4 Reasons Why You Should Be Getting Solar Panels for Your Home
You are not alone. It is hard for business owners or even regular households to carry on with their work if there are power disruptions or fluctuations. The usual result could lead to half-done work or services and can incur a considerable hassle. So how do you deal with these kinds of situations? We might just have the right solution for you. Besides, you would not want to be losing because of the same issue, would you?
The Benefits of Solar Panels
Ever thought about whether the benefits of solar panel systems could exceed the costs?
Need some more convincing? Below are four reasons why you should be getting a solar panel for your home or your business.
1. Install Solar Panels and Save thousands of dollars
The data on a current study showed that homeowners save an average of $44 to $187 per month in the first year of having alternative energy panels. That is like $528 to $2,244 every year! At some point, your system could pay for itself within the next five years and carry on saving you money on your utility bills for many years to come. In some local businesses, the average cost savings even reaches more than $20,000 over two decades.
The interest in installing this alternative, sustainable source has been building since it was first introduced to the public. As a matter of fact, solar panel installations rose 70 percent in 2015 over the previous year; while costs have gone down 73 percent since 2006.
2. Invest in your home and business
The average solar power system uses 3,600 watts, which means you can predict an additional $4 in home resale value per watt. Considering that the cost per watt right now costs around $3, and is projected to rise some more in the future, solar energy will proceed to be a great investment for your home and business.
3. Lower your energy reliance
Generators can break down, fossil fuels can run out, and utility providers can disintegrate. The sun, on the other hand, is not going anywhere anytime soon. The sun gives off roughly 4 million tonnes of energy a second, and we only utilise 0.0001% of it. Our solar panels require only a minimal piece of that solar energy to power your home.
4. Help save the environment
A single solar system installation counteracts 178 tonnes of carbon dioxide over 30 years, which is equivalent to planting ten football fields full of trees. However, this may seem not much until you contrast it to the devastating global warming effects of our energy which is presently dependent on electricity generated by coal and oil. Solar panels utilise the energy that is currently existing and does not harm the environment.
Now you might ask yourself, “How do I get my hands on these?”
Lifestyle Trades provides services to all locations which are individually owned and operated and Yellow Wood, Qld is one of those. Check our elite handpicked tradies and give us a call so we can set up a quote for your needs.
Start taking advantage of these solar power systems benefits today. To compute how much solar panels could save you, you can use a solar cost calculator. The calculator can show you what your 25-year return on investment could be, and even the installation’s break-even point.
Solar Panels – Three Things You Need To Know
The Benefits of Residential Solar Panels
Are You Considering Residential Solar Panels For Your Home?
Residential solar panels are a great investment that not only save you money and can increase the value of your property, but they also help the environment. Solar power is becoming very price competitive with conventional energy sources and there are many federal and state rebates and incentives in place to compensate you for the power you produce and also help offset your initial investment cost. The cost of residential solar panels for your home have decreased significantly, dropping over 40% in just the last few years. There has never been a better time to make the move to renewable clean energy for your home or business.
The Basics of Residential Panels
Residential panels convert the sun’s light energy into electricity using an arrays of solar photovoltaic cells to convert photons into usable electricity. Solar cells, or photovoltaic cells, are arranged in a grid-like pattern on the surface of the panel to produce a specific wattage of electricity. Then multiple panels are arranged in an array and installed on a roof or in a field, which produce energy that can power a home or business.
Residential panels typically are constructed with crystalline silicon and the more expensive gallium arsenide, which is produced exclusively for use in photovoltaic cells. More efficient panels are assembled by depositing amorphous silicon alloy in a continuous roll-to-roll process. Cells created from this process are called Amorphous Silicon Cells, or A-si. Panels constructed using amorphous silicon technology are more durable, efficient, and thinner than their crystalline counterparts.
The newest panels function on the molecular or quantum level. These panels are created by implanting carbon nanotubes or quantum dots into a treated plastic. Unlike silicon-based panels, these panels do not have to be constructed in a clean room, and therefore production costs are somewhat lower.
Residential panels work by collecting radiation from the sun and actively converting that energy into electricity. Solar panels are comprised of several individual solar cells. These cells function similarly to large semiconductors and utilize a large-area p-n junction diode. When the cells are exposed to sunlight, the p-n junction diodes convert the energy from sunlight into usable electrical energy. The energy generated from photons striking the surface of the solar panel allows electrons to be knocked out of their orbits and released, and electric fields in the cells pull these free electrons in a directional current, from which metal contacts in the cell can generate electricity. The more cells in a solar panel and the higher the quality of the cells, the more total electrical output the solar panel can produce.
How Much Power Can Be Produced?
The amount of energy that is produced by solar panels is influenced by the quality of the panel, the materials and technology that are used in making the panel, and the amount of time the panel has been in use. When purchasing solar panels, it is best to look beyond the size of the panels and to look at the dollars/watt ratio.
