Solar Design MILPERRA 2214

Energy Usage

Your daily energy consumption determines the optimal solar system size for your home in MILPERRA 2214. The average household uses between 20-30 kWh per day, whilst energy efficient properties may use only half that.

Before installing solar it is often a good investment to first look to reduce your energy consumption where possible. This can be done through improved insulation, and energy efficient appliances.

Typical energy usage per person per day in MILPERRA 2214:

Low (Efficient)

~5 kWh

Medium (average)

~10 kWh

High (intensive)

~15+ kWh

Note: Actual usage varies depending on property size, building efficiency, climate, and appliances.

Daily Energy Usage: 25 kWh (~$0/month)

5 kWh 100 kWh

Electricity Cost

$ /kWh

Sell Price (FiT)

$ /kWh

Self Use %

%

lightbulb Note: These are simplified estimates. For detailed tariff inputs and advanced calculations, use the full Photonik app.

Solar System Sizing

You'll need around 4.4kW of solar to match your average consumption. We recommend sizing 50-100% above your usage for optimal results as solar output fluctuates daily and seasonally.

An 8 kW system in MILPERRA 2214 generates approximately 34 kWh daily on average. Output varies seasonally (42% difference), with peak generation of 39 kWh in October and 27 kWh in June. This variation is typical for your latitude and should be accounted for when sizing your system.

Solar generation data for MILPERRA 2214:

Average Daily Generation

4.3 kWh/kW/day

Peak Month (October)

4.8 kWh/kW/day

Lowest Month (June)

3.4 kWh/kW/day

Seasonal Variation

42%

Solar System Size: 6.6 (0 kWh/day)

1 kW 20 kW

lightbulb We recommend 6.5 - 8.7kW, generating 50 - 100% more than you use.

A 6.6 kW system in MILPERRA 2214 can generate approximately 0 kWh annually based on local sun conditions.

Solar & Energy Savings

Calculate Heat Pump & EV Savings

Electrify your home by replacing gas heating, petrol vehicles, and other fossil fuel appliances with electric alternatives powered by clean solar energy. This delivers significant additional financial savings and substantial carbon emission reductions. Our calculator helps you compare costs and model the financial impact of switching to electric appliances and vehicles.

Calculate Electrification Savings

How Solar Reduces Your Electricity Bills

The calculations below show how your electricity bills change with solar. Your Old Bill of - per month (- annually) is calculated from your total energy consumption multiplied by the grid electricity rate. Your New Bill of - per month (- annually) accounts for solar generation, the percentage you use directly (self-consumption), remaining grid consumption, and feed-in credits for excess energy exported to the grid. This results in monthly savings of - (- annually).

Calculating...

Old Bill (Before Solar): Monthly: - | Annual: -

New Bill (With Solar): Monthly: - | Annual: -

Monthly Savings: $ 0 | Annual: $0 | Bill Savings: 0%

Monthly Savings

$ 0

Annual savings: $0 | Bill Savings: 0%

Battery Storage MILPERRA 2214

Solar Battery Sizing

With solar-only (no battery), an 8 kW system provides approximately 50% self-usage in MILPERRA 2214, depending on your consumption patterns, drawing 50% from the grid. Adding a 5 kWh battery increases energy independence to approximately 68% annually, reducing grid reliance to 32%.

Note: For accurate battery savings and ROI calculations, use the full Photonik design tool.

Battery Size: 5 kWh

0 kWh 30 kWh

lightbulb Tip

A 5kWh battery will make you about 0% self sufficient.

Energy Self Sufficiency Calculator*

Calculating...

*Note: This calculator provides simplified battery self-sufficiency estimates. For accurate per-hour simulations that account for solar generation patterns, consumption timing, battery charging/discharging cycles, and efficiency losses across all seasons, use the full Photonik design tool.

Panel Placement Tool MILPERRA 2214

This is a simple panel placement tool that lets you quickly estimate panel count for a single roof area. Try Photonik for advanced features:

Multiple panel groups
Custom roof angles
Panel orientation

Shade loss calculations
Panel selection (1000+ models)
Full integration with our design tool

Loading panel placement tool...

EV Charging & V2G MILPERRA 2214

Electric Vehicle Charging with Solar

Charging your electric vehicle with solar power is one of the most cost-effective ways to fuel your car. In MILPERRA 2214, solar-powered EV charging can reduce your transportation costs significantly compared to grid electricity or petrol.

Vehicle-to-Grid (V2G) technology allows your EV battery to act as additional storage for your home, providing backup power and helping balance grid demand. This emerging technology can further maximize the value of your solar and battery investment.

When planning your solar system, consider your EV charging needs. A typical EV uses 15-20 kWh per 100km, so daily charging can add 5-15 kWh to your energy requirements. Our full design tool can help you plan a system that accommodates both your home and EV charging needs.

Solar & Battery System Cost MILPERRA 2214

Understanding Solar & Battery System Costs

A 8 kW solar system in MILPERRA 2214 costs approximately $8970, while adding a 5 kWh battery increases the total to around $12028. Solar-only systems typically pay for themselves in around 3.9 years, whilst adding battery storage usually extends payback whilst increasing energy independence.

The cost breakdown shows estimates for equipment costs, installation labour, and GST. Adjust system size and battery storage to see how it affects total investment and payback periods.

STC Rebates MILPERRA 2214

STC rebates in MILPERRA 2214 are calculated based on your system size, location zone factor, and deeming period until 2031.

Get Full Design & Proposal

Use our full design tool for detailed system design, panel placement, and professional proposals.

Solar & Battery Savings in MILPERRA 2214 System Prices & Generation Data