George Cove Solar Panels - Monocrystalline Silicon Solar Modules 10Watt

George Cove Solar Panels - Monocrystalline Silicon Solar Modules 10Watt System 1

George Cove Solar Panels - Monocrystalline Silicon Solar Modules 10Watt System 2

George Cove Solar Panels - Monocrystalline Silicon Solar Modules 10Watt

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Loading Port:: Shanghai

Payment Terms:: TT or LC

Min Order Qty:: 100 watt

Supply Capability:: 3000000 watt/month

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Mono-Crystalline solar panel, Mono 125 cell, 36pcs cut cell 10w

1. Structure of Monocrystalline silicon Solar Modules 10Watt Description

Quality and Safety

1. Rigorous quality control meets the highest international standards.

2. High-transmissivity low-iron tempered glass, strong aluminium frame.

3. Using UV-resistant silicon.

4. IS09001/14001/CE/TUV/UL

Warranties

1. 10 years limited product warranty

2. 15 years at 90% of the minimal rated power output

3. 25 years at 80% of the minimal rated power output

2. Monocrystalline silicon Solar Modules 10Watt Specification

ITEM NO.:	mono 125 1/9 cell,36pcs . Power 10W
Maximum Power(W)	10wp
Optimum Power Voltage(Vmp)	17.8
Optimum Operatige Current(Imp)	0.562A
Open Circuit Voltage(Voc)	22.2v
Short Circuit Current(Isc)	0.601A
Solar Cell:	125*1/9 Mono
Number of Cell(pcs)	2*18
Brand Name of Solar Cells	JA Cell, Bluesun Cell
Size of Module(mm)	330mm290mm28mm
Caple & Connector Type	Pass the TUV Certificate
Frame(Material Corners,etc.)	Aluminium-alloy
Backing (Brand Type)	TPT
Cell Efficiency for 150W(%)	16.90%
Weight Per Piece(KG)	1.2KG
FF (%)	70-76%
Junction Box Type	Pass the TUV Certificate
Tolerance Wattage(e.g.+/-5%)	3%
Front Glass Thikness(mm)	3.2
Temperature Coefficients of Isc(%)	0.0024
Temperature Coefficients of Voc(%)	-0.356
Temperature Coefficients of Pm(%)	-0.46
Temperature Coefficients of Im(%)	0.04
Temperature Coefficients of Vm(%)	-0.38
Temperature Range	-40°C to +85°C
Surface Maximum Load Capacity	2400Pa
Allowable Hail Load	23m/s ,7.53g
Bypass Diode Rating(A)	12
Warranty	90% of 10 years,80% of 25 years.
Standard Test Conditions	AM1.5 1000W/m² 25 +/-2°C
Packing	carton or pallet
1*20'	20 Pallets / 250pcs
1*40'STD	40 Pallets / 500pcs

3. Detail picture of Monocrystalline silicon Solar Modules 10Watt

Monocrystalline silicon Solar Modules 10Watt

4. Packaging&Shipping of Monocrystalline silicon Solar Modules 10Watt

Packaging

** Normally packing: 1pc/2pcs/3pcs/10pcs/25pcs per carton

** Individual packing requirement is acceptable.

Shipping

By Sea	Delivery from Shanghai or Ningbo seaport
By Air	Departure from Shanghai Pudong Airport
By Express	Post by DHL, EMS, UPS, TNT.

5. Certificate of Monocrystalline silicon Solar Modules 10Watt

Monocrystalline silicon Solar Modules 10Watt

Q: If we invest billions in green energy and put up thousands of square miles of black panels that give off radiant heat couldn't that significantly cause more warming, not to mention the energy required to even make them?: Claire's argument doesn't make much sense to me either. First; Claire is talking about the second law ('you can only lose or break even'), not the third law ('you can't get to absolute zero'). Easily confused, but not that important! Putting a solar panel down _can_ increase the heat absorbed by Earth. Everything has an 'albedo' (the proportion of incoming light it reflects), and Earth's average albedo is about 0.3 (ie 30% of incoming light is reflected, most of which leaves the atmosphere straight away). By putting a 0.05 albedo solar panel down on a 0.3 albedo surface, you increase the amount of sunlight that is absorbed by Earth and therefore contribute to warming. This heat is re-radiated at the Earth's temperature, in the right wavelength range to be absorbed by greenhouse gases too. If you put a panel down on equatorial ocean, or a black roof, however, there is pretty much no effect (since the albedo change is small). Also, the heating effect only lasts as long as the panel is there. Most panels are estimated to last 50 years, meanwhile CO2 has a mean lifetime of 00+ years. I did some maths and found that the 00 year averaged change in radiative forcing for solar panels was negative compared to the UK electric grid, because the reduction in CO2 emissions has a larger effect than the change in albedo. If I have spare time tomorrow I'll redo the calculations and share them. The albedo change has to be considered though!

Q: Can solar panels be installed on farmlands or agricultural fields?: Yes, solar panels can be installed on farmlands or agricultural fields. In fact, many farmers and landowners are increasingly using their land for solar energy production as it can provide additional income and sustainable farming practices. Solar panels can be mounted on ground-mounted systems or integrated into structures like barns or sheds without interfering with farming operations. Additionally, solar installations can offer benefits such as reduced energy costs and promoting environmental sustainability in the agriculture sector.