Residential solar panels of the same size may produce variable amounts of electricity, this discrepancy is caused from variations in the functioning age of the solar cells, the quality of the solar cells, and with what technology was used to produce them. Early cells are not quite as efficient as modern cells. Panels have an effective lifespan of about 20 to 25 years, and their value and wattage output decrease steadily over time.
Get More Out Of Your Residential Panels
The best way to get the most out of your residential solar panels is to take simple steps like switching to CFL or LED light bulbs, invest in energy star appliances, use smart power strips that turn off electronics when not in use, and making sure your windows, doors, and insulation are energy efficient.
Five Things to Keep in Mind Before Hiring Solar Panels Help
Modern Solar Panels
Until now we have been using fossil fuels for sustaining most of the daily activities that need electric power. Hot water, warmed rooms during winter, lights in the house and in the garden they might all fade away. Alternative energy can be something to consider as it is for free and it does not pollute the environment. We are talking here about special devices that can capture the sun light and transform it into power. Such a device is the solar panel.
Solar panels are made of many solar cells, also known as photovoltaic cells that are connected with each other and placed in a frame. These solar cells are responsible with capturing the sunlight and transform it into energy. The solar panel must be exposed in a sunny place where are no shadows to interfere with the sun light capturing process. Such a place can be the house roof. The higher the sun light intensity is, the higher the quality of the solar panel output is.
Modern solar panels have attached to them a storage unit which allows them to store energy and use it when the sun is not on the sky or when it does not provide enough energy to the panel. Such a thing can happen during the night or in the cloudy days and we still need power during those times so it is best to have a storage unit installed on the solar panel.
Solar panels are not what they used to be. They are being improved and modernized every year and now we can find on the market solar panels at a medium size that can capture and store enough energy to provide enough electricity for our daily activities with no problem.
Solar panels can charge our cell phone’s battery, they can heat our bathing water, they can light our gardens during the night and warm our homes in winter and all this is being done for free, this is why they are such a great invention.
Consulting with an expert in this matter in order to decide which type of solar panel suits you best should be taken in consideration if deciding to have solar panels installed on your house. More and more people are installing such wonderful devices on their property and they are all happy that their bills are running low and they protect nature.
DIY vs. Professional Solar Panels
Most Efficient Solar Panels
When attempting to create the most efficient solar panels, one must pay close attention to the back-sheet portion of the panels.
A back-sheet is the layer of the solar panel where the solar cells are laid out. The other side of this back-sheet, specifically at the top middle area, is the junction box. A back-sheet is often made of polyvinyl fluoride or P.V.F. which is similar to P.V.C. or polyvinyl chloride, the material used in conduits and water pipes. P.V.F. is commonly used in airplane and vehicle interiors.
DuPont, an American chemical company founded in 1802, created in the 1940s the polyvinyl fluoride (P.V.F.) polymer. After around 10 years, they started developing products based on their invented material. 20 years after invention, the Tedlar brand name was finally registered by DuPont in the US. Eventually, Tedlar became the leading choice of material for the back-sheets of solar panels and is also recognized as the standard in the other industries it serves.
Polyvinyl Fluoride (P.V.F.) has excellent non-stick properties making it easy to clean. It is also weather resistant and can prevent water from penetrating the solar cells. It also does a good job in keeping water vapor from getting in. Another important feature of P.V.F. is its low thermal resistance which is crucial in the operations of the solar cells. Low thermal resistance means that the material is capable of resisting heat from transferring to the solar cells which can affect the layers that compose it. This is also the reason why some solar panels do not perform as expected when the temperature rises above 25 degrees Celsius (77 degrees Fahrenheit). All solar panels in their data-sheet have a term called “temperature coefficient pMax” and this determines the percentage of reduced performance for each degree added above 25 degrees Celsius. If the “temperature coefficient pMax” is -0.47% then the maximum power of your solar panel is reduced by 0.47% for every degree rise in temperature (Celsius). Conversely, when the temperature is below or at 25 degrees Celsius, the solar cells perform better and can increase above its rated output.
Making the most efficient solar panels requires high quality materials such as Tedlar but if you are making one on your own, an alternative would be just a plain good old plywood. Painting this plywood with a protective coating such as latex acrylic paint should do the job in resisting UV and preventing water from getting in. Plywood is also non-conductive but may not have the low thermal resistance that P.V.F. has.
At [http://howtomakeasolarpanel.net], we write articles specifically focused on solar panels meant for the home and other personal uses. We provide our guests with direct links to purchase books and programs on any solar panel topic.
Come check out our page of educational YouTube videos for the DIY folks. Anything to do with solar and the efficiency of cells and panels is discussed on our blog.