Sombreado

From Open Source Solar Project
Revision as of 13:34, 10 February 2021 by Alex (talk | contribs) (Created page with "Sombreado")
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Jump to navigation Jump to search
Other languages:
English • ‎español

The amount of energy that a PV system produces has a direct relationship to the amount of sunlight that it receives. Shade therefore has a significant effect upon production. It is ideal for PV modules to be in a location without any shading during the entire day and throughout the year, unfortunately this is often not the case. As the sun rises or falls in the sky, its angle becomes lower and the shadows that are cast become longer, which means that shade is an inevitability in most locations. If a PV module can be kept shade free from 9:00 to 15:00, its production will not be severely affected, but shading during these crucial hours when the sun is at its strongest will cause a significant drop in production. How badly production will be affected will depend upon a few different factors:

  • The intensity of the shade (is it really weak from something in the distance or from something only a few meters away?)
  • How much of the module is shaded
  • What part of the module is shaded

As the sun changes position in the sky throughout the day and throughout the year, it is important to consider shade during the entire year when designing and installing a PV system. Shading issues become more pronounced at higher latitudes. For more information on the position of the sun through the year, see Tilt and azimuth.

Bypass diodes and shading

The cells of a PV module are connected in series. If one part of a part of a series circuit has high resistance or is not performing properly, it becomes a constraint for all of the other parts of the circuit. PV modules have incorporated bypass diodes in their junction boxes which automatically bypass strings of cells that are not performing properly. The current from other modules or other cells within the module will simply bypass the poorly functioning columns. The typical PV module only has three different strings of PV cells, connected along the long axis of the module, with each one having its own bypass diode. This has important consequences for how a PV module performs when there is shade as bypass diodes respond variably depending upon the conditions. Shading along the short-axis (rows) of the module will have a greater impact than shading along the long-axis (columns) of the module

Partial shading and shade intensity

Strong shade and shading that covers an entire PV cell is likely to trigger bypass diodes and will result in a significant loss in PV module production. Weak shading or partial shading on a PV cell may cause overall performance of the module to drop without being strong enough to trigger a bypass diode. A common example may shade resulting from a tree branch is close to the module and provides a thick dark line of shade, it will cause significant problems, but a distant branch causing a faint line of shade will not likely cause much production loss.

Evaluating shade

It can be difficult to evaluate the impact of shading from mountains or trees in another season when evaluating a potential project and this information can be critical when designing a system. There are various tools available that can help perform an analysis of the impact of shade on production throughout the year. The most economical and appropriate for off-grid use is the Solar Pathfinder

Module orientation and shading

If there is strong shading from an obstacle like a mountain to the East (shading in the morning) or West (shading in the afternoon), orienting the panel somewhat in the direction with the better solar resource should be considered in order to maximize production.

Notes/references