Solar panel:
A solar panel is a device that collects photons of sunlight, which are very small packets of
Electromagnetic radiation energy, and converts them into electrical current that can be used to power electrical loads. Using solar panels is a very practical way to produce electricity for many applications. The obvious would have to be off-grid living. Living off-grid means living in a location that is not serviced by the main electric utility grid. Remote homes and cabins benefit nicely from solar power systems. No longer is it necessary to pay huge fees for the installation of electric utility poles and cabling from the nearest main grid access point. A solar electric system is potentially less expensive and can provide power for upwards of three decades if properly maintained. Besides the fact that solar panels make it possible to live off-grid, perhaps the greatest benefit that you would enjoy from the use of solar power is that it is both a clean and a renewable source of energy. With the advent of global climate change, it has become more important that we do whatever we can to reduce the pressure on our atmosphere from the emission of greenhouse gases. Solar panels have no moving parts and require little maintenance.
They are ruggedly built and last for decades when properly maintained .Last, but not least, of the benefits of solar panels and solar power is that, once a system has paid for its initial installation
costs, the electricity it produces for the remainder of the system’s lifespan, which could be as much as 15-20 years depending on the quality of the system, is absolutely free! For grid-tie solar power system owners, the benefits begin from the moment the system comes online, potentially eliminating monthly electric bills or, and this is the best part, actually earning the system’s owner additional income from the electric company.
The solar cells you would have seen on satellites, caculaters etc are photovoltaic cells or modules (modules are a collection of solar cells electrically connected and joined together in one frame).Photo voltaic, (photo = light, voltaic = electricity), convert the energy of sunlight directly into electricity. Originally expensive and only used in space, photovoltaics are now finding many
applications on countless devices, buildings etc were ever remote or free and environmentally
sustainable produced electricity is required. Photovoltaic (PV) cells are made of special materials called semiconductors like silicon, which is currently the most commonly used. Basically, when light shines on the solar cell a percentage of this solar energy is absorbed into the semiconductor material. This energy now inside the semiconductor knocks electrons loose allowing them to flow freely. PV cells also all have one or more electric fields that force electrons freed by light absorption to flow in a certain direction. This flow of electrons is an electrical current. Metal contacts on the top and bottom of the PV cell draw that current off to use to power external electrical products such as lights, calculators etc. This current ,combined with the cell’s voltage (which is a result of its built-in electric field or fields),determines the power (or wattage) that the solar cell can produce. Solar panels collect clean renewable energy in the form of sunlight and convert that light into electricity which can then be used to provide power for electrical loads. Solar panels are comprised of several individual solar cells which are themselves composed of layers of silicon, phosphorous (which provides the negative charge), and boron (which provides the positive charge). Solar panels absorb the photons and in doing so initiate an electric current. The resulting energy generated from photons striking the surface of the solar panel allows electrons to be knocked out of their atomic orbits and released into the electric field generated by the solar cells.
An average home has more than enough roof area for the necessary number of solar panels to produce enough solar electricity to supply all of its power needs. Assisted by an inverter, a device that converts the direct current (or DC current), generated by a solar panel into alternating current (or AC current), solar panel arrays can be sized to meet the most demanding electrical load requirements. The AC current can be used to power loads in your home or commercial building, your recreational vehicle or your boat (RV/Marine Solar Panels), your remote cabin or home, and remote traffic controls, telecommunications equipment, oil and gas flow monitoring, RTU, SCADA, and much more.
Most in the most people that need to set up solar panels at the roof of the properties consider that all they must do is set up them, however they overlook about assessment them after which if a little something won’t perform adequately they must phone for that installers once again and using this method they reduce time and get stressed. Solar panel assessment pertains to employing an amp meter at the panel. power is acknowledged for being measured in amperes. This factor may be accomplished with an amp meter. this kind of a equipment are heading to be connected towards bad and good terminals at the solar panel after which the panel are heading to be subjected towards sunlight. In purchase to guard by yourself from injuries and protected the amp meter from any destruction you really should 1st price the meter greater compared to solar panel is. The amp meter will present you on its display ‘the brief circuit current’. This are heading to be the level of electric present-day that 1 could assume out of your panels to give. OF program everything is established by how powerful was the sunshine so it can be indicted to conduct your solar panel assessment when there is ordinarily a complete sunshine outside.
