Are Solar Panels Recyclable?
What are the main reasons for switching to solar power? There are lots of reasons, but for most people, the environment is close to the top of the list.
In this survey, for example, 87% of people said the environment was a key reason behind their decision to adopt solar power.
This is with good reason. Solar panels are a much cleaner source of energy than traditional fossil fuels like coal and oil. They produce renewable energy, don’t release harmful emissions, and allow us to be more self-sustaining.
But there’s a big unanswered question here — what happens when your solar panels reach the end of their life? How do we make sure they don’t end up contaminating the earth with the chemicals inside them, undoing all the good they did in their lifetime?
In this post, we’ll dig into that. We’ll look at how solar panels are recycled, and what you personally can do to ensure your panels end their life in the most environmentally-friendly way.
In 2016, there was 900 tons of solar waste in Australia. By 2020, that number had reached 2000 tons, and by 2035 it’s expected to reach 100,000 tons.
Solar panels contain a number of components that can be harmful to the environment, including small — but not insignificant — amounts of metals like lead. If we aren’t careful about how we recycle solar panels, the waste from them could harm our natural resources and water supply.
What’s more, recycling panels is much more sustainable and environmentally-friendly than building new ones from scratch, forcing us to extract all the materials needed from nature.
Although they might look like fairly simple structures on the outside, solar panel systems contain a wide range of materials and components, and these vary greatly in terms of how easy they are to recycle. Let’s start with the easiest ones.
The average solar panel contains about 75% glass. If you’ve ever thrown a few empty bottles into a recycling bin, you’ll know that glass is a pretty easy substance to recycle. This is good news — the majority of a solar panel is easy enough to take care of. On top of that, panels also contain things like aluminium (for the frame), copper wiring, and plastic. All these things are fairly easy to recycle.
Solar panels also contain small amounts of many other different materials, and these can be somewhat harder to recycle safely and efficiently. These can include:
There are a few other things to consider, too. For example, if your solar system uses a battery, this can be notoriously tricky to dispose of and will require a specialist.
The process of recycling solar panels is really a series of different processes, since the materials involved are very different and require very different approaches to properly handle.
The goal with recycling solar panels is to recover as much material as possible to be safely reused, minimizing the amount of material that has to be disposed of. Here are the main stages involved:
Some solar panels (a small percentage) are made from cadmium and tellerium, and these will require a somewhat different recycling process compared to the more common silicon solar panels that we focused on in this post.
If you’re using thin-film solar panels, you’ll need to take them to a specialist facility to be recycled.
Solar can be complicated. It’s a big decision, and understanding how to do it safely, sustainably, and cost-effectively can require a lot of research. At SnapSolar, it’s our job to guide you through that process and ensure you have everything you need to make an informed decision about your solar future. We’ve helped households and businesses across Mackay and the surrounding Queensland area do exactly that.
Get in touch with us to find out more and get started.
In order to understand if solar really is the right choice for you and your energy needs, it’s important to understand how much energy solar panels actually produce. This way, you can more easily see how solar stacks up against alternative energy sources and how it will help meet your current and future energy needs.
To understand how much energy solar panels produce, we need to look at a number of factors. Remember that different types of panels and systems can vary quite a lot in terms of their output and efficiency, so you’ll need to perform your own calculations for whatever system you opt for.
Most solar panels can produce somewhere between 250 and 500 Watts of energy each hour, and systems of panels can usually give out somewhere between 1kW (that’s 1000 Watts) and 4kW.
To calculate the output over time, we need to multiply the figure in Watts by the number of hours your panels are actually producing energy during that time. This depends on a number of factors, such as:
To get a realistic figure for the amount of energy your solar system will produce, we need to dive into each of these factors.
Peak sun hours are an interesting concept, and one you might not have come across before. The official definition of a ‘peak sun hour’ is when the sun’s intensity reaches an average of 1,000 watts of photovoltaic power for each square meter.
