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UNDERSTANDING SOLAR POWER

Types Of Solar Energy

  1. Solar Photovoltaic (solar PV)
    • Use solar cells
  2. Solar Thermal (solar hot water)
    • Use either flat plates or tubes to capture the sun’s heat
    • Solar PV – Electricity System
  3. Solar panels make 60% of the system
  4. DC to AC inverters
    • Power monitoring (display on inverter to show power generating at any one time)
    • Remote power monitoring (separate display that wirelessly receives signals from the inverter)
    • PC interface (interfacing to your PC and the web)
    • Expandability (if you’re wanting to expand your system later on, you should consider an inverter that is expandable
  5. Wiring from inverter to main fuse box plus a disconnect switch
  6. Main fuse box connection
  7. Your new electricity meter (to enable importing & exporting electricity to the grid)

Solar PV – How It Works

  1. Atoms in the silicon crystals in the solar PV panels are surrounded by electrons
  2. Sunlight falls on the crystals of silicon and “electrons” are ejected and bounce around randomly, leaving behind an electron hole
  3. When an electron finds this hole and recombines, it creates energy = electricity
    Primary purpose of the inverter is to boost the fairly feeble flow of electricity (low voltage DC) into clean and reliable high voltage 240V AC (electricity that’s compatible with both household appliances and the electricity grid)

Solar Panels

  1. Polycrystalline (Poly)
    • Made by melting silicone chunks down in a mould to form brick-like ingots.
  2. Monocrystalline (Mono)
    • Grown by seeding molten silicone and drawing it up from a quartz crucible while rotating it to form a cylindrical block.

Both as good as each other. Each panel and its manufacturer should be considered on a case-by-case basis

Solar Inverters

  1. Central/String inverter
    • Most common in Australia has a high DV and some of these types of inverters only cope with panels facing in one direction
  2. Micro inverter
    • Installed to each solar panel optimising each panel, panels can be installed in different directions and they are more tolerant of shade and dirt

Battery Ready
Consider whether battery storage is a worthwhile option for you. Batteries can be connected to your solar system to store the excess energy you generate during the day so that you can use it at night when your solar panels are no longer generating electricity. This saves you from having to buy that electricity back from the grid.

WHAT TO KNOW ABOUT GETTING SOLAR

Government Incentives
STCs – Eligible small-scale renewable energy systems are entitled to a number of Small-scale Technology Certificates (STCs). The number of STCs that can be created per solar system is based on its geographical location, installation date, and the amount of electricity in megawatt hours (MWh) that is generated by the small-scale solar power system over the course of its lifetime of up to 12 years. This means that, in Perth, for a 6kW system you can receive STCs to the value of around $4,000 which will cover roughly 50% of your install cost.

Distributed Energy Buyback Scheme (DEBS) – This incentive is when the power companies pay you for the excess power your system produces and pumps back into the grid. DEBS replaces the previous Renewable Energy Buyback Scheme (REBS) for new and upgraded distributed energy resources applications. The DEBS rates commence from 6 November 2020: Electricity exported between the 3pm to 9pm peak time will earn 10 cents per kilowatt-hour (kWh); Electricity exported at other times will earn 3c/kWh (refer to DEBS Explained). Prior to 6 November 2020, DEBS customers will be paid the current REBS buyback rate for their exported energy (including home battery exports).

Electricity Prices in Perth
Power prices in Perth are high and on the rise. A recent Australian Energy Market Commission report (Dec16) has forecasted the average price of electricity to grow by 14.5% over the following 2 years. That’s an increase of nearly double the national average over the same period.

What’s your current power usage?
The first thing to look at when deciding what size solar system you will need is your current power usage. This can be found on your most recent electricity bill. Your bill should include your average daily units used over the billing period, this is measured in kilowatt-hours (kWh). If you can, it’s a good idea to look at 12 months worth of bills to see how your usage changes throughout the year.

For reference purposes, the average Perth household consumes around 18kWh of electricity per day. The rule of thumb for Perth is that every 1kW of solar panels installed will generate an average 4.4kWh of energy per day. So if your daily consumption is 18kWh then you will need a 4.1kw solar system to match to your consumptions needs.

What’s your roof size and area available?
Another important consideration when sizing up your solar system is the amount of space available on your roof, especially on the prime north facing section. If you have other things already taking up space on your roof i.e. Solar hot water system, aircon etc then you will have to work around these when deciding where to place your solar panels. If space is limited on the north facing section of your roof, which it often is, then you will need to look at either the east or west facing sections to fit in the remaining panels. Bear in mind that panels placed with a directly East or West facing orientation will not produce more than 85% of their rated output so you will need to add more panels to your solar system in order to generate your desired output.

Comparing Solar Brands

  1. Look into the different panel tiers 1,2,3 (do you want high, medium or bottom end panels).
    • Tier 1 are the bigger brand panels (Trina, Canadian Solar, SunPower, JA Solar, Hanwha QCells)
    • 80% of lower tier panels are not good quality
  2. Warranty on products (performance & manufacturer’s)
    • Performance warranty is 25 years
    • Manufacturer’s warranty varies (shouldn’t be less than 10 years)
  3. Power tolerance
  4. Efficiency (this should be over 14% – unless roof space is critical, don’t stress about efficiency)
  5. Temp coefficient (measures how much the power drops for every degree rise in temp)
    • Ranges from -0.4% per degrees (good) to -0.5% per degrees (not as good)
  6. Performance ratio (percentage that tells you how much power you can really expect to get from the panel)

$0 UPFRONT COST SOLAR

  • No upfront cost or deposits
  • Payment plan guarantee
  • Convenient automatic direct-debit payments
  • Hassle-free process
  • Fast application and approvals
  • Pay off your system using the savings your system generates

THE SOLAR BENEFITS TO YOU

  • Solar has never been this affordable so boost property value by adding solar You will receive the best possible price, plus the solar (government) incentive off the upfront cost
  • For all residential systems 5kW or less, you will get paid for your excess power you don’t use
  • There are interest-free options available that don’t require any upfront cash to get installed
  • Pay off your system using the savings your system generates
  • Protect against rising utility rates
  • Environmentally friendly and taking part in going green