How Much Power Can You Really Get from a Solar Panel? – LensunSolar
How Much Power Can You Really Get from a Solar Panel?

How Much Power Can You Really Get from a Solar Panel?

How Much Power Can You Really Get from a Solar Panel?

How much power you can get out of a given panel? We think lots of people think you can get what the manufacture rates the power at but unfortunately your highly unlikely to ever get that amount of power from the panel.

We found that in the process of selling solar panels. We regularly get asked why “my new 100 Watt panel is producing 60W 70W, is something wrong?” The short answer is NO, but let’s look at why this happens across the solar industry.

Solar panels are tested under Standard Test Conditions (STC), which represent lab-controlled environments with optimal conditions that are difficult to replicate in real-world situations. Let’s explore why your panel often produces less power than its rated output.

What Are Standard Test Conditions (STC)?

STC refers to the specific testing environment solar panels are subjected to before leaving the factory:

  • Temperature: 25°C (77°F), which refers to the temperature of the solar cell, not the surrounding air.
  • Solar Irradiance: 1000 watts/m², representing intense sunlight hitting the panel directly.
  • Air Mass: 1.5, which measures the amount of atmosphere sunlight passes through to reach the panel.

These conditions represent a clear, sunny day with the sun directly overhead, which is rarely encountered in everyday use.

The following is testing of a Lensun 200w solar blanket.

150W Flexible Solar Panel EL Test

 

Why Real-World Conditions Differ from STC

In real-life situations, several factors affect solar panel efficiency:

  • Temperature: As temperatures rise, solar panel efficiency drops. Hot days reduce power output compared to cooler conditions.
  • Sunlight Angle: The sun is rarely at the ideal angle throughout the day. In winter, the sun sits lower on the horizon, reducing sunlight intensity.
  • Atmospheric Conditions: Air pollution, clouds, and humidity can also diminish solar energy before it reaches the panel.
  • Shading & Dirt: Shadows from trees or buildings, and dirt buildup on the panel surface, can further reduce power generation.

Real-World Output

Due to these factors, you can expect a solar panel to operate at about 60% to 75% of its rated capacity under real-world conditions. For instance, a 100W panel may produce 60W-75W in direct sunlight on a typical day. This output decreases further when there’s cloud cover, dirt, or improper panel positioning.

Adjusting Expectations

It’s crucial to understand that real-world performance differs from lab ratings. Some manufacturers are now including both rated and “true” wattage outputs to give customers a clearer idea of what to expect. Just like how cars have different fuel efficiency ratings for highway vs. city driving, solar panels perform differently in lab conditions vs. real life.

The Bright Side

While real-world conditions typically reduce efficiency, there are rare cases where panels can exceed their rated output. In environments with cold temperatures, clear skies, high altitudes, and perfect sun alignment, a solar panel can generate more power than its stated rating.

Conclusion

While solar panels are a fantastic renewable energy source, understanding their real-world performance is key. Expect to see 60% to 75% of the rated power output in most conditions, with efficiency varying depending on location, weather, and maintenance. With this knowledge, you can make more informed decisions about your solar investment and get the best results.

If any question or advice, Please contact us or call us in the following information from Mondays to Fridays.

Any wholesale request just call us or email us, thanks.

Contact information
https://lensunsolar.com/
Tel: US +1 720-608-1288
China: +86 15759769602
Whatsapp:  +86 15759769602
Skype: lensunsolar
Email: info@lensunsolar.com, lensunsolar@gmail.com

 

Poste un commentaire

Veuillez noter que les commentaires doivent être approuvés avant leur publication