The grid-connected systems, which are the most common in built-up areas, supply solar electricity through an inverter directly to the household and the electricity grid if the system provides more energy than the house needs. When power is supplied to the mains grid, the homeowner usually receives a credit or a payment for that electricity. This is called a feed-in tariff.
The strength of the solar energy (radiation) available depends on the time of year, the time of day, and the generation point's latitude. The amount of energy that the system generates can change due to:
the amount of dust and water vapour in the air,
how much cloud cover
any shading of the solar panels
and the quality of the solar modules.
You can learn more about solar radiation levels for your area in our solar power system builder.
Most certainly. For example, a system with solar panels facing a southerly direction will generate far less than one with a northerly aspect. However, east/west installations can be a good option depending on the installation scenario.
Prices vary according to size and location – try our quick solar quote tool to determine the cost.
A feed-in tariff is whereby a grid connect system owner is paid for the electricity their system generates by a utility or government agency. There are two different types of tariffs, gross and net. A gross feed-in tariff pays a premium on all electricity produced, whereas a net feed-in tariff only pays for surplus energy created by the system. In Australia, net feed-in tariffs are predominant. Learn more about feed-in tariffs here
Solar Panels: minimum 10-year product warranty and 25-year performance guarantee
Inverter: 5 – 10 year warranty.
Mounting System: 10-year product warranty (manufacturer)
Workmanship: 5-year warranty on workmanship (installer)
A base installation rate includes the grid connect system’s installation on a pitched metal roof facing the north with the appropriate surface area. Additional costs may accrue for a flat or tiled roof or any equipment upgrades and extended warranties.
Most insurers will allow you to include the system under your home and contents insurance, but please check with your insurance company first.
Solar panels take light from the sun and make electricity. Solar hot water systems take heat from the sun and heat water. It is easy to remember:
The heat from the sun heats the water.
Light from the sun turns on the lights.
That entirely depends on your energy usage and your geographical location. A 1.5 kW system is currently the “entry point” for grid connect. It will cover between 16 and 25% of the energy consumption of a medium household. A 4-5 kW system will cover 100% of a medium energy use household's energy consumption. A 10 KW will give you an income from the electricity company.
Any size grid that connects the solar power system will reduce your yearly power consumption and your power bill—naturally, the bigger the system, the bigger the benefit.
To make the most of solar power, the key is to implement simple energy efficiency strategies. It is easy to conserve energy by using appropriate lighting and efficient appliances. Running high power appliances such as electric bar heaters, electric hot water systems and air conditioners etc., is really not economical.
Instead of considering an extensive solar system, you can also invest in energy-efficient heaters, solar hot water and design features such as strategically placed vents or insulation to avoid heat entering the house in the first place. In summary – all your energy can be supplied by solar power, and your budget and daily energy usage will determine the size of your solar power system.
Several aspects will need to be evaluated to determine if your home is a good solar site, such as orientation, space available, shadows on the space available, and current electricity usage. The best site will be one with adequate north-facing roofs that have no shade. Variations on that will cut into the productivity of the system.
The life of Solar modules that have been tested in the field showing small reductions in power output after 20 years, mostly because the glass surface becomes a bit dull and reflects more light. All our solar panels carry an output warranty of 25 years. There are solar panels delivering power in Australia today that were installed more that 30 years ago. The electronic components such as inverters, being the most sensitive, will last 10 -15 years.
Between monocrystalline and polycrystalline, there isn’t a lot of difference. However, a polycrystalline panel is slightly larger than the equivalent wattage in monocrystalline. Thin-film panels are larger again. That extra space can take up valuable rooftop real estate in adding extra panels at a later date. There are other issues to consider with thin-film panels, explained in further detail here.
Yes. You can get additional solar panels at any time to increase generating capability, but you might have to upgrade to a larger inverter. Alternatively, you could purchase a larger inverter when installing the system initially and then plan to add extra solar panels later.