So peak sun hours might not be consecutive throughout the day, and can vary quite a bit from day to day and especially from season to season. Peak sun hours can also vary a lot by region. Mackay, Queensland, for example, receives an average of 5.5 peak sun hours per day. In other parts of the world, like Northern Europe, this number will be far lower.
As we mentioned, solar panels usually range from about 250 to 400 Watts in terms of energy output. This is a big range, however, especially when extrapolated over the course of a year. A system using more powerful panels, or a greater number of panels, will produce a significantly higher amount of energy over time.
There are many different types of solar panels out there, and they all differ in terms of the energy they’re able to produce. The two main types of solar panels on the market today are monocrystalline and polycrystalline. Let’s take a look at the main differences here.
Monocrystalline solar cells are cut from a single piece of silicon, which makes them more efficient than their polycrystalline cousins. It also makes them more expensive — monocrystalline solar panels tend to cost about 50% more than their polycrystalline counterparts, which can add up over the course of a full solar panel system.
The extra cost comes with benefits, though. Monocrystalline solar panels tend to perform better in both higher temperatures and shadier conditions, so depending on your location it might make sense to pay a little more.
Polycyrstalline solar panels are cheaper than monocrystalline, but they’re also less efficient and don’t work quite as well at higher temperatures. This means that the overall power output of your solar panels will be less if you opt for a polycrystalline system instead of a monocrystalilne one.
The unit we use to express power output is daily kiloWatt hours (kWH). To calculate this, you need to know the size of your solar panel system in Watts and the average number of hours of direct sunlight your receive per day.
Here’s the formula:
Size in Watts x average hours of direct sunlight/1000 = output in daily kiloWatt hours
So for a 2kW solar system in Mackay: 2000 x 5.5 / 1000 = 11 kWh per day
This gives you a great starting point to estimate your energy production for the week, month, and year. Of course, this system relies on averages — your solar panel will always produce more energy at certain times of the year than others, and this can vary considerably.
In Mackay, sunlight levels throughout the year are more constant compared to places like Scandinavia, but your hours of direct sunlight and therefore your solar output will still vary somewhat between seasons.
Solar can be tricky to understand at first, but it won’t take too long to master the basics and get to grips with how your system works around the year. At SnapSolar we can help guide you through the first stages of the learning process, helping you decide on the right size of solar system for your needs and location. We’ve done this for countless businesses and households throughout Mackay and the surrounding Queensland area. Get in touch to learn more and get started.
A solar battery can be one of the most useful parts of your home solar system, allowing you to draw on your solar-generated power even when the sun isn’t shining. This helps you reduce your reliance on expensive and environmentally-unfriendly fossil fuels and become even more energy-independent.
But what size battery do you need? Solar batteries come in a variety of sizes, and you’ll need to pick the right one based on your energy needs. In this article, we’ll show you some of the factors that go into solar battery size and how you can calculate the right size for you.
These are the steps you’ll need to follow to determine the right size of solar battery for your home.
Remember that you don’t need to account for all of your energy usage with your battery, just the hours you aren’t getting sunlight.
So even though your energy needs are 20kWh per day, you might only need a battery that supports 5kWh per day.
Once you have this information, it’s time to find the right battery size. This isn’t quite as simple as just taking your energy needs and buying a battery of that size, because of something called depth of discharge (DoD) which essentially refers to how much of your battery capacity you can actually access.
Lead solar batteries usually have a DoD of about 80%, which means a 20kWh battery only really gives you 10kWh of charge, so you’ll need to multiply your daily energy usage in kWh by 2 to find the right battery size. Lithium batteries tend to have a DoD closer to 5-10%.
Multiplying to match your battery’s DoD might still not be enough. It’s usually safer to opt for a battery size bigger than what you need, just to be sure.
Not all batteries will show their capacity in kWh. The typical unit for measuring battery storage capacity is Amp-Hours (Ah). Solar batteries range from less than 100Ah to well over 1000Ah, so there’s a big range here.
