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From smooth installation to helpful support — that’s the Solar Junction promise. 🌞✅
For more information:
💻 Visit us: https://solarjunction.com.au/
📞 Call us now on 1300 345 365 and get a FREE quote.
📩 Email: [email protected]
#solarjunction#reviews#testimonial#5starreview#productreview#customerreview#solarretailer#solarprovider
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Thank you for choosing Solar Junction — 500+ Happy Families & counting!
For more information:
💻 Visit us: https://solarjunction.com.au/
📞 Call us now on 1300 345 365 and get a FREE quote.
📩 Email: [email protected]
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If your home generates more solar power than you use, you can send it to the grid and get paid. Discover how feed-in tariffs work and start earning from the sun! 🌞
For more information: 💻 Read Guide: https://solarjunction.com.au/blog/solar-feed-in-tariffs-guide/ 📞 Call us now on 1300 345 365 and get a FREE quote. 📩 Email: [email protected]
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6.6kW vs 10kW Solar Panel System: Which One is the Best for Your Home?
Choosing the right solar system for your home can be a challenging decision, especially when comparing different system sizes. The 6.6kW vs 10kW solar panel system debate is one of the most common dilemmas for homeowners looking to maximize their energy savings.
Both options offer great benefits, but the best solar system for home depends on various factors, including energy consumption, available roof space, budget, and future energy needs.
In this guide, we’ll break down the size comparison of solar system options and help you determine whether a 6.6kW solar panel system or a 10kW solar system is the right choice for you.
Understanding the 6.6kW Solar Panel System
A 6.6kW solar system is one of the most popular choices for residential solar installations in Australia. It offers a balance between affordability and efficiency, making it an ideal choice for small to medium-sized households.
Key Features of a 6.6kW Panel Solar System:
Typically consists of 16-18 solar panels (assuming 370-415W panels).
Requires around 30-35 square meters of roof space.
Produces approximately 24-27 kWh per day, depending on location and sunlight availability.
Paired with a 5kW inverter, which is the standard for most Australian households.
Is a 6.6kW Solar Panel System Right for You?
A 6.6kW solar panel system is suitable for:
Homes with an average daily energy consumption of 20-25 kWh.
Households with 2-4 members.
Homeowners looking for an affordable yet efficient solar setup.
Those who spend more energy during the daytime, when solar panels generate the most power.
If your energy usage is moderate, a 6.6kW solar system should cover a significant portion of your electricity needs, reducing your reliance on the grid and lowering energy bills.
Learn more about 6.6kW vs 10kW Solar Panel System: Which One is the Best for Your Home? Click here
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Thinking about installing a 13kW solar system? Learn everything you need to know, energy output, battery storage, and off-grid options. Read blog!
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System specification:
14 X 440 Solar Panels
1 X 5kW solar inverter
💻 Visit us: https://solarjunction.com.au/6-6kw-solar-system/
📞 Call us now on 1300 345 365 and get a FREE quote.
📩 Email: [email protected]
#solarinstallation#solarpanelinstallation#residentialsolarsystem#residentialsolarpanelsystem#solarpanelsystem
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💻 Visit us: https://solarjunction.com.au/solar-system-battery/
📞 Call us now on 1300 345 365 and get a free quote.
📩 Email: [email protected]
#solarbattery#solarbatterypackages#solarsystemwithbattery#solarbatteryrebates#batteryrebate#solarretailer#solarcompany#solarjunction
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Feed in tariffs on solar systems are straightforward to understand once you know how a solar system operates:
For more information:
💻 Visit us: https://solarjunction.com.au/blog/solar-feed-in-tariffs-guide/
📞 Call us now on 1300 345 365 and get a FREE quote.
📩 Email: [email protected]
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What Are Feed-In Tariffs and Why They Matter for Your Solar Savings?
If you’re considering installing a solar system, you’ve likely come across the term solar feed in tariffs (FiTs). But what exactly are feed-in tariffs, and why are they important for your solar energy savings?
Feed-in tariffs play a crucial role in making solar energy systems more cost-effective by rewarding homeowners for contributing excess electricity back to the grid.
In this blog, we’ll explore what feed-in tariffs are, how they work, and their impact on maximizing the returns from your solar investment.
Whether you’re new to solar energy or looking to optimize your existing system, understanding feed-in tariffs can help you make smarter energy decisions.
What Are Solar Feed-In Tariffs?
A solar feed-in tariff (FiT) is a financial incentive that pays homeowners for the surplus electricity their solar system generates and exports to the grid. When your solar panels produce more energy than your household consumes, the excess energy is sent to the grid, and you are compensated by your electricity retailer.
Feed-in tariffs are typically measured in cents per kilowatt-hour (kWh) and vary depending on the state or territory you live in, as well as the electricity provider you choose.
How Do Feed-In Tariffs Work?