Besides employing an amp meter you’ll be in a position to decide the energy yield of your respective solar panel by employing an additional strategy that implies measuring the resistor’s voltage. Because of this solar panel assessment process you’ll require a electronic multi-meter (that actions the DC voltage) and numerous resistors. subsequent to acquiring every one among the essential measurements you’ll be in a position to use this formulation for calculating the energy output: present-day equals Voltage / Resistance. Subsequent to that 1 could constitute a overall performance graphic by plotting the energy output. You really should also be mindful that a solar panel will transform the sunshine into DC (direct current) energy not AC energy as some may perhaps expect. It is why you require for that solar panel assessment methods a DC electronic multi-meter. Watts are heading to be applied for measuring the energy the fact that solar panel produced for charging electric batteries as an example or for employing dwelling appliances. The formulation for calculating the energy is energy equals Voltage*Current. All you’ve still left to perform is continually to measure the amperage and voltage of your respective solar panel and plug the info to the equation.using this method you’ll know precisely when the solar panel are heading to be in a placement to include every one among the power you desired it to supply you once you made a decision to set up this kind of a factor on your own roof.
You will even use a solar cost controller that could be designed for regulating the energy that could be brought through the solar panel towards rechargeable batteries. this kind of a controller has the intent of by-passing eventual overcharges also to present a very good power supply cost based at the temperatures outside. apart from solar panel assessment you really should also analyze the very well working of the cost controller. If you consider you’ll be in a position to not conduct the solar panel assessment on your personal or you do not have time for that phone some panel installers and request them to perform this to match your needs because it may perhaps conserve you from numerous difficulty later on on.
It is not uncommon for a remote site to be checked but once per year. Under most conditions, normal rainfall is sufficient to keep the Solar Panel glass clean.Clean the glass with a soft cloth using mild detergent and water. Solar Panel that are mounted, fiat (0°tilt andle) should be cleaned more often, as they will not self-clean as effectively as Solar Panel mounted at a 15°tilt or greater. It is advisable to perform periodic inspection of the Solar Panel for damage to glass, backskin, frame and support structure. Check electrical connections for loose connections and corrosion. Check if mounting support structure and modules are loose. Check connections of cables, connectors, and grounding. Change Solar Panel must be the same kind and type, if need. Solar Panel can operate effectively without ever being washed, although removal of dirt from the front glass can increase output. The glass can be washed with a wet sponge or cloth, wear rubber gloves for electrical insulation. Solar Panel Safety precautions Solar Panel installation and operation should be performed by qualified personnel only. Children should not be allowed near the solar electric installation.
Avoid electrical hazards when installing, wiring, operating and maintaining the module. Solar Panel produce DC electricity when exposed to light and therefore can produce an electrical shock or burn. Solar Panel produce voltage even when not connected to an electrical circuit or load. Solar Panel produce nearly full voltage when exposed to as little as 5% of full sunlight and both current and power increase with light intensity. Do not touch live parts of cables and connectors. As an added precaution, use insulated tools and rubber gloves when working with Solar Panel in sunlight. Fall of Solar Panel from high place will cause death, injury or damage. Do not drop Solar Panel or allow objects to fall on Solar Panel, never leave a Solar Panel unsupported or unsecured. If a module should fail, the glass can break a Solar Panel with broken glass cannot be repaired and must not be used.
When installing or working with Solar Panel or wiring, cover module face completely with opaque material to halt production of electricity. Solar Panel have no on/off switch. Solar Panel when exposed to sunlight generate high voltage and are dangerous, Solar Panel can be rendered inoperative only by removing them from sunlight, or by fully covering the front surface with opaque cloth, cardboard, or other completely opaque material, or by working with Solar Panel face down on a smooth, flat surface when installing or maintaining. Do not artificially concentrate sunlight on the Solar Panel. Solar Panel can produce higher output than the rated specifications. Industry standard ratings are made at conditions of 1000W/ and 25℃ cell temperature. Reflection from snow or water can increase sunlight and therefore boost current and power. In addition, colder temperatures can substantially increase voltage and power .Solar Panel are intended for use in terrestrial applications only, thus excluding aerospace or maritime conditions or use with sunlight concentration. It is recommended that the Solar Panel remains packed in the box until time of installation. Work only under dry conditions, with a dry Solar Panel and tools, since sparks may be produced, do not install Solar Panel where flammable gases or vapors are present. Do not drill holes into Solar Panel frame as it will void warranty. Solar Panel ate constructed frame as it will void warranty.
