. The following graph, prepared with the PVSyst advanced optimization tool, relates inclination, azimuth and energy production. The third dimension of the graph is represented by the color map.

The graph shows that the best way to install a photovoltaic module in this location is with an azimuth of 7,5° (East) and inclination of 23,8°. The suggested tilt angle is very close to the latitude angle.

Um interesting fact in this graph is that the suggested azimuthal orientation is not zero, that is, the solar s should not be facing exactly the geographic North in Campinas.

Conclusion

A good rule of thumb to follow is tilt the modules with the same latitude angle as the location to guarantee the better performance of the photovoltaic system, with approximately constant energy production throughout the year, without favoring any particular time of year.

In other words, if your city has a latitude angle of 23°, a good idea is to tilt the photovoltaic module at this same angle in relation to the horizontal plane.

Don't worry about accuracy: a few degrees more or less won't make a difference. It is not always possible to tilt the modules at the exact desired angle, depending on the tilt solution you are going to use.

If you want to produce more energy in summer, a good idea is subtract 15 degrees from your latitude. For example, in Campinas (latitude = 23°) it would be recommended to tilt the modules at 8°. If you want produce more energy in winter, one option would be to add 15 degrees of your latitude (that is, an inclination of 38° in Campinas).

But the rule is not always valid, as the correct tilt angle for solar modules depends on climatic and geographical factors. Furthermore, the rule does not apply to modules that are not oriented towards the geographic North.

The general rule is also not valid for solar plants with modules arranged in very close rows, as in this case the mutual shading factor of the rows must be considered.

The best performance of the solar plant depends not only on the angle of inclination of the modules, but also on the spacing between them.

Regardless of any rule followed, the correct installation angle of the photovoltaic modules of a photovoltaic system can only be accurately determined from an advanced simulation in software such as PVSyst.

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These programs provide more in-depth insights into module tilt, as well as addressing other issues relevant to efficiency and maximizing solar energy production.

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