Based on historical 36467 data, solar panels that are tilted towards the equator at an angle equal to the latitude will produce the maximum solar energy output in 36467.[1]
The region associated with 36467 has an average monthly Global Horizontal Irradiance (GHI) of 4.72 kilowatt hours per square meter per day (kWh/m2/day), which is approximately 3% greater than the average monthly Direct Normal Irradiance (DNI) of 4.59 kWh/m2/day. [1]
Solar installations in 36467 that are always titled at the latitude of Opp (Average Tilt at Latitude or ATaL) average 5.27 kWh/m2/day, or about 12% greater than the average monthly GHI of 4.72 kWh/m2/day and approximately 15% greater than the average monthly DNI of 4.59 kWh/m2/day. [1]
Solar Energy Glossary
Global Horizontal Irradiance (GHI)
Global Horizontal Irradiance: The total amount of solar radiation that is received per unit area by a surface that is always positioned in a horizontal manner.
Direct Normal Irradiance (DNI)
Direct Normal Irradiance: The total amount of solar radiation received per unit area by a surface that is always perpendicular to the sun rays that come in a straight line from the direction of the sun at its current position in the sky.
Average Tilt at Latitude (ATaL)
Average Tilt at Latitude: The total amount of solar radiation received per unit area by a surface that is tilted toward the equator at an angle equal to the current latitude. ATaL will often produce the optimum energy output.
Solar Radiation Levels in 36467
Solar Radiation Data in 36467
See the chart below for monthly solar radiation levels in 36467.
* Amounts listed in kWh/m2/day (kilowatt hours per square meter per day)
Solar Radiation Analysis for 36467
The region associated with 36467 has a average annual solar radiation value of 5.42 kilowatt hours per square meter per day (kWh/m2/day). [1]
The month with the highest historical solar radition values in 36467 is April with an average of 5.85 kWh/m2/day, followed by March at 5.75 kWh/m2/day and May at 5.74 kWh/m2/day. [1]
The three months that historically average the lowest average solar radiation levels in 36467 are December with an average of 4.54 kWh/m2/day, followed by January with an average of 4.89 kWh/m2/day and February at 5.17 kWh/m2/day. [1]
Solar Power Comparison: 36467 vs. the U.S.
Solar Power Levels in 36467
The average monthly solar radiation level in 36467, of 5.42 kilowatt hours per square meter per day (kWh/m2/day) is approximately 38% greater than the average level of 3.93 kWh/m2/day in a city with historically low levels (WA) and is approximately 18% less than the average level of 6.61 kWh/m2/day in a city with historically high levels (NV). [1]
→ Values listed as 0 (zero) are not available (N/A).
Solar Power: 36467 vs. the U.S.
Below is a month-by-month comparison of how average 36467 solar radiation levels compare to average levels in a city with historcially high levels (NV) and a city with historically low levels (WA). [1]
→ k/m/d = kWh/m2/day = kilowatt hours per square meter per day.
→ Values listed as 0 (zero) are not available (N/A).
We do not have data on solar panel installations in ZIP Code 36467 at the current time.
Solar Power Output in 36467
The Power of Solar in 36467
Monthly AC solar system output averages for 36467. Month-by-month solar power, as ranked by AC output, in 36467. [2]
* Amounts listed in kWhac (kilowatt hours (AC))
Solar Output Analysis for 36467
36467 has a average annual solar AC output value of 5892.56 kilowatt hours (AC). [2]
The month with the highest historical solar power output in 36467 is March with an average of 534.12 kWhac, followed by April at 525.54 kWhac and May at 524.91 kWhac. [2]
The three months that historically average the lowest average solar output levels in 36467 are December with an average of 437.58 kWhac, followed by February with an average of 447.16 kWhac and January at 466.5 kWhac. [2]
The ZIP code 36467 is associated with the city of Opp in Covington County in Alabama.
36467 Solar Energy & Power
To learn more about solar energy and solar power in 36467, or for more solar-related resources for AL, check out the U.S. Energy Information Administration.
Did you know?
Solar cells convert sunlight into electricity through a physical process known as the photovoltaic effect.