• New Energy Solar Storage System with 3pcs 12V DC LED bulb System 1
  • New Energy Solar Storage System with 3pcs 12V DC LED bulb System 2
New Energy Solar Storage System with 3pcs 12V DC LED bulb

New Energy Solar Storage System with 3pcs 12V DC LED bulb

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Loading Port:
Shanghai
Payment Terms:
TT or LC
Min Order Qty:
300 watt
Supply Capability:
200000 watt/month

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Packaging & Delivery
Packaging Detail:wooden cartons and pallets with foam filling for solar storage system
Delivery Detail:5-7weeks
Specifications
solar storage system
LiFePO4 battery
Unique design controller box
High bright solar light
Over load& charge protection

 

2,Specification  for  solar storage system 
Solar panel input parameterrated input panel(WATT)8w 
efficient15%
materialmonrocrystal/polycrystal
Batteryvoltage12.8v
capacity5AH
NO.4pcs 32650
Deployed DC Load for lamp1w      NO.        2pcs
Lum90
2wNO.2pcs(one USB lamp)
Lum200
Deployed lamp cable5m
USB output5V 1A1output
system efficient95%
protectionover load/over voltage/low battery/low voltage/input low/high voltage/short current protection
load2pcs 2w     2pcs 3w1pcs 3w+2pcs 2w4pcs 2w
(2 rooms)(2 rooms)(3 rooms)(4 rooms)
operated time12 hrs8hrs10 hrs6 hrs

 

system  including the following parts:
1PC     8W/18V solar panel with 5m cable
1PC     5AH/12.8V lifepo4 battery
1PC     controller/Battery box
3PCS   2W/3W solar DC LED lights
3PCS   Lamp holder and switch with 5m cable
1PC     Multi port USB cable for mobile charging
1PC     User manual

 

Caution for   solar storage system 
Please read the user manual carefully before using, the incorrect operation will damage the product
Protect the product from drastic crash or throw
Keep the controller box away from water or fire
Do not disassemble the controller box or other components
Do not drag the cable of the solar panel strongly, or it will come to poor contact
Keep it away from children

 

Packaging & Shipping
Packingcolor giftbox with polyfoam and bubble bag
Inner packing1pc / giftbox
Outer packing8pcs / carton
Carton size612*468*360mm
G.W.25kg

