Lemon Grove Solar Power

So, what exactly is involved in calculating solar panels cost in Lemon Grove? When thinking about solar power very few people know the way the cost of solar panel systems is actually measured. Or even, for that matter, do we automatically grasp the connection relating to the cost of solar power and the value of solar power. We all know that gasoline prices are in dollars per gallon. We likewise are all aware of approximately how far we’ll be able to drive after spending 40 bucks for a tank of gas. In contrast to a tank of gas, the value of which can be consumed pretty much instantly, solar panels deliver their value across a period of time.

Cost To Install Solar Panels

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Solar Panel image by kuhar from Fotolia.com Although it comes with a steep price tag, building your own solar energy system comes with many benefits. Depending on how much installation you do yourself, your payback period can be dramatically reduced. Building your own system requires advanced knowledge of home-improvement techniques, including electrical, circuitry and roofing. This project may take four to five full days of work, depending on how large of a system you are installing. Things You'll Need Pen Paper Solar panel kit Mounts Silicone with caulking gun Power drill Heat gun Charge controller Deep cycle batteries Insulated electrical wire AC inverter Wire strippers Soldering iron Adhesive-lined heat shrink tubing Electrical tape Write down on a sheet of paper the appliances that you are desiring to operate with solar power. Write out the total amp rating of each appliance as well as the number of hours that each appliance will operate throughout the day. Multiply the the amp rating for each appliance by the number of hours you plan to operate it. This number will indicate the total amp hours that you need to provide through your solar power system. Generally, the total amp hours from your appliances should equal no more than 50 percent of the total capacity of your battery bank. For example, if you plan to use your appliances for 200 amp hours on a daily basis, your battery bank should a charge up to 400 amp hours. This will help to determine the number of batteries that you need, however, the amperage on deep cycle batteries vary depending on which product you purchase for your system. Mount the solar panels on the south-facing portion of your roof-top by using a power drill and the mounting kits provided with the solar panels. Solar panels should be angled so that they match the latitude of your location, plus or minus 15 degrees depending on seasonal adjustments for the height of the sun. For example, if you live at a location where the latitudinal coordinate is 30 degrees, the panels should be mounted 30 degrees from horizontal. If your kit includes the ability to change the angle at which the solar panels are mounted, you should add an additional 15 degrees during summer months and subtract 15 degrees in the winter, when the sun's height is lower in the sky for a shorter duration of time. Solder 12 gauge electrical wiring to the two output terminals found on the side of the solar panel. The black 12 gauge wire should continue from the positive terminal of the solar panel and the white wire should connect with the negative terminal. Use the green wire to connect to the solar panel's frame as a way to ground the wire. Expose at least one inch of the copper wire by stripping the sheath of the two wires you are joining together. Twist the two wires being joined together into an "X," wrapping the first wire's end along the length of the second wire until the first wire's end is completely wrapped around the second wire. Repeat the same process for the second wire. Heat the joint by holding the soldering iron beneath the wire joint. Apply the soldering iron and solder to the top part of the joint, adding more of the soldering wire until the joint is completely covered with solder and the exposed wires are no longer visible. Wrap adhesive-lined heat shrink tubing around the newly soldered joint, heating it tubing with a heat gun until it covers the solder. Connect the ends of the extended wiring coming from the solar panels to a charge controller, which has screw-on connections for input wires. The charge controller prevents the deep-cycle batteries from becoming overloaded, thus reducing the maintenance and cost of your solar power system. The charge controller should also be stored adjacent to the batteries. Wire the deep-cycle batteries together so that they form a circuit by using either a parallel or series pattern. Use 8-gauge wire to connect the batteries. To connect the batteries into a series circuit, which doubles the voltage of the system, wire the negative terminal of one battery to the positive terminal of its adjacent battery. Continue this pattern until all terminals are connected. To connect the batteries into a parallel circuit (which doubles the amperage of the system) connect the positive terminal of one battery to the positive terminal of its adjacent battery. Do the same for the negative terminals on your deep-cycle batteries as well. Install the input wires from the AC inverter, which are equipped with screw-on joints to mate with the battery terminals. The inverter will change the Direct Current from the batteries to Alternating Current, which is a usable form of electricity that home appliances utilize. Connect the ends output cables of the charge controller to the deep-cycle battery circuit. The charge controller's output cables, black for negative and red for positive, also screw onto the battery terminals with a screwdriver. Other People Are Reading How to Get 48V out of a 12V Solar System How to Self-Install Solar Electric Plug your appliances into the outlets of your AC inverter and turn the inverter on. Tips & Warnings Currently, the 3-stage charge controller is the industry standard, however, using a Maximum Power Point Tracking controller will provide greater efficiency, especially if you are installing a larger system. Although a solar system is quite complicated to build, thinking of it in terms of "layers" may be helpful. The sun powers the solar cells, which are connected to a charge controller, which connect to the batteries, which connect to an inverter. Related Searches References Solar 4 Power: Solar Power Don Rowe: Power Inverter FAQ Green Living Tips: Solar Power Basics Photo Credit Solar Panel image by kuhar from Fotolia.com Promoted By Zergnet Comments Please enable JavaScript to view the comments powered by Disqus. Resources Aaron Cake: Soldering Electronics Solar 4 Power: Batteries Free Sunpower: FAQ You May Also Like How to Build Solar Panels for Electricity With energy rates on the rise, building your own solar panel is an economical, smart, and rewarding way to produce your own... How to Understand & Install Your Own Solar Electric System The most visible components of a photovoltaic (PV) energy-generation system are the solar panels. You usually don't see the devices that convert... How to Build Your Own Solar Energy You can harness the energy of the sun to use at home through solar panels. Commercially available solar panels are expensive, and... How to Build Cheap Solar Energy Systems You may have been considering solar power for some time but have been putting it off because of the high initial investment.... Solar Energy Pros And Cons