As you are still tied to the mains power supply in a grid connect system, any deficit will come from the mains grid.
As Blue Energy Solar systems are designed to Australian Standards, the reliability of components and consistency of power supply will be more than adequate for the loads specified.
To install a grid-connected solar power system at your premises, you will need to have a compatible switchboard and meter.
A meter exchange may be necessary after the installation of your new solar system. The energy that your solar system produces interacts with the main power grid and the loads in your house.
Without an appropriate mains meter, any energy you sell to the power grid cannot be accurately measured. It could even be completely disregarded, greatly reducing the system’s effectiveness in reducing your energy bill. A ‘bi-directional’ meter replaces the existing one-way ‘detented’ meter, allowing the reading of energy in both directions. That is, both buy and sell.
Grid connect systems direct excess electricity produced during the day back into the local electricity grid. You then receive a credit for any power that your system supplied to the grid. During the night, when your system does not produce and electricity, you draw your power from the grid, and your electricity meter measures your consumption.
The grid connects inverter will automatically shut itself off within a few milliseconds of a blackout. This avoids the potential of a dangerous “brown-out” in your home and to prevent back-feeding into the grid. Therefore even though you have a solar system during a blackout, you will not have power available. If you want to keep on having electricity available during a blackout, you would need back up batteries. This will add to the cost of the system.
Yes, battery backup systems require additional components – which can be costly, although pricing is rapidly dropping.
The solar system wires into your existing fuse box via a 15amp circuit breaker as average. However, it depends on the power that is installed on the premises.
Usually, the inverter goes alongside the fuse box. The inverter is silent and displays the electricity generated and other data options such as total electricity generated since installation is available.
1.0 KW system needs approximately 10m2. A 1.5KW system needs approximately 15m2 and so forth.
The system weighs approximately 27 kilograms per square meter (a 1KW system is approximately 10 square meters).
Although solar electricity is pollution-free, PV systems require a certain amount of energy, which must be ‘reimbursed’ before they can be considered renewable and clean. This is “embodied energy”. An assessment from the International Energy Agency concluded in mid-2006 that roof-top solar PV systems recover their energy content (from manufacturing and recycling) within 1.6 to 1.8 years in Australia. That figure has since seen improvement.
Once they have reimbursed their initial energy input, roof-top PV systems can avoid the emission of 40 tonnes of CO2. This depends on its location and the local electricity mix available. Roof-top PV systems in Australia during their 30-year lifespan can expect to produce around 17 times the amount of energy needed for manufacture, installation and dismantling.
The heart of a photovoltaic solar power system is the solar array. Made up of multiple panels (individually measuring roughly 1 by 1.5 meters), this array absorbs the energy of a specific range of available sunlight and converts this energy into electrical energy.
The array mounts on a frame that allows the panels to be secure with minimal interference with the roof's waterproofing and structure. Most importantly, it provides the correct aspect and elevation for the array to receive and convert the maximum amount of available sunlight.
A cable runs down from the array to the inverter. The inverter is a device that efficiently converts the widely fluctuating power from the solar array into a predictable and usable energy feed.
A second cable connects the inverter to your house’s switchboard, which is, in turn, connects to the main power grid. This creates a continuous and dynamic system for the contribution of solar energy to your house. The inverter also acts as a simple data logger. An information screen on the inverter will display total energy production, daily energy production, and instantaneous power. These figures will fluctuate depending on the time of year, the cloud cover, and temperature and will allow you to keep a record of your system’s performance.
Solar power systems can also optionally include easy-to-use remote monitors, internet-enabled data loggers, and even sensors to determine solar availability, panel temperature, air temperature, and wind speed. Ask your sales representative for more information.
With a grid-connected system, there is very little maintenance. Electronic components should be maintenance-free. Energy Matters systems come with complete instructions for maintenance.
No, the inverter handles the incoming charge and converts it to AC electricity for use in your home. Solar regulators are more likely in off-grid systems.