Q:What is the impact of dust storms on solar panel efficiency?
Dust storms have a negative impact on solar panel efficiency as they can obstruct sunlight from reaching the panels, reducing their overall power output. The accumulation of dust particles on the surface of the panels can also create a layer that hinders the absorption of sunlight, further diminishing their efficiency. Regular cleaning and maintenance of solar panels are essential to mitigate the effects of dust storms and ensure optimal performance.
Q:Can solar panels generate electricity on cloudy days?
Yes, solar panels can still generate electricity on cloudy days, although their efficiency may be reduced. While direct sunlight is ideal for solar panel performance, they can still generate electricity from diffused sunlight that passes through clouds. The amount of electricity produced on cloudy days will depend on factors such as the thickness of the cloud cover, the type and quality of the solar panels, and the angle and orientation of the panels. While the output may be lower than on sunny days, solar panels can still contribute to electricity generation and can be a valuable renewable energy resource even in less sunny areas.
Q:How much space do I need for a solar energy system?
The space required for a solar energy system depends on various factors such as the size of the system, the amount of energy needed, and the efficiency of the solar panels. In general, for a residential solar energy system, you would need a roof space of about 100-400 square feet per kilowatt (kW) of solar panels. However, there are alternative options like ground-mounted systems or solar canopies that can be used if roof space is limited. It is recommended to consult with a solar energy professional who can assess your specific energy needs and available space to determine the appropriate size and configuration of the system.
Q:How do solar energy systems handle excess power generation?
Solar energy systems handle excess power generation through a process called net metering, where the excess electricity produced by the system is fed back into the grid. This allows the owner to receive credits for the excess energy, which can be used to offset the electricity consumed during times when the system is not generating enough power, such as during nighttime.
Q:Can solar energy systems be used for powering off-grid disaster response teams?
Yes, solar energy systems can certainly be used for powering off-grid disaster response teams. Solar energy systems, such as photovoltaic panels or solar generators, can provide a reliable and sustainable source of power in remote or disaster-stricken areas where traditional power sources may be unavailable or disrupted. These systems can be easily deployed and are capable of charging communication devices, medical equipment, lighting, and other essential tools required by disaster response teams. Additionally, solar energy systems can reduce dependency on fossil fuels and contribute to a more environmentally friendly response to disasters.
Q:What are the advantages of solar energy systems?
Solar energy systems offer several benefits. To begin with, solar energy is an endless source of power, relying on the sun's continuous existence. This stands in stark contrast to finite fossil fuels, which are depleting rapidly. Furthermore, solar energy is environmentally conscious. Unlike fossil fuels, solar energy systems do not release harmful greenhouse gases or pollutants that contribute to climate change and air pollution. This makes solar energy a clean and sustainable alternative that aids in reducing our carbon footprint and countering the adverse effects of global warming. Moreover, solar energy systems can significantly decrease electricity expenses. Once the initial investment in solar panels is made, the cost of harnessing solar energy remains relatively low. Solar energy is essentially free, with the only expenses being equipment maintenance and occasional repairs. This can result in substantial long-term savings on energy bills, especially considering the continuous rise in traditional electricity costs. Additionally, solar energy systems promote energy independence. By generating your own electricity, you become less reliant on utility companies and the fluctuating prices of fossil fuels. This independence enhances energy security, as solar energy systems are not susceptible to supply disruptions or price fluctuations caused by geopolitical tensions or natural disasters. Lastly, the installation of solar energy systems stimulates local economies and job creation. The solar industry has experienced significant growth, leading to the creation of numerous jobs in manufacturing, installation, and maintenance. This not only boosts the economy but also provides employment opportunities in a rapidly expanding sector. In conclusion, the benefits of solar energy systems are manifold. From being a renewable and environmentally friendly power source to reducing electricity expenses, providing energy independence, and generating jobs, solar energy proves to be a viable and sustainable solution for our energy needs.
Q:Can solar energy systems be used for powering schools?
Yes, solar energy systems can be used for powering schools. In fact, many schools around the world are now embracing solar power to meet their energy needs. Solar panels can be installed on rooftops or in open areas within school premises to generate clean and renewable electricity. This not only reduces the school's carbon footprint but also helps save on electricity costs in the long run. Additionally, solar energy systems can also be educational tools, allowing students to learn about and engage with sustainable energy practices.
Q:How do solar energy systems impact the stability of the electricity grid?
Solar energy systems can have both positive and negative impacts on the stability of the electricity grid. On one hand, solar panels generate clean and renewable energy, reducing the reliance on fossil fuels and lowering greenhouse gas emissions. This diversification of the energy mix can enhance the stability and resilience of the grid. However, the intermittent nature of solar power, influenced by weather conditions and daylight availability, can create challenges for grid operators in maintaining a constant supply-demand balance. Proper integration of solar energy systems with advanced grid management technologies and energy storage solutions is crucial to mitigate these potential destabilizing effects.
Q:What is the impact of fire on solar panels?
The impact of fire on solar panels can be quite significant and detrimental. Fires can cause direct damage to the panels, resulting in their complete destruction or rendering them inoperable. The high temperatures generated by fires can melt or warp the delicate components of the solar panels, such as the photovoltaic cells and the wiring. This damage can make the panels incapable of producing electricity. Furthermore, the smoke and soot generated by fires can cover the surface of the solar panels, reducing their efficiency by obstructing sunlight and decreasing the amount of light that can be absorbed. This can lead to a significant reduction in power output from the panels. In addition to the physical damage caused by fires, the heat and flames can also pose a safety risk to the surrounding area. Solar panels are typically installed on rooftops or in open areas, making them vulnerable to fire hazards. If a fire occurs near or on a solar panel, it can increase the risk of the fire spreading and causing further damage to the property. To mitigate the impact of fire on solar panels, it is crucial to have proper fire safety measures in place. This includes using fire-resistant materials for the installation of solar panels and ensuring that the panels are adequately protected from potential fire sources. Regular maintenance and cleaning of the panels are also essential to remove any debris or soot that may accumulate, thus maximizing their efficiency and minimizing the risk of damage in the event of a fire. Overall, the impact of fire on solar panels can be severe, leading to physical damage, decreased efficiency, and safety risks. It is crucial to take necessary precautions and implement fire safety measures to protect solar panels and minimize potential losses.
Q:Can solar energy systems be used for powering electric vehicle recycling facilities?
Yes, solar energy systems can be used for powering electric vehicle recycling facilities. Solar panels can be installed on the roofs or surrounding areas of these facilities to generate clean and renewable electricity. This can not only help reduce the carbon footprint of the recycling process but also provide a sustainable and cost-effective source of power for various operations within the facility.

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