Calculadora de kW para Amperes Logotipo
Calculadora de kW para Amperes
Análise de Rendimento Solar

Rendimento Solar Auditoria

Preveja a produção energética do seu conjunto fotovoltaico. Análise realista considerando as perdas do sistema e a densidade solar geográfica.

Dados do Sistema

Tamanho do Conjunto e Horas de Sol

75% - 80% é típico para sistemas conectados à rede.

Coleta Diária de Energia
kWh

O resultado é atualizado em tempo real à medida que você insere os parâmetros.

kWh
MWh

A Fórmula de Produção

O rendimento da energia solar depende da capacidade nominal do seu conjunto e de quantas horas de sol produtivas sua localização recebe.

Rendimento Energético Diário
kWh/day = kWp × Sun Hours × Eff

kWp é a potência de pico do seu conjunto em quilowatts. A eficiência (normalmente 0,75–0,85) leva em conta as perdas do inversor, do cabo e da temperatura.

Rendimento Anual
Annual kWh = Daily kWh × 365

Use o rendimento anual para calcular a compensação de CO₂, a economia em relação ao custo da eletricidade da rede e o período de retorno do seu investimento solar.

How to Estimate Solar Panel Output

Knowing how much energy your solar system will actually produce is the foundation of any solar investment decision. The theoretical output of your panels (kWp) is always higher than real-world production — temperature, shading, inverter losses, and dust all reduce actual yield. This calculator applies a realistic efficiency factor to give you an honest production estimate.

Performance Ratio: The Key Metric

Performance Ratio (PR) is the ratio of actual energy output to theoretically possible output — the single best measure of a solar system's real-world efficiency. A well-installed system typically achieves a PR of 0.75–0.85. Losses come from inverter conversion (3–5%), cable resistance (1–2%), soiling (2–5%), temperature derating (5–10%), and shading (variable).

Factors That Affect Solar Output

  • Peak Sun Hours: The most location-dependent variable. Phoenix, AZ sees ~6.5 peak sun hours; Seattle, WA averages ~3.5. Use your local solar irradiance data for accuracy.
  • Panel Temperature: Solar panels lose approximately 0.4% of output per degree Celsius above 25°C (STC). A panel at 65°C on a hot day produces ~16% less than its rating.
  • Shading: Even partial shade on one panel can significantly reduce the output of the entire string in traditional string inverter systems. Microinverters or DC optimizers mitigate this.
  • Panel Orientation and Tilt: In the northern hemisphere, south-facing panels at a tilt angle equal to your latitude angle produce the maximum annual yield.
  • Panel Degradation: Panels lose approximately 0.5–0.7% of output per year. A 25-year-old panel typically produces 80–85% of its original rating.

Calculating Solar Payback Period

Divide the total installation cost by the annual electricity savings (Annual kWh × electricity rate). A 5kWp system at $10,000 producing 6,500 kWh/year at $0.15/kWh saves $975/year — a simple payback of about 10.3 years, with 15+ years of free energy afterward.