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Why this option?
Solar cells are one of the greatest inventions of all time. They don't move, don't require fuel, and they don't need maintenance. They just sit in the light and produce power. Solar panels are warranted for 25 years and last 50+ years, (or more as the first ones produced are still producing power). The only reason everyone doesn't use solar power is because they have remained more expensive per watt than grid power. The price is decreasing while grid power continues to increase. If the subsidies available to the traditional, (coal, gas, oil, etc.), power producers were eliminated or shared with green energy, the cost differences would disappear. Even with the price difference, solar power has many applications.
How does solar work?
Photovoltaic, (solar), panels simply make electricity out of light. The best light is direct sunlight. When the panels are exposed to the sun's energy, the energy is transformed into direct current electricity which can be used immediately (for pumps and fans) or stored in a battery for future use. This electricity can be inverted to alternating current, (ac power), then either sent back through the power lines for credit (net-metering), or used to power an application or home.
Solar thermal, (heating), uses the infrared waves from the sun to heat air or water.
What products and options are available?
Appleseed Energy offers a full line of alternative energy products, consulting, installation and service. We have extensive experience living off-grid with the wind and sun, and can find a solution to any need. If your building site or cabin is too far from the power lines it could be less expensive to build a power system which has no monthly payments or blackouts, and can provide the requirements of any lifestyle. No need for the smelly, noisy and expensive generator to be running all the time. Solar is an important component to any power system.
Off-grid vs. On-grid
Solar thermal can be used for off-grid and on-grid applications. Anywhere there is a need for hot water or hot air.
Solar electric can be used on-grid through Nova Scotia Power's net-metering agreement to help eliminate monthly charges.
Off-grid applications include stand-alone solar systems for cabins, boats, and complete year-round homes.
Example:
Solar and wind can be used for everything from maintaining a battery, to charging marine battery systems while the motor is not running, to weekend or holiday lights and entertainment at the cabin, to a full-fledged modern home. My wife and I currently live with 3 separate systems. The first being a small panel to keep a battery charged for a small tv/radio in an
art studio. The second is a system to power a television, charge tools, and run computers in a guest cabin. The third is a complete home sized system for full-time use. They all work wonderfully well and require little maintenance. They give you an additional reason to appreciate the sun.
Benefits
Of course there are the benefits to the environment. Solar is a true "green" energy source and is completely renewable. There are other benefits that might not be so apparent. A solar system can pay for itself many times through its lifespan. It can also be very economical compared to running power lines after a certain distance from the source, (usually around 1 kilometer). And of course there are no extension cords long enough for marine applications. One of the most important benefits is the effect it has on the power system owner. A feeling of pride usually accompanies an installation, and an empowered sense of self-reliance. When somebody asks what you did during the last power outage you can say "what power outage".
Solar Energy
On planet Earth, sunlight is an incredibly important form of energy. Every day, the sun pours unimaginable amounts of energy into space. Some of it is in the form of infrared and ultraviolet light, but most of it is in the form of visible light. Some of this energy falls on the Earth, where it warms our planet's surface, drives ocean currents, rivers, and winds, and is used by plants to make food. Life on Earth depends totally on the sun.
Photovoltaic Cells
Visible light can be converted directly to electricity by a space-age technology called a photovoltaic cell, also called a solar cell. Most photovoltaic cells are made from a crystalline substance called silicon, one of the Earth's most common materials. Solar cells are typically made by slicing a large crystal of silicon into thin wafers and putting two separate wafers with different electrical properties together, along with wires to enable electrons to travel between layers. When sunlight strikes the solar cell, electrons naturally travel from one layer to the other through the wire because of the different properties of the two silicon wafers.
A single cell can produce only very tiny amounts of electricity-barely enough to light up a small light bulb or power a calculator. Nonetheless, single photovoltaic cells are used in many small electronic appliances such as watches and calculators.
Photovoltaic Arrays
To capture and convert more energy from the sun, photovoltaic cells are linked to form photovoltaic arrays. An array is simply a large number of single cells connected by wires. Linked together in an array, solar cells can produce enough electricity to do some serious work! Many buildings generate most of their electrical needs from solar photovoltaic arrays, including the Toronto Healthy House, which gets 80% of its power from the sun.
Photovoltaic arrays are becoming a familiar sight along roadsides, on farms, and in the city, wherever portable electricity is needed. They are commonly used to provide power for portable construction signs, emergency telephones, and remote industrial facilities. They are also becoming popular as a way of supplying electricity for remote power applications such as homes and cabins that are located away from power lines, for sailboats, recreational vehicles, telecommunications facilities, oil and gas operations, and sometimes entire villages-in tropical countries, for example.
Storing Electricity
Solar panels make electricity in all kinds of conditions, from cloudy skies to full sunlight, in all seasons of the year. But they don't work at all during the nighttime! To make electricity available after sundown, the energy must be stored during the day for later use. The usual storage device is a rechargeable battery.
The batteries used with solar arrays must be able to discharge and recharge again many times. They contain special parts and chemicals not found in disposable batteries. They are also usually larger and more expensive than their disposable cousins.
Besides solar panels and rechargeable batteries, modern photovoltaic systems are usually equipped with some kind of electronic charge controller. The main job of the charge controller is to feed electricity from the solar panel to the battery in the most efficient manner and to prevent the solar panel from overcharging the battery. The charge controller also protects the solar panels from electrical damage.
In many cases, people need the electricity stored in the rechargeable batteries for use with normal household appliances. The problem is that most of those appliances require 110 volts of alternating current ( 110V AC), whereas the battery puts out only direct current (DC), usually at a much lower voltage. A device called a power inverter solves this problem by converting the battery's low-voltage direct current to 110 volts of alternating current. Modern charge controllers often come equipped with their own built-in power inverters.
Solar Electricity in Everyday Use
Photovoltaic panels, like computers and other technologies, are getting cheaper and easier to buy. In fact, many people consider them a great alternative to gas-powered generators or connections to the regular electricity supply. Some countries such as Japan have encouraged businesses and communities to install solar panels on the roofs of new buildings to reduce the need for electricity from other sources.
Many homes and businesses have both a connection to the commercial electrical supply system (often called the "electricity grid"). The solar panels can provide all or most of the building's electrical supply during the day, and the grid supplies whatever other electricity may be needed during the night. In some cases, the panels make more electricity than is needed in the building, and the excess is sold to the power company. This results in the power company sending the building owner a cheque instead of a bill!
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