The figures for solar energy are often hard to find, and when they are, it can be hard to determine if they are accurate.
The figures often come with a lot of information about solar and the industry it comes from, so it can take a while to figure out how to interpret them.
One way to do that is to look at solar energy production from the perspective of the whole country, which is often more accurate.
Here’s how.
Solar energy production by region Solar energy produced by each state and territory is broken down into three main categories: total solar electricity (TSE) Total solar electricity is electricity produced when solar panels are turned on, or when the sun is shining, but it is not always available to the consumer.
It is a more accurate way to measure solar energy than the amount of electricity produced.
The total solar power is a good indicator of the overall amount of solar energy being produced across the country, because it does not count the amount produced by individual installations.
The more TSE solar power produced, the more solar energy available to all Australians.
This is why it is the most accurate indicator of solar power production.
Total solar energy is divided up into three broad categories: solar thermal (TTE), solar photovoltaic (PV) and wind energy (WW).
TSE is electricity generated when a solar panel is turned on.
PV is the energy from solar panels.
WW is electricity from the production of wind turbines.
TSE can be broken down by state, territory and industry into five major categories: energy produced, solar thermal, wind energy and total solar energy.
This information is used to create solar statistics, which are used to make decisions about solar panels and solar energy tariffs.
Solar statistics are available to download and can be found at the Australian Energy Market Operator’s website.
The statistics are broken down, but there are some differences between each category.
The first major difference is that PV is produced when a panel is off, whereas TSE occurs when a sunflower is in the sun.
The second major difference between TSE and PV is that solar thermal energy is produced from the sun, whereas wind energy is generated when the wind blows.
The third major difference in TSE statistics is that electricity produced from a solar power plant is the amount that would normally be produced if all electricity was produced at the same time, but this is not the case in PV statistics.
Solar thermal energy, which occurs when solar power plants are generating electricity for use, is used as the metric to compare different solar panels, whereas electricity generated from wind power is used in solar statistics as a metric to measure different wind turbines on the same system.
This difference is not present in PV numbers, because PV is not produced when the panels are off, but is produced during the day when the power is generated.
When a panel and solar panels turn on, electricity from a PV plant is produced as an excess of solar thermal power.
This excess electricity is stored in the battery of the solar panel, and then used as a source of power to power the system during the night.
In PV statistics, when a wind turbine is turned off, the wind is not blowing, so electricity from that turbine is not used to generate electricity.
Instead, electricity is supplied to the grid to be used in the evening.
The amount of excess electricity generated by a wind farm during the evening is known as the peak demand rate.
This figure is then used to determine the price of electricity.
The difference between PV and TSE data for a given year is known in solar electricity statistics as the energy production rate.
The electricity produced by the power plant during the daytime is known to be the energy that will be available to use in the afternoon.
The following figure shows the energy produced from TSE for the year of 2012.
It shows that the energy generated by the wind farm in 2012 was a bit higher than the energy released by solar thermal.
The TSE output was 1,619 megawatt hours (MW), which is higher than solar thermal output of 1,735 MW and wind power output of 2,029 MW.
However, this difference is due to the difference in the amount generated during the afternoon and evening hours, which the TSE numbers show is the day-to-day energy available for use.
For a comparison of the energy being generated from different technologies, look at the table below.