Amp-Hours refer to the amount of time a battery will run before it runs out of charge. In other words, a 200Ah battery can sustain a 10 amp load for 20 hours.
To understand the battery size you need in Ah, you’ll need to do a quick calculation.
Let’s assume you need your battery to hold 5kWh to keep your home running during times when sunlight is scarce. First, you need to divide by the voltage of your battery. Most solar batteries are either 6V, 12V, 24V, or 48V. Let’s run the calculation for a 48V battery:
5 ÷ 48 x 1000 = 104Ah
Finally, multiply by 2 to account for your battery’s Depth of Discharge: 208Ah
As you’ve probably realised, there are many different factors that go into choosing the right solar battery size. Your energy usage, location, hours of sunlight, how happy you are to depend on the grid, the type of battery you use, the voltage, and much more.
At SnapSolar, we can help. We help households and businesses throughout Mackay and the surrounding Queensland area choose the right battery size for their needs and future plans. Get in touch with us to learn more about how we can help.
Just when you think you understand solar, along comes a brand new concept that changes everything. Today’s example is solar export limiting — something you may have heard of before but, if not, is important to get familiar with.
Solar export limiting is a key concept because it impacts the amount of energy you’re able to return to the electrical grid in exchange for compensation. It also affects how large your solar panel system can be.
In this article, we’ll show you what solar export limiting is, how it works, and how it affects you personally.
Homes in Australia that use solar power have a limit on the amount of energy they can transmit into the electrical grid. This limit varies according to your location, but it’s typically somewhere around 5 kiloWatts. Once you reach that limit, you can’t transmit any more energy into the grid.
Why is this restriction in place? Solar panels, especially in sunny regions like Queensland, often produce more energy during the sunniest periods than the household can use. If you don’t have a solar battery installed, that energy will go to waste — unless you return it to the electrical grid in exchange for a feed-in tariff.
The problem is that as more and more homes started using solar, the national power grid began receiving huge surges of energy during peak hours. This resulted in power surges, power outages, and other complications for the electrical grid, forcing energy retailers to take action in the form of solar export limits.
A major issue for solar customers here is that the 5kW limit makes it difficult to upgrade your solar system to a bigger size. That’s where export limiting comes in — if you want to increase the size of your solar system and have an inverter that’s bigger than 5kW, you’ll have to export limit your inverter. Let’s dive into that idea a little deeper.
Solar export limiting is, ultimately, a necessary idea. It protects the grid from all the above issues and ensures everyone has access to reliable, consistent, and safe electricity. But on top of that, there are several reasons why solar export limiting can benefit you.
Because solar export limiting your inverter permits you to have a larger solar system in your home, you can take a big step towards energy independence, renewable power, and a more sustainable future. Plus, if you have a solar battery, you can save your excess energy and use it when sunlight is scarce, which is arguably more useful long-term than simply selling it back to the grid.
By this point, you probably have some concerns about solar export limiting.
For example, solar export limiting means wasting energy. If you’re unable to export more than a certain amount of energy to the grid (and in some areas, it’s zero) that means everything else simply goes to waste. Not a good feeling, when you’ve paid for solar panels.
However — we think this is simply all the more reason to invest in your own solar batteries and take even greater control of your energy needs in the long-term.
One of the key things to know about solar export limiting is that it works differently according to your location within Australia.
If you live in Queensland, your export limit depends on the type of solar panel system you have:
The exception to this is South East Queensland, where you need special permission from Energex to install any export limited inverter over 15kW.
Solar export limits ensure that everyone has access to a reliable, safe, and sufficient supply of energy at all times. If you want to expand the size of your solar system — something everyone should eventually be considering as we move towards an increasingly renewable world — you’ll need to export limit your solar inverters.
At Snap Solar, we can help you through this process. We help businesses and households in Mackay, Queensland figure out the best solar strategy for their needs, and we can help you do the same. We’ll show you exactly how export limiting works, outline the best approach for your specific needs, and help you every step of the way. Get in touch with us to find out more.
