FACTORS AFFECTING SOLAR SYSTEM PRODUCTION

There are many factors that can affect a solar systems production and output. These factors can include shading, roof orientation, roof pitch and the season. When looking to install a solar system it’s best to keep these in mind so that you can position your system in a way that will give you optimal solar production.

Shading

Shading has a large effect on the performance of a solar power system. Outside the hours of 9am-3pm you can get away with some shading however shading within these hours can have a drastic affect to your solar production and energy savings.

Even partial shading of the system can have a large effect as all panels in a section need to run at the same voltage. If one panel is shaded even partially, this will bring down the production of the whole system. There are ways around this such as splitting the array into multiple strings or using micro inverters on the back of panels.

Always ask your installer when being quoted what effect shading will have and what your options are to combat any shading.

Roof orientation

In the southern hemisphere (Australia), north facing roofs are the best for solar. If your roof isn’t north facing, that’s okay, the loss from facing the system east or west won’t matter too much and you can have your panels placed to suit your high energy usage times.

Roof OrientationProduction Loss
Northno losses
North East/North West7% loss
East/West12% loss
South28% loss
DirectionTime of Day
NorthReceives the most sunlight throughout the day
EastGenerates more energy in the morning and less in the afternoon
WestGenerates more energy in the afternoon and less in the morning
SouthAvoid when possible

Roof inclination

To get the best production from your panels, your roof should be pitched at the same degrees as the latitude of your location.

For example, Brisbane’s coordinates are as follows – Latitude 27°25’S – Longitude 153° 9′ E.
This means that the best roof pitch is 27 degrees which is about what most roofs are.

If your pitch is different to this, don’t worry, for every 5 degrees difference from this, you lose 1% production. So if the panels were laid flat, you’d only lose about 5% production.

It’s recommend you have at least have about 5 degree tilt so that water can run off and the panel can self clean.

Tilting panels

Should you use tilt frames to tilt your panels so that they’re closer to the optimal angle? In 95% of cases, we would suggest using the extra money on more panels than tilt frames. This is because as mentioned before the difference in production for a 25 degree roof and a 0 degree roof is only 5%. Tilt frames may also have the following drawbacks:

  • They can catch the wind and can act as a sail putting greater stress on your roof structure.
  • Any increased production is offset by needing to leave spaces between rows of panels so that panels don’t cast shadows over each other.
  • Increased cost for the frames plus increased labour costs.

Summer vs winter production

Solar systems will always produce more energy in summer than in winter and this is due to the sun being higher in the sky and the days being longer. One interesting point which most people don’t realise is that solar systems don’t like too much heat and will produce around 20% less energy than their peak on a 40-degree day. Therefore, you may find that your solar system hits its peak production at any one point in time during spring or autumn. Overall though, your system will produce more units of energy during the summer months due to the longer days.

The temperature co-efficient is a guide for how much your panels dislike the heat and also an indicator of quality. This number tells you how much your panels will lose in production for every 1 degree over 25 degrees of surface temperature. The lower this number, the better.

Avg Daily Production=1kW
(production from table below)
xSystem Sizex1
– percentage loss from shading
– percentage loss from inclination
– percentage loss from roof direction

See the guide below and then take into account the factors below, which will reduce the systems production.

Average daily production

City1.0kW system1.5kW system2.0kW system3.0kW system4.0kW system
Adelaide4.2kWh6.3kWh8.4kWh12.6kWh16.8kWh
Alice Springs5.0kWh7.5kWh10.0kWh15.0kWh20.0kWh
Brisbane4.2kWh6.3kWh8.4kWh12.6kWh16.8kWh
Cairns4.2kWh6.3kWh8.4kWh12.6kWh16.8kWh
Canberra4.3kWh6.45kWh8.6kWh12.9kWh17.2kWh
Darwin4.4kWh6.6kWh8.8kWh13.2kWh17.6kWh
Hobart3.5kWh5.25kWh7.0kWh10.5kWh14.0kWh
Melbourne3.6kWh5.4kWh7.2kWh10.8kWh14.4kWh
Perth4.4 kWh6.6 kWh8.8 kWh13.2 kWh17.6 kWh
Sydney3.9 kWh5.85 kWh7.8 kWh11.7 kWh15.6 kWh
Data Source: PV-GC spreadsheet based on the CEC GC Design Guideline
The Rated output is that achieved in perfect laboratory conditions. The CEC design summary software takes these deratings into
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