Handled with care, if the front glass is broken or if the polymer backskin is tom, contact with any module surface or the frame can produce electrical shock. Particularly when the Solar Panel is wet, broken or damaged modules must be disposed of properly. Do not disassemble, bend, impact by sharp objects, walk on, and throw or drop etc. keep back surface free from foreign objects. Avoid sharp edges.Use Solar Panel for its intended function only follows all Solar Panel manufacturers’ instructions. Do not disassemble the module, or remove any part or label installed by the manufacturer. Do not treat the back of the Solar Panel with paint or adhesives.
If not otherwise specified, it is recommended that requirements of the latest local, national or regional electrical codes be followed. Retain this installation manual for future reference. Notes The electrical characteristics are within ±5 percent of the indicated values of Isc, Voc, and Pmax under standard test conditions (irradiance of 100mW/2, AM 1.5 spectrum, and a cell temperature of 25℃(77°F). Under normal conditions, a photovoltaic Solar Panel is likely to experience conditions that produce more current and/or voltage than reported at standard test conditions. Accordingly, the values of Isc and Voc marked on this module should be multiplied by a factor of 1.25 when determining component voltage ratings, conductor ampacities, fuse sizes, and size of controls connected to the PV output.
Solar panels can lower your energy costs and are rather easily installed, with a little construction and electrical knowledge. Here’s how to do it. Solar panels will be the aspect of the solar power product that in fact gathers the power from your sun .The panels are developed up of
Photo voltaic tissue that transform the sun’s power to immediate existing power that is often applied for heating system or to energy appliances. The power is then sent straight to an appliance or other device, or is saved inside a power supply lender for long term use. Panels commonly measure around 1.5 ft by three feet, and can provide about 75 watts of power if situated in total sun.Typically the panels are installed around the roof of the building. However, they is often installed over a stand-alone rack if necessary. one of the most crucial thing to consider is just how much sunshine the panel are certain to get while in the area you choose. Solar panels drop effectiveness easily in even a partially shaded location, so go with a area that receives total sunshine for as prolonged as achievable each and every day. The panels ought to be oriented for the to the south if whatsoever possible. The 2nd most effective preference would be to deal with the panels for the west or east, but you are heading to have to take advantage of additional panels in purchase to acquire identical level of energy. never ever deal with the panels for the north.
Be positive to acquire any important setting up permits just before setting up the panels. Examine together with your community setting up or zoning department to locate out what are the needs are with your community. if you occur to don’t have the permits just before the set up or don’t total the set up in accordance with community setting up codes, you may likely be forced to tear out all of your very hard operate and commence again. The panels ought to be tilted to attain the optimum level of sun. The stage of tilt is dependent around the latitude at which they may be installed. Panels set up at 0 to 15 degrees latitude really should have a very 15-degree tilt. Panels set up at 15 to twenty five degrees latitude really should have a very tilt that could be the very same since the latitude. For each and every supplemental 5 degrees of latitude as much as 40 degrees, include an added five degrees of tilt for the latitude. At latitudes of 40 degrees and above, include twenty degrees of tilt for the latitude. Mounts ought to be inserted about 48 inches aside and ought to be situated straight on major of the rafter, if whatsoever possible. If a rafter just isn’t accessible with the mount site, the mount is often connected to some prevent of wooden inserted around the underside for this roof. don’t attach the mount straight for the plywood sheathing for this roof. locate rafters using a stud finder. preserve the mounts inside a right line, utilizing a laser beem sight or probably a chalk line. Drill a hole using a pilot little bit to insure that which you don’t separation the rafter. Then protected the bottom for this mounts for the roof, utilizing stainless metal lag bolts. Thread the submit for this mount into its base. make positive to spot roof flashing throughout each and every mount to avoid leaks while in the roof. up coming fasten steel rails for the mounts with stainless metal bolts. total the racking product by connecting aluminum solar racks for the steel rails. Make positive how the finished rack product will grant the solar panels being no much less than 3 to 6
inches away the roof. The panels will run additional effectively if there’s sufficient airflow below and close to them.