Power outages are no fun for anyone. One of the best things about solar panels is that they help you to rely less on the electrical grid, meaning you’re less affected when there’s a power cut. As long as the sun is still shining, your panels will ensure your home gets a steady supply of electricity.
But what about when the sun goes down? When power outages happen overnight, you have to rely on the energy stored in your solar battery if you want any power at all in your home.
For this reason, many people are asking, “how long will my solar battery last during a power outage?” It’s a good question and unfortunately has no clear-cut answer since there are lots of variables to consider.
In this article, we’ll round up the factors that affect how long your solar battery can keep the lights on during a power outage, and how to maximise that time.
Solar batteries come in many sizes, and it probably won’t come as a surprise to find that larger batteries will result in a longer performance. An average solar battery of about 8-10kWh can power a home for about 24-48 hours.
However, this is just one piece of the puzzle. There are several other crucial factors that impact how long your battery can power your home.
There are several different types of solar batteries out there, and the type you opt for will have an impact on how long it can keep your lights on in the event of a power outage. Let’s take a look at some of the main battery types:
When considering how long your battery can keep your home running during a power outage, you need to think about how much energy you’ll use. If you want to keep all your appliances running as normal, you will of course run out of power much faster than if you carefully ration your energy usage.
The best approach here is to prioritise your energy use, allocating your electricity to only the most essential appliances and tasks. That means saving your energy for things like your refrigerator, heating, water heating, and lighting, and considering holding off on things like loud music systems and multiple TV screens until the power outage comes to an end.
Not all homes are created equal when it comes to energy efficiency. More energy-efficient homes can last much longer on a single solar battery compared to less efficient ones, even when energy usage is the same.
Some buildings are simply unlucky in this regard, but there is still a lot you can do to make your home more energy-efficient, such as:
Choosing the right solar battery and solar panel system for your needs is the best way to reach energy independence and keep your home running smoothly even when the traditional power grid isn’t there for you.
At SnapSolar, we can help you choose and install the right solar system for your needs — something we’ve done for countless homes and businesses throughout Mackay and the surrounding Queensland area. Get in touch with us to learn more.
The right solar battery can be an incredibly useful addition to your home solar panel system. A solar battery allows you to keep your home powered without relying on the energy grid even when the sun isn’t shining. It’s a big step towards a more energy-independent, sustainable, and cost-effective home.
However, it’s essential to get the right solar battery for your needs. There are tons of options out there, at a range of different price points and performance levels. It’s easy to feel overwhelmed and confused, and even end up dropping a lot of cash on the wrong battery for your needs.
We want to help you avoid that, so we’ve put together this guide to help you choose the right solar battery for your specific needs.
In use since 1859, lead-acid batteries are tried-and-tested. They’re safe, affordable, and used in all kinds of places from cars to UPS systems. While cheap, they have a relatively short cycle life and storage capacity compared to the newer alternatives.
Lithium-Ion batteries have only been commercially available for about 30 years, and they’re based on more advanced technology than their lead-acid predecessors. This gives them a longer cycle life and larger storage capacity and a higher price tag. You’ll find lithium-ion batteries in your laptop, smartphone, and — if you’re lucky — your Tesla.
Flow batteries are the most advanced battery type on this list. They have a much larger capacity than the other two and offer both a longer cycle life and longer storage life. The drawback is that they cost significantly more.
Now it’s time to work out which type of solar battery is best for your needs. We put together a simple checklist to help you get there.
If you have a smart meter, this will give you a good approximation of your daily, weekly, and monthly usage. If not you’ll have to take the longer route — add together the wattage of every single appliance in your home and then multiply it by the number of hours you use it every day, week, and month to calculate the kilowatt-hours for those time periods.
Your solar battery will come into play whenever your solar panels can no longer generate enough power to keep your home running. Find out how many hours of sunlight your home receives each day around the year, and from that calculate roughly how many hours you’ll need your battery to cover.
