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 proceed with their work if there are power disruptions or fluctuations. The usual outcome could lead to incomplete work or services and can incur a significant hassle. So how do you deal with these kinds of issues? We might just have the right solution for you. Besides, you would not want to be losing because of the same problem, would you?
The Benefits of Solar Panels
Ever wondered 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 residence or your business.
1. Install Solar Panels and Save thousands of dollars
The data on a latest study showed that homeowners save an average of $44 to $187 per month in the first year of possessing alternative energy panels. That is like $528 to $2,244 every year! In the end, your system could pay for itself within the next five years and continue 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 increasing since it was first introduced to the public. As a matter of fact, solar panel setups rose 70 percent in 2015 over the previous year; while costs have plummeted 73 percent since 2006.
2. Invest in your home and business
The average solar power system uses 3,600 watts, which means you can visualize 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 call for only a small 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 compare it to the devastating global warming effects of our energy which is currently dependent on electricity generated by coal and oil. Solar panels utilise the energy that is already existing and does not harm the environment.
Now you might ask yourself, “How do I get my hands on these?”
Lifestyle Trades provides solutions to all places which are individually owned and operated and Worongary, Qld is one of those. Check our elite handpicked tradesmen and give us a call so we can organize a quote for your needs.
Start taking advantage of these solar power systems advantages 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 ROI could be, and even the installation’s break-even point.
Solar Panels – 4 Things You Need To Understand
3 Ways to Collect and Use Solar Energy
If you measure the sun’s power in terms that compare it to the energy produced by oil, the sun gives enough energy to the Earth in about 20 minutes to fulfill all of the planet’s requirements for a year! And in fact, solar energy already provides a great deal of power to the Earth by transforming through a variety of natural means, by heating surfaces, influencing weather phenomenon, and even through photosynthesis, which provides plants with the energy they require in order to grow.
So what are some ways that we on Earth can take better advantage of all this freely distributed solar power? Energy from the Sun can be processed in three primary ways:
1. Passive Solar Techniques
This refers to the ways that the sun’s light and heat can be used to advantage without any further processing needed. This category includes things as simple as allowing sunlight to stream through a window and into a home, warning the rooms naturally.
Some ways to take advantage of passive solar techniques would be use of energy efficient windows, and planning the best placement of concrete and ceramic floors so that they can collect and store more sunlight.
A building that has been optimized for passive solar may have additional windows placed on the south side, for instance, to take advantage of the most hours of sun per day. Even something this simple can greatly reduce home energy bills.
2. Collection of Solar Energy
Solar power can be collected and stored as heat energy. Solar Collectors take in solar radiation and then concentrate it into very defined areas, increasing the strength and heat of the energy. These can be used to heat or cool water or rooms, or to create power to enable air or liquids to transfer heat to a separate location.
Different types of solar collectors include:
– A set of pipes that fits into a copper or metallic flat plate that has been insulated inside a box under glass. The sun streaming through the glass produces heat in the plate, which is then directed into the liquid in the pipes. This is known as a “Flat Plate Collector”.
– A tube is a more efficient way of collecting solar energy at high temperatures. This type of solar collector is made from a series of tubes, which are then installed in separate glass vacuum tubes. These prevent the inner tubes from cooling, and ensure that more heat is sent into the fluid. At extremely high temperatures, a reflector may be used in order to concentrate the solar energy into the tubes.
– Heating water using solar power was the first use of solar energy, starting in the early twentieth century. These systems can be used year round (even in cold climates when combined with use of anti-freeze), and are now commonly seen in many countries.
– Solar powered air heaters mounted to a wall are used primarily to heat the ventilation air for buildings that have large open spaces. The air comes through holes in a dark metal container where it is heated and is then taken into the building.
– A newer form of solar collector involves the use of mirrors to run steam turbines that create electricity. These thermal power systems are becoming particularly popular in hot, dry climates where there is a great deal of both sunlight and open land.
– Evacuated tube collectors can also be used to power cooling systems by taking the high temperature heat from the tubes. This technology can help reduce the use of natural gas, which would ordinarily be used to run cooling systems.
3. Solar Cells
Solar energy can be turned into electricity through use of photovoltaic (PV) solar cells. This method uses modules each consisting of an array of solar cells which are connected together inside a glass covered container. Any number of these modules can be used together in order to produce a larger or smaller amount of power, depending on what is needed for a particular application. PV solar cells are usually made from crystalline silicon or quartz. Other materials that can be used are amorphous silicon, cadmium telluride, or copper indium di-selenide.