Feed in tariffs on solar systems are straightforward to understand once you know how a solar system operates:
Solar Energy Generation: Your solar panels generate electricity during the day using sunlight. This energy is used to power your home appliances and devices.
Energy Usage in the Home: Any electricity your household consumes during the day is directly supplied by the solar panels. This reduces the amount of energy you need to purchase from the grid, lowering your electricity bills.
Excess Energy Exported to the Grid: If your solar system produces more electricity than your household needs, the surplus energy is automatically exported to the grid.
Payment for Exported Energy: For the electricity sent to the grid, you receive a solar feed-in tariff, which is credited to your electricity account or bill.
Feed-in tariffs are an excellent way to increase your energy savings, particularly for homes that produce significant excess energy.
Learn more about What Are Feed-In Tariffs and Why They Matter for Your Solar Savings? Click Here
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For more information:
💻 Visit us: https://solarjunction.com.au/
📞 Call us now on 1300 345 365 and get a FREE quote.
📩 Email: [email protected]
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Shading can reduce solar output, but the right strategies like strategic panel placement, tree trimming, micro-inverters, bypass diodes, solar tracking systems can boost performance!
Learn more: https://solarjunction.com.au/blog/solar-panel-shading-solutions-guide/ Call us now on 1300 345 365 for a FREE quote! Email: [email protected]
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Solar Panel Shading Solutions: How to Beat Shade and Maximize Energy Efficiency
Solar panels are an excellent investment for homeowners looking to reduce energy costs and switch to renewable power. However, solar panels and shade don’t mix well. Even a small amount of shading can significantly impact solar solutions output, reducing the efficiency and effectiveness of your system.
Whether it’s trees shading solar panels, nearby buildings, or chimneys casting shadows, shading issues need to be addressed to maximize energy generation.
In this guide, we’ll explore the effects of shading, common solar panel shading solutions, and the best strategies to maintain optimal performance.
Understanding How Shading Affects Solar Solutions Output
Solar panel output is directly influenced by the amount of sunlight hitting the panels. Since solar panels work by converting sunlight into electricity, any obstruction reduces energy production.
Even minimal shading can cause a substantial drop in performance due to the way solar cells are wired.
How Shading Impacts Solar Performance
Reduction in Power Output
A single shaded cell in a solar panel can limit the performance of the entire module, reducing overall energy production.
Mismatch in Power Generation
Solar panels are connected in series, meaning shading on one panel can disrupt the efficiency of the entire string of panels. This results in disproportionate losses.
Hot Spots and Long-Term Damage
Prolonged shading can lead to hot spots on the panel, causing overheating that may damage solar cells and shorten the system’s lifespan.
Inefficiency in Inverters
If shading affects multiple panels, your inverter may struggle to optimize energy production, further decreasing efficiency.
Now that we understand the problem, let’s look at effective solar panel shading solutions that can help maintain optimal performance.
Best Practices for Installing Solar Panels in Shaded Spaces
Strategic Solar Panel Placement
Before installation, a professional solar installer will analyze your property to determine the best placement for your panels. Ideally, solar panels should be positioned where they receive the most sunlight throughout the day.
Roof Angle and Orientation: A well-angled installation minimizes shading from trees, chimneys, or other obstacles. Avoiding Morning and Evening Shade: Panels placed in areas that receive early morning or late evening shade will not perform optimally.
Trimming or Removing Trees
Trees shading solar panels is a common problem for many homeowners. While trees provide valuable shade and environmental benefits, they can significantly hinder solar efficiency.
Trimming branches can reduce shading while maintaining tree health. Consider selective pruning to allow more sunlight to reach the panels. If needed, remove trees that are causing excessive shading.
Using Micro-inverters or Power Optimizers
Instead of using a single inverter for your entire system, microinverters and power optimizers allow each panel to operate independently. This technology prevents a shaded panel from affecting the performance of the entire system.
Microinverters: Convert DC to AC power at the panel level, ensuring that shaded panels don’t impact the others. Power Optimizers: Attach to individual panels and adjust voltage levels, improving performance in partially shaded conditions.
Bypass Diodes to Minimize Power Loss
Most modern solar panels come with built-in bypass diodes that allow electricity to flow around shaded cells. This helps to minimize the impact of shading on the entire system.
Bypass diodes prevent shaded panels from dragging down the performance of the entire string. They are especially useful when partial shading is unavoidable.
To Learn more about Solar Panel Shading Solutions Click Here
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Struggling with shading on solar panels? Explore solutions like trimming trees and investing in shading-resistant solar panel to boost energy output. Read blog!
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💻 Visit us: https://solarjunction.com.au/6-6kw-solar-system/
📞 Call us now on 1300 345 365 and get a FREE quote.
📩 Email: [email protected]
#solarinstallation#solarpanelinstallation#residentialsolarsystem#residentialsolarpanelsystem#solarpanelsystem
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