Also, think about your usage patterns — if you use most of your high-wattage appliances during sunlight hours you’ll have less need for a battery than if you use them at night. Remember to consider power outages if that’s a factor in your area. If you want to go fully off-grid, you’ll need a much bigger battery.
How much are you willing and able to spend on a solar battery? Remember that some batteries, like lead-acid, are much cheaper than others, like flow batteries. Batteries with a larger voltage, storage capacity, cycle life, and storage life are typically more expensive, so you’ll need to weigh up the options to find the right fit for your budget and needs.
One of the best things you can do when choosing a solar battery is to consult with a professional. At SnapSolar, we’ve helped countless households and businesses in Mackay and the surrounding Queensland area with this.
We can answer all your questions relating to your solar battery and help you make the right long-term decision for your budget and solar needs. Get in touch with us to find out more and get started.
2023 has been quite the year already. It’s starting to feel like we get a new global crisis every day, and nobody can deny that the world is changing fast.
One of the biggest and most immediate challenges facing Australian families is the skyrocketing cost of electricity, coupled with unstable pricing. Jeff Dimery, chief executive of Alinta Energy, said that energy prices could increase by 35% over the course of 2023, and there’s a good chance it won’t stop there.
We’re not saying this to scare you or drive you deeper into a pit of existential despair (the news will take care of that). Instead, we want to share a more optimistic viewpoint — about how switching to solar energy is the perfect way to future-proof your home against rising energy costs and build a more stable and sustainable future.
In a time of economic uncertainty, dropping a chunk of cash on a new energy system for your home can feel pretty daunting. We get it. But here are just a few of the reasons why switching to solar is one of the smartest energy choices you can make.
By switching to solar, you take a big step towards generating all your energy self-sufficiently. This means you can rely much less on the electrical grid in your region — and maybe even stop relying on it completely.
This means you’ll no longer have to worry so much about changing energy costs. You won’t have to start anxiously rethinking your budget every time you see the words “energy crisis” on the news. You’ll be able to take control of your own energy production — an incredibly smart move as prices look set to keep going up.
Solar is a much more environmentally-friendly source of energy than fossil fuels like oil, coal, and gas. It produces no emissions and relies on sunlight which is a renewable resource (at least for the next few billion years).
This is a good thing for many reasons, but from a financial perspective, it means you don’t have to worry about cost increases linked to environmental causes. As climate change becomes a bigger concern for governments, it’s likely that energy costs will rise to reflect this. Investing in a sustainable, green source of energy today is an excellent long-term strategy.
One of the many unfortunate downsides of energy crises is power shortages — a natural consequence of limited resources and infrastructure issues — and these could become more common as time goes on.
Solar is an excellent way to defend against power outages, by helping you reduce your dependence on the electrical grid and also store power in your solar batteries to keep things running even when power is scarce.
What’s the best way to switch to solar power and future-proof your home against energy crises? There are a few key steps to take here:
At SnapSolar, we’ve helped countless households and businesses throughout Mackay and the surrounding Queensland area switch to solar confidently with the best plan for their needs. We’ll help you through every step of the process so you can take control of your energy needs and protect yourself against energy crises for good. Get in touch with us to learn more and get started.
Solar energy is great for pretty much everyone, but some households can benefit even more than others. One example of this is people who live in the rural parts of Australia, far away from large cities.
Australia is a big country, with a lot of space. And according to the Australian Institute of Health and Welfare, about 7 million people – or 28% of the Australian population, live in remote and rural areas.
For these people, solar energy can be an incredibly useful asset, helping solve many of the energy-related challenges involved with living in the country. In this article, we’ll look at some of these challenges and the specific ways solar helps address them.
Living in a rural environment comes with a ton of unbeatable perks, as almost anyone who lives there will know. However, you’ll also know that living out in the country comes with a few challenges, and some of those relate to how you access and use energy.