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Hemera Technologies/AbleStock.com/Getty Images With increasing concern about urgent environmental issues like global warming, many people have turned to local initiatives to reduce their environmental impact. Home energy use, the most local of environmental impacts, has become one focus of environmental advocacy. Although the feasibility of domestic renewable energy systems varies widely depending on local conditions and house architecture, many homes can operate green energy systems, like wind and solar power, to offset all or part of their home energy use. Best of all, these systems are relatively easy to install, with the connection of wind turbines and solar panels to a battery pack requiring only a few simple steps. Things You'll Need Electrical cable Wire cutters Wire strippers 2 Ammeters 2 Charge controllers 2 Fuses Electrical tape Solar Panels Cut lengths of electrical wire to make each of your connections. You will need a total of eight lengths, two for each connection between components (panels, ammeter, charge controller, fuse and battery pack). Cut the lengths to the appropriate distance between each of the components in your home layout, leaving a bit of extra slack in case you have to make changes. Strip the ends of each length of cable with a pair of wire strippers, exposing the interior copper wire in order to make electrical connections. Connect one length of cable to the positive output from your solar panel by wrapping the exposed copper wire around the output. Connect the opposite end of cable to the positive input in your ammeter, a device used to measure electrical current that will be useful for system maintenance. Insulate both connections with electrical tape. Connect a second length of cable to the negative output from your solar panel, with the opposite end connected to the negative input in the ammeter. Insulate the connections with electrical tape. Connect the ammeter to the charge controller by repeating the process, running cables between the appropriate inputs and outputs in the two devices and insulating the connection. Connect the charge controller to the fuse inputs with another two lengths of wire, insulating all of your connections. The fuse will interrupt the current in the case of unexpected power surges and protect your system. Connect the fuse outputs to the appropriate terminals in the battery using the last two lengths of wire. Connect the positive output from the fuse to the positive terminal in the battery and the negative output to the negative terminal in order to close the circuit. Insulate all your connections with electrical tape. Other People Are Reading How to Combine Solar & Wind Power How to Use Solar Panels & Wind Turbines Together Adding a Wind Turbine Cut eight lengths of electrical wire to make all of the necessary connections and strip the ends with a wire stripper. Wind turbines are a popular choice for home renewable energy systems. Connect the outputs from the wind turbine to a separate ammeter in order to monitor the current from the wind turbine without interference from the panels. Make and insulate the connections just as you did with the solar panels. Connect the wind turbine ammeter to a second charge controller, a device that regulates power flows during changes in wind or solar conditions in order to avoid damage to your batteries or wind turbine. Connect your wind turbine charge controller to a second fuse, allowing you to interrupt the flow from either the wind turbine or the solar panels while still accumulating power from the remaining system. Connect the fuse to the battery pack. You can use the same batteries for both systems or separate them if your want to store energy in different voltages. Tips & Warnings Make sure your energy generators (solar panels and wind turbine) are producing energy with the same voltage as your batteries. You can modify the connections in your battery pack with series and parallel circuits to manipulate voltage and accommodate the voltage from your generators. Your generators, however, must be compatible and have the same voltage in order to feed the same battery pack. Consider separating the battery packs from wind and solar energy if they use different voltages. Be sure your solar panels and wind turbine are not generating energy while you make the connections. Always be careful when handling electrical wire, and only touch the interior copper wire when absolutely necessary. Related Searches References Vela Creations: How to Build a Chispito Wind Generator Free Sun Power: Solar Power System Free Sun Power: Solar Energy System Example Wiring Diagram Photo Credit Hemera Technologies/AbleStock.com/Getty Images Jupiterimages/Photos.com/Getty Images Promoted By Zergnet Comments Please enable JavaScript to view the comments powered by Disqus. Resources Battery University: Series and Parallel Battery Configurations

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