Solar panels may likely be preassembled in groups. This can make the set up less complicated and quicker, as there are actually much less person models to cope with up around the roof. protected the solar panels for the racking product while using restraining hardware provided while using panels. Each and every maker has their individual hardware, particularly constructed for his or her individual panels. analyze the panels to produce positive that they may be anchored securely. Make positive how the together the solar panel and also the racking methods are effectively grounded in accordance while using community electric codes. Interconnect the solar panels by starting the junction penalty area around the back again of each and every panel and attaching the wires for the correct good and unfavorable terminal screws while in the box, getting clear of one-half inch of insulation from your finishes for this wires first. The wire will operate involving panels as a result of the knockouts in each and every box. operate the wire from your last panel to some distinct array junction box. The wire is then operate as a result of electric conduit for the up coming electric aspect for this system, this type of since the cost controller. near all junction boxes. Your solar panel array really should grant *you several many years of satisfying service. What is Difference between monocrystalline?
Polycrystalline and Amorphous thin film solar cell
1. Difference between crystalline and amorphous? Daily to see the solid is divided into two major categories of non-crystalline and crystalline, non-crystalline arrangement of atoms within the material is not necessarily the law of the fracture when the fracture is random, such as plastic and glass, and called the crystal material, represent the natural shape of a regular polyhedron, with obvious edges and corners with the plane, the atom is in accordance with its internal law must line up neatly, so when they break off the plane according to certain, such as salt, crystal and so on.
2. Difference between monocrystallie and polycrystalline? Some of the crystal is composed of many small grains, if the arrangement between the grains are no rules, this is called polycrystalline crystal, such as copper and iron. But there are also the crystal itself is a complete large grains, the crystal is called single crystal, crystal and crystal diamond.
3. Monocrystalline silicon and polycrystalline silicon photovoltaic cells compare? Monocrystalline silicon cells with a cell conversion efficiency, good stability, but the cost is high. Low-cost polycrystalline silicon cells, the conversion efficiency slightly lower than the Czochralski silicon solar cells and materials in a variety of defects such as grain boundaries, dislocations, micro-defects, and material impurities carbon and oxygen, as well as the stained process transition metals. The first is the advent of solar cell silicon solar cells. Silicon is very abundant on the earth, an element almost everywhere have the presence of silicon can be said to be used without silicon to make solar cells, indeed no shortage of raw materials. But it is not easy to extract, so people in the production of monocrystalline silicon solar cells, they also studied the polycrystalline silicon solar cells and amorphous silicon solar cells, has commercial-scale production of solar panel, also did not jump out of silicon series. In fact, the semiconductor materials for manufacture of solar cells a lot, along with the development of industrial materials, solar cells will be more and more varieties. Research and trial production has been the solar cell, in addition to silicon series, there are cadmium sulfide, gallium arsenide, copper indium selenium and many other types of solar cells, too numerous to mention, the following are a few of the more common solar cells.
Monocrystalline silicon solar cells
Monocrystalline silicon solar cells is currently the fastest developing a solar cell, its composition and production technology has been finalized, the products have been widely used for space and ground facilities. The high purity single crystal silicon solar cells as the raw material rod, 99.999% purity. In order to reduce production costs, and now solar terrestrial applications such as the use of solar-grade silicon rods, material performance has been relaxed. Some semiconductor devices can also be used for processing materials and discard ends of silicon materials, solar cells made by re-drawing a dedicated silicon rods. The slice of silicon rods, generally 0.3 mm thick slices. Wafer after forming, polishing, cleaning and other processes, made of silicon raw material to be processed. Solar cell processing chip, the first doping and diffusion in silicon, usually for the small amount of boron dopant, phosphorus, antimony and so on. Diffusion is the control into the quartz furnace for high temperature diffusion. And then using screen printing will be printed with a good paste made of silicon gate line, after sintering, also made of the back electrode and a gate line in the face of anti-reflection coating source, to prevent a large number of photons reflected from a smooth silicon surface, thus, single-chip silicon solar cells are produced. After single-chip random testing, according to the required specifications can be assembled into solar modules (solar panels), the method used in series and parallel to a certain output voltage and current, and finally with the framework and package materials package. According to the system user can design different size solar module solar cell composed of a variety of square, also known as the solar array. Current silicon photoelectric conversion efficiency of solar cells is about 15%, laboratory results have more than 20%. Also for the space station up to 50% or more solar panels.
Polycrystalline silicon solar cells
Monocrystalline silicon solar cell production requires large amounts of high-purity silicon material, the production of these materials, process complexity, power consumption drastically, the total cost of solar cell production has been over half, combined with the silicon rod was drawn cylindrical, sliced wafer production solar cells is to form a solar module surface low utilization rate. Thus, 80 years, some European and American countries, the development into a polycrystalline silicon solar cells. Polycrystalline silicon solar cells using current materials, mostly a collection contains a lot of single crystal particles, or silicon materials from waste materials and metallurgical grade silicon melt molded.