Let’s take a look at some of the main challenges:
The more remote you are, the more serious these problems become. Many remote communities in Australia rely heavily on diesel generators for their power. But there is a better way — solar energy.
Here are some of the ways solar can help tackle the energy issues in rural Australia.
As you can see, solar is an excellent choice for people living in rural and remote parts of Australia. You can tap into one of Australia’s most abundant natural resources — sunlight — to generate your own steady flow of energy and take a step away from the electrical grid.
By building your own solar panel system, ideally backed up by the right solar battery, you can minimise or even eliminate the power outages that are a constant challenge for many remote communities. Take charge of your energy with solar.
At SnapSolar, we help households and businesses in Queensland get started on their own solar journeys. We can talk you through everything you need to know to get started, from the right type of panels to the best maintenance methods, and help you install the perfect solar panel system for you and your needs.
Get in touch with us to find out more and get a quote.
Solar energy is becoming a more and more popular choice all the time. Today, most people are aware that solar is the best choice for the environment and one of the most sustainable ways to power your home. With global energy crises and gloomy predictions about the climate dominating the news, more and more of us are considering solar.
For many households and businesses, though, there are still a few things holding them back. Some of these concerns are legitimate, but a lot of them are simply myths. In this article, we’ll take a look at some of the most common misconceptions about solar, and help you get to the truth.
We’re not going to pretend that solar panels are cheap — we’re still some way off that. But there is a common myth that they’re extremely expensive, out of reach for all but the wealthiest people, and significantly more expensive than traditional energy sources like coal and gas.
The truth is, solar panels are cheaper than they have ever been, and have become significantly more expensive over the years. On top of that, solar setups often end up paying for themselves in less than five years, making them much more affordable than traditional energy sources in the long run.
Finally, many regions even allow you to make money off your panels by returning surplus energy to the grid in exchange for compensation.
The cost of your panels will be impacted by a range of factors like the type of panels, the size of the system, and the solar batteries you use.
Some people believe that solar panels are only worth the investment if you live in a hot region with year-round sunshine. While it’s true that solar is more efficient in areas with lots of sunlight hours (like Mackay, Queensland) it’s not necessary to live in the Sahara desert to reap the benefits.
In fact, solar panels are capable of generating decent amounts of energy even in cloudy or colder regions. Solar panels work by capturing photons from sunlight, a process that works as long as it’s daylight. Solar power is growing in popularity even in countries like Scotland and Iceland, where sunlight is scarce.
“But what about when the sun stops shining?”
It’s a common criticism of solar, one you’ve probably heard before and maybe even found yourself thinking. Many people believe solar only works when the sun is shining and is therefore highly unreliable.
This is not true, because the energy your panels generate can easily be stored for later use. This is done with the use of solar batteries, which allow you to keep your home powered by solar around the clock, even at night time.
Solar is a relatively new and complex technology, so it’s easy to assume that solar panels require a ton of maintenance and upkeep.
The reality is that solar panels only require minimal maintenance. If you take the right basic steps to care for your panels, they can last for decades without any major work needed.
Care for your solar panels by keeping them clean, using critter guards to discourage small animals from damaging them, and having regular inspections to make sure everything is running smoothly.
Many years ago, it was true that solar energy was not advanced enough to keep a full home running around the clock. Today, that’s no longer the case — solar is now advanced and powerful enough to provide energy for entire homes and even business units.
Solar is now much more efficient than it was, and the technology continues to improve with every year. It’s entirely possible to meet all your energy needs with solar energy.
It’s essential to understand the truth about solar power and not fall victim to any of the myths about this technology. Many of these misconceptions have not been true for years, and some of them were never true in the first place.
At SnapSolar, it’s our job to make sure you have all the information you need about solar so that you’re fully equipped to make an informed decision about your energy future. We can walk you through every step of the process, from research to decision-making to installation and ongoing support.
Get in touch with us to learn more and start your solar journey today.
