12 Apr Four steps to optimize solar performance in shaded conditions
Evaluating the impact of shade on the Solar performance is an essential step in solar design.
Solar designers often deal with shading issues like trees, chimneys and other obstructions, especially in the residential market. The question designers often face then is, given these conditions, how do we maximize system performance?
This is not an easy question to answer because shading can affect performance in a nonlinear way. However, an optimal solution can be found by following four steps.
Quantify. What’s the best way to quantify the impact of shading? Solar access measurements are useful as a guide but have limitations because they do not account for system configuration.
Explore. Systems come in countless combinations of size, location and configuration. Designers have several options to mitigate shading losses:
- Use string inverters and string the modules in a manner that minimizes shading losses. In some cases, simply changing the stringing configuration of a system can result in energy boosts of over 10%.
- Increase the DC-to-AC ratio to reduce balance of system costs. Shading results in lower DC power, thus more panels can fit on an inverter without causing significant clipping.
- Explore the use of higher efficiency modules or modules with a higher Voc. A higher power density allows you to make better use of low-shade areas, whereas shorter strings are impacted less by shading.
- Vary the location and size the system. Energy produced at different times of the day can have different values to the client.
Assess. Cost-benefit analysis ultimately leads to the “optimal” system design. But value is not always easy to determine. With time-of-use and tiered rates, the compensation for each kilowatt hour produced by the system can vary greatly. It can sometimes be better to place a system where there is more shade overall, but the system remains unshaded during high-value times. A detailed financial model that can handle these nuances is essential.
Automate. A detailed site assessment takes time. Without the ability to quickly assess a variety of design variants, putting a streamlined process in place is crucial.
We believe software can empower solar designers to make these critical design decisions in an efficient manner.