Q: Got a quote for about $K today for solar panels to save me about $00 a month on my electric bill. I was just wondering if anyone had successfully bought and installed their own and how it worked for you?: i have always been interested in it but the storage (batteries) and power grid tie in (to get paid for excess) technicalities made me shy away. since your getting it installed im sure labor is a huge part of that -OKorder has tons of the equipment. I think wind may be a good home renewable source depending on where you live (cheaper than solar if you got the wind and space) I would doubly check any goverment offerings - I know they used to and maybe still do offer sizable credits if you are within the bureacratic standards so make sure the installers work with you on that. good luck -its new - and going to be a hassle to get right but the world needs more like you. willing to pay more now for a better tommorow (and not just $ wise) you should come out ahead as interest rates and market provides little value on that cash and saving any equipment falure you sound good. does the price include the batteries for all your produce kwh's? panels and labor aside batteries are the next big one

Q: Hi there. I live in Colorado, and we obviously get a ton of snow there. I im looking into a solar power system for my home, and I am wondering if the snow will accumulate on the panels, or if, because of the energy passing through, it will melt on contact? By the way we get about 20' of snow each year, and it comes on often. I will also be putting them on my roof. Thanks for your help.: The energy from the sun is converted to electicity, so there's very little heat produced. I doubt the snow would melt. Try finding a way to scrape it off or have them rotate so you can let the snow fall off.

Q: Ok, so I've been having much success with the joule thief circuit and a LED, but i tried hooking it up to a small solar panel that can put out 2.5v on it's own, and can light up a white LED dimly by it self to the joule thief and it will not work ....my question is why? I already trouble shooted it, the circuit is not the problem, is it the amount of amps the small solar panel is capable of? not enough?: Solar panels convert light energy to electrical energy with an efficiency of around 5%. A SMALL solar panel will only produce a small amount of power (watts) your joule thief circuit wont help because as you draw more current from the solar panel the voltage will drop; and your joule thief circuit just reduces the efficiency of the whole system Try adding another solar cell in series to get more voltage and more power.

Q: My electric bill per month averages 800 kWh per month. I am looking at 65W solar panels. How many panels would I need to make my bill come to zero? I realize I also need an inverter to convert dc to ac.: There are 720 hours in a month (30 days) but only about /2 of those are in *full* sun 800 kW hr / 360 hr = 5 kW. 5000 W / 65 W / panel = 30 panels minimum and that's based on full sun during the day (no clouds, rain, etc). Besides an inverter you'll also want a bank of batteries to operate at night. OR, you can get about 35 - 40 panels and sell power back to the utility during the day (meter runs backwards), and use power off the grid at night. Suprise! solar power isn't cheap, is it? Figure on taking advantage of some government and public utility rebates, though to lessen the cost. .

Q: looking for alternative ways to save energy money and thinking about solar panels. anyone know anything about it and how expensive it is to install them?: One okorder to save people a tremendous amount of money on solar installs.

Q: Around this time here in Georgia we will begin to get some big storms with high winds. I have a solar panel on a mount that isn't all that sturdy and could be knocked over with any winds pretty much above 5mph. I can't put anything in the ground to do this. I used to have it mounted to the roof of a playground for the most sunlight, but because of the angle of the sun and the tree leaves, I have to have it on a quot;portablemount so I can move it throughout the day, and I can tell you one thing is certain, and that's that it isn't the most sturdy thing ever. I'll have it a little better next weekend but it'll still be able to easily blow in the wind. Should I just hang the panel along the wall during a storm then reconnect it to its base once it's over?I'm pretty good with wood, so any wood creations to help out with the thing would greatly help. Just please keep it on a low budget.: Solar panels are a costly and significant investment. Therefore, protecting them from harm should be a top priority. Unfortunately, moisture and water are common ways for solar panels to become damaged or broken. Safekeeping solar panels from both of these threats is a simple, inexpensive procedure, and doing so might save the solar panel owner a bundle if carried out correctly Instructions : Set a thick strip of silicone between each cell when putting the solar panel together, in order to prevent moisture seepage. 2: Use Plexiglas instead of glass as the face of your solar panel. Plexiglas is less liable to break and therefore safe from hailstorms or accidents. 3: Glue adhesive silicone to each side of your solar panel(s), adding additional sealant and protection from water to your commodity. :)

Q: Could you throw some long scientific words in with your answer so I can impress my teacher, I'm looking to expand my scientific vocab. Thanks: Solar panels are a generic term for any type of solar collecting panel. There are two major types: Photovoltaic uses substances that turn the incoming radiation directly into electricity. Usually you have to have direct sunlight (no clouds) for this to work well. Solar thermal is also used in a lot of areas. Here the radiation is used to heat a circulating fluid (often water directly), and then that is either used directly, or it's used for heat exchange with a heat pump or a boiler system. Solar thermal can collect significant heat even on a cloudy day. So a solar panel could be made of photovoltaic panels, but it doesn't have to be.