It’s no secret that electricity outages are a regular occurrence in Mackay. Whether it’s caused by weather or system failure, there’s almost always a looming fear that you’ll have to spend the night without power.
But what if you could have a solution that not only saves you money on electricity bills but also ensures that you never have to worry about outages again?
Meet Tony, our client who did just that.
Tony had an existing 6.6kw solar system installed in his home, which helped him reduce his reliance on grid power and save money on his electricity bills.
But he wanted more.
He knew that in order to be completely self-sufficient, he needed a battery system that could store the excess solar energy produced during the day for nighttime usage and provide power during an outage.
That’s where we came in.
We specialise in solar power and battery systems, and we helped Tony install an additional 6.6Kw Solar System with a 9.6Kw battery system.
The new system meant that Tony could store solar energy, and in the event of an outage, the battery would kick in, providing him with uninterrupted power. But that’s not all.
Tony also received $71.46 in credit thanks to the Queensland Solar Scheme, which meant that he didn’t have to pay for any electricity in his last bill and is now in credit for his next bill.
Here’s what Tony said:
“Hi Jack… continued from the message above… plus here is more good news. We received another electricity statement with NIL to pay… which of course is great and is what we set out to achieve… see attached statement… this also shows that as we know since the upgrade and battery, our power from grid usage has dropped heaps. I see we get a $75 solar scheme rebate… which more than offsets the electricity grid 90 cents per day service access fee. However, I don’t understand yet how it is we feed into the grid heaps more than the $75 rebate worth of power… plus I am keen to learn how the QLD solar power tax that comes into effect 1st of July 2025 will effect us… I might phone the retailer and ask them… perhaps once we receive the additional two battery modules this month then we ca consider disconnecting from the grid altogether… is that something you would do personally at your place?
Cheers Tony”
In summary, Tony had an existing 6.6Kw solar system which helped him to reduce his electricity bill. We installed an additional 6.6Kw solar system with a 9.6Kw battery system, which now means that Tony is now in credit each month of $61.53 and is extremely happy.
Keep reading to see how Solar Power can benefit you!
Here are the 6 benefits of installing solar power to your home or business:
The Queensland government has implemented a range of solar incentives aimed at increasing the uptake of solar energy by households and businesses. The state government’s Solar Homes and Communities Plan provides eligible households with a rebate towards the installation of a solar photovoltaic (PV) system. Furthermore, businesses can claim up to $3,000 for each kW of installed capacity.
Additionally, the Office of Clean Energy also offers businesses interest-free loans of up to $250,000 to fund energy-efficient equipment, including solar PV systems. The government’s Solar for Schools initiative provides grants for up to $1 million for schools to install solar PV systems, improving their sustainability and reducing energy costs. These incentives are part of the state government’s wider renewable energy commitments, which aim to generate at least 50% of Queensland’s electricity from renewable sources by 2030.
A solar power and battery system might seem like an expensive investment, but the benefits quickly outweigh the costs. With electricity prices projected to rise over 30% this June, having a solar power and battery system can save you thousands of dollars in the long run. The upfront cost might seem daunting, but the return on investment is significant.
But it’s not just the financial benefits that make a solar power and battery system worthwhile. It’s the peace of mind that comes with knowing you’ll never have to worry about losing power again. With a battery system, even if the grid goes down, you’ll still have power. This means that you can sleep comfortably, knowing that you’re not completely reliant on the grid.
If you’re interested in reducing your reliance on grid power and taking control of your electricity bills, then it’s time to consider a solar power and battery system. SnapSolar specializes in designing and installing systems that are tailored to your specific needs. They assess your energy usage, your roof space, and your budget to create a system that’s perfect for you.
The benefits of a solar power and battery system are undeniable. They help you save money, reduce your reliance on grid power, and provide you with uninterrupted power during outages. Tony’s story is just one example of how a solar power and battery system can change your life. So why wait? Contact our SnapSolar specialists today and take the first step towards a brighter, more sustainable future.