The cost of making PV cells and solar panels (modules) has been decreasing recently with the development of new manufacturing techniques. These are widely used to provide power for remote stand-alone structures such as lighthouses and radio towers, and for heat and lighting in developing countries. The use of solar panels to supply energy for home use is increasing in developed countries as well, and many governments are encouraging their use by providing financial incentives to those who install solar panels for their residences. In addition, improvements in the process of constructing solar panels is now making it much easier for people to build their own, at a dramatic cost saving over commercial panels. It is now quite feasible for a homeowner to save a great deal on electricity by building and installing their own solar panels.
If you’d like to learn more, get your complete guide on how to make a solar panel [http://www.tomakeasolarpanel.info/] at home to reduce or even eliminate your electricity bill!
Five Things to Keep in Mind Before Hiring Solar Panels Help
Solar Panels for Solar Power
In general, solar energy can be described as the energy that is received from the sunlight and converted by a mechanical source for home use. It’s cheaper and reliable for operations since the sun is readily available. On the other hand, solar panels are the mechanically built materials whose main purpose is to convert solar energy to electrical energy. They are built from an element called silicon. It is the core duty of the silicon element to covert the solar energy to electricity. The solar power can either be directly or indirectly gotten from the sunlight. When it’s cloudy the intensity of the solar power delivered perfectly, the photovoltaic solar materials deliver sun rays into electricity and the solar thermal receiver changes the solar power into heat solvents, such as oil and water. This type of power is used in, iPod chargers, charge batteries water heaters, cell phone chargers and spacecrafts.
How do solar panels work? They practically work on the photovoltaic invention. Its name is derived from the technology used, which is also known as PV, which is made from silicon element. They are basically semiconductors made from sand built into large computer chips. When sun rays falls on the PV materials, the PN junction in it with its metal conductor helps produce electricity. At this juncture, the PN junction is the positive and negative charges that assist to produce electric current. Solar energy is available in different systems, grid connection, inverters and power storage. In a different system, the PV takes up large space up the roof to produce more energy. It can also be built on land space and produce up to 5-9 Megawatts per hour. They can also be useful in street lighting.
How are solar panels made? They are basically made from three-dimensional points; the crystalline silicon production, the crystalline silicon panels and the amorphous silicon panels. This stand of the solar-energy production is what is used in the present. In the crystalline silicon production, for example, when the silicon element is melted and cut it is named the poly crystalline silicon. In its other mode when it is built and cut, it becomes mono-crystalline silicon. In both cases, they are about; a hundred percentage pure silicon. In the second case of the crystalline silicon panels, they are normally broken into pieces and then sliced, finally being polished with doping materials. This changes the state of electric charge inside them to cells. The amorphous silicon panels are made from silicon alloys combined with multilayer cells for energy production. This combination explains how the solar power is made.
What are latest technologies of solar panels? The newest technology of solar energy has emerged in a wide range of things. This starts with the green power alternatives which is common for home use. The other aspect of it is the Power cooling and heating systems in homes. The high-technology appliance and periodic lighting at home is the other good examples of solar-energy development. New personal computers development for smart homes is also left out of the latest ideas of the solar power.
DIY vs. Professional Solar Panels
Life Expectancy of Solar Photovoltaic Panels
You’ve bought into the idea of generating electricity through solar means, so now what? Naturally, any homeowner or business interested in photovoltaic power wants to know how long these panels will actually last. Since solar modules have no moving parts, they actually can last a pretty long time. Typically, solar panel manufacturers issue a 20 or 25 year warranty on panels, but most installers say they can endure more than 40 years with proper care.
Andy Black, one of the leading solar financial analysis experts and instructor, recently published his report on the lifespan of solar panels. His analysis showed that the first solar panels manufactured about 40 years ago are still creating power at about 80% of their original power. From that study combined with his other analysis, he concluded that most solar panels will lose about a half percent a year in efficiency.
This new information should affect how homeowners and businesses analyze a solar investment. If you spread the investment over 30 years (or 40 years) rather than 20 years, the return on investment is much more substantial. Thereby, those who investment in solar power can feel more secure that they are making the right decision.
Although the solar array on your home will likely not be worth as much as new panels with the same wattage in 25 years, it should have paid itself off many times over and will still be producing free power for your home. There is no reason to buy new panels if the ones you already have are still producing enough power for your needs.