The process is to select a resistivity of 100 to 300 ohms? Cm block of material or a polycrystalline silicon material end to end, after crushing, with the 1:5 mixture of hydrofluoric acid and nitric acid corrosion appropriate, and then spent neutral-ionized water rinse and drying. Quartz crucible installed polysilicon materials, the addition of appropriate amount of boron in silicon, release the casting furnace, heating and melting in a vacuum state. Melted insulation should be about 20 minutes, and then injected into the graphite mold, to be cooled slowly solidified, that have polysilicon ingot. The ingots can be cast cubes to be processed into square slices film solar cells can improve material utilization and easy assembly. Polycrystalline silicon solar cells and solar cell production process is similar to the photoelectric conversion efficiency of about 12%, slightly lower than the silicon solar cells, but the material is simple, to save power consumption, the total production costs low, so get a lot of development. As the technology was improved, the current conversion efficiency of polycrystalline silicon can also be reached around 14%.
Amorphous silicon solar cells
Amorphous silicon solar cells appeared in 1976 with a new thin film solar cells, monocrystalline and polycrystalline silicon solar cells it with the production method is completely different, very little silicon material consumption, lower power consumption, very attractive. Method of manufacturing a variety of amorphous silicon solar cells, the most common is the glow discharge method, as well as reactive sputtering, chemical vapor deposition, electron beam evaporation and thermal decomposition of silane method. Glow discharge method is a Dan Yingrong device pumped into vacuum, hydrogen or argon gas filled diluted silane, with the RF power heating, ionization of silane to form a plasma .Deposition of amorphous silicon film on the substrate being heated. If the silane were mixed in the amount of hydrogenated or hydrogenated boron phosphate can be N-or P-type amorphous silicon film. Substrate materials are generally made of glass or stainless steel. Preparation of amorphous silicon thin film technology which depends mainly on the strict control of pressure, flow rate and RF power, the temperature of the substrate is also very important. The structure of amorphous silicon solar cells there are different, which has a structure called the PiN better battery, it is first deposited on the substrate N-type layer of amorphous silicon doped with phosphorus, and then deposited a layer of undoped i layer, and then deposited a layer of P-type boron-doped amorphous silicon, and finally alayer of electron beam evaporation of antireflection coatings, and deposition of silver electrodes. This
production process, a series of deposition chamber can be used in production form a continuous
process to achieve mass production. Meanwhile, the thin amorphous silicon solar cells can be made into laminated type, or use to manufacture integrated circuits in a plane, with the appropriate mask technology, a production of multiple batteries in series to obtain higher voltage . Because the average crystalline silicon solar cells around a single voltage of 0.5 volts, and now the production of amorphous silicon tandem solar cells in Japan up to 2.4 volts. The current problem is that of amorphous silicon solar cell conversion efficiency is low, the international advanced level of about 10%, and is not stable enough, often decline down conversion efficiency of the phenomenon, so not a lot of use for large scale solar power, but mostly with in low light power, such as pocket electronic calculators, electronic watches and clocks and copier and so on. Failure to overcome the drop in efficiency issues, the amorphous silicon solar cells will promote the great development of solar energy, because its low cost, light weight, easier application, it can be combined with the housing of the roof form independent power of households. In the fierce sun, single crystal solar panels can be transformed more and more non-crystal-type solar energy to electricity more than doubled, but unfortunately, the price of single crystal type of non crystal- like than the two or three times more expensive, and in the case of non-cloudy Instead, the crystal-type transistor can be almost as much to collect solar energy.
Solar Panel Mounting For home solar arrays, we generally recommend mountingsolar panels at the top of a sturdy pole. This is called a pole top mount. They are easy to install. They keep the panels off the ground and out of harm’s way but are easy to adjust and to reach for snow removal. Yes, when the snow stops falling and the sun comes back out, you want to be able to sweep the snow off those panels. So think about where you place them, how far they are from the house, and how high up they are. A pole top mount can be either fixed, which means it holds the panel stationary, or it can move, or track, with the sun. A solar panel mount that allows the panel to move with the sun is called a tracker. Fixed Racks can include Ground Mounting, Roof Mounting, Pole-Side Mounting, Boat/RV Mounts, as well as Pole Top Mounting. All trackers are mounted on poles, and so are technically pole top mounts. The pole of a pole top mount must be anchored in the ground by digging a hole and filling it with concrete. The size of hole in diameter is usually 18 inches to 2 feet (18 inches plus the diameter of the pole). The depth of the hole must be 1/2 of the height of the pole above ground. If the pole will be 7 feet above ground, you have to dig a 3 1/2 foot hole. The placement of your solar panels, whatever kind of mounting system you are using, can make a huge difference in the amount of electricity you are able to produce. Be very careful not to place your panels in an area that is shaded by trees or buildings or any other object. Note carefully that the shadow made by your house moves at least 22 feet farther to the south in the winter. If you place your panels within that distance, you’ll be very disappointed during those short winter days.
We have three types solar panel mounting:
Pitch Roof mounting look neat, but are hard to reach to adjust the angle. Will you want to walk across your roof several times a year to adjust the angle? Does it snow often? Will you have to walk across a slippery roof to sweep snow off the panels? Is the slope of the roof you want to use good for optimum solar panel efficiency or will you need tilt legs to face your panels more perpendicular to the sun?
Pole Mounting are designed to hold 1 to 4 modules and are mounted to the pole with either hose
clamps or U-bolts (not provided). The racks accommodate different sized poles and are adjustable for optimal sun angle from 15 to 65 degrees in 10-degree increments. Pole size is determined by the number of modules to be mounted.
Ground Mounting are probably the easiest way to mount solar panels. This mount resembles an A frame. It safest to attach this structure to a cement slab so that it may be secured in place. Ground mounts are designed to handle from 1 to 8 solar modules. Ground mounts can be used to attach solar panels to the ground, to a roof and or to a vertical surface. Some ground mounts have tiltable, or adjustable legs; others are fixed. Optional adjustable tilt legs are available for several of the styles of panels Wholesale Solar sells.
Pitch roof solar mounting
Rooftop solar mounting system apply for all kinds of pitch roof of any building. Solar panel can fastened onto the top flute of our patented solar mounting rail. L-feet connects with the bottom of the rail,which mounted firmly to the roof. Install flashing over a layer of shingles to insure water resistance. A single wrench is enough for the installation procedures. Detailed installation manual ensure an easy and smooth installation.
Specification:
• Design Wind Load: 55m/s or 200km/hour
• Design Snow Load: 1.5kn/m2
• Steel structure: Anodized Aluminum + Stainless Steel
• reference standard: AS/NZ 1170.2
• Installation site:Pitch root
• Guarantee: Ten years guarantee on parts
1.We use L-feet for tin roof and hook for tile-roof to connect the rack structure with the rafters of the roof.
2.At the installation site we do not require welding, and even have no need to drill a hole, just using the electrical locks and wrenches and other simple tools to complete the installation. This simplify the traditional installation procedure, we will manage to preassemble the screws and nuts before shipment to reduce on-site installation procedures and labor intensity. Eliminate the differences in degree of on-site professional installation and degree of impact on the quality of the roof support system.
3.Utilization of the anodized aluminum, stainless steel, anti-aging UV process to ensure the longer life span of our solar technology and solar tracking.
Ground Solar Panel Mounting:
Ground Solar Panel Mounting is suitable for flat roofs of various structures or for the ground. One end of the cross-beam is connected firmly with the ground structure by base bracket and hex-bolts and the another end is connected to the support leg forming a stable and strong tripod structure. The connecting foot is made up of stainless steel to enhance the load bearing capacity. Stainless steel itself has a good physical and chemical mechanical performance, service life can reach more than 30 years.
Specification:
55m/s or 200km/hour
Design Snow Load
1.5kn/m2
Steel structure: Anodized Aluminum + Stainless Steel
Reference standard: AS/NZ 1170.2
Installation site: Flat roop or Ground
Guarantee: Ten years guarantee on parts
Pole Solar Panel Mounting
Pole system is designed for up to 1.5kw panel mounting system, with the wind load up to 200km/h.This panel mounting system is suited for large photovoltaic system installation in all wind zones. This solar mounting system can adjust the tilt angle according to the requirement of the installation place.There is no need to welding in the complete installation process. According to our manual instruction,you can install the solar modules easily, quickly, securely and cost efficiently.
Specification:
55m/s
Design Snow Load
1.5kn/m2
Steel structure
Hot dipped galvanized steel + Anodized Aluminum
Reference standard
AS/NZ 1170.2
Tracker type
Fixed
Tilt angle
0°— 60°
Guarantee
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