CNBM On Grid System 15KW with Certificate UL TUV CE

CNBM On Grid System 15KW with Certificate UL TUV CE

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Loading Port:: Shanghai

Payment Terms:: TT OR LC

Min Order Qty:: 100 watt

Supply Capability:: 1000 watt/month

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Item specifice

Application:

Home

Output Voltage (V):

380

CNBM On Grid System 10KW with Certificate UL TUV CE

Product description

They range from small residential and commercial rooftop systems to large utility-scale solar power stations. Unlike stand-alone power systems, a grid-connected system rarely includes an integrated battery solution, as they are still very expensive. When conditions are right, the grid-connected PV system supplies the excess power, beyond consumption by the connected load, to the utility grid.

Connection of the photovoltaic power system can be done only through an interconnection agreement between the consumer and the utility company. The agreement details the various safety standards to be followed during the connection.[4]

Bypass diodes may be incorporated or used externally, in case of partial module shading, to maximize the output of module sections still illuminated.

Grid-connected PV systems are comparatively easier to install as they do not require a battery system.[1][6]

Grid interconnection of photovoltaic (PV) power generation systems has the advantage of effective utilization of generated power because there are no storage losses involved.[7]

CNBM On Grid System 15KW with Certificate UL TUV CE

Application

Industrial

Commercial

Residential

Feature

Residential, grid-connected rooftop systems which have a capacity more than 10 kilowatts can meet the load of most consumers.[2] They can feed excess power to the grid where it is consumed by other users. The feedback is done through a meter to monitor power transferred. Photovoltaic wattage may be less than average consumption, in which case the consumer will continue to purchase grid energy, but a lesser amount than previously. If photovoltaic wattage substantially exceeds average consumption, the energy produced by the panels will be much in excess of the demand. In this case, the excess power can yield revenue by selling it to the grid. Depending on their agreement with their local grid energy company, the consumer only needs to pay the cost of electricity consumed less the value of electricity generated. This will be a negative number if more electricity is generated than consumed.[3] Additionally, in some cases, cash incentives are paid from the grid operator to the consumer.

Packaging

With carton and box

Q:How do I calculate the return on investment for a solar energy system?: To calculate the return on investment (ROI) for a solar energy system, you need to consider the initial cost of the system, the annual savings or income generated by the system, and the payback period. 1. Determine the initial cost: This includes the cost of purchasing and installing the solar panels, inverters, wiring, and any additional equipment or installation charges. 2. Estimate the annual savings or income: Calculate the amount of money you will save or earn each year by using solar energy instead of relying solely on traditional energy sources. This can be done by estimating the kilowatt-hour (kWh) production of your system and multiplying it by the local electricity rate. Additionally, consider any feed-in tariffs or tax credits you may be eligible for. 3. Calculate the payback period: Divide the initial cost by the annual savings or income to determine how many years it will take to recover your investment. For example, if the initial cost is $20,000 and the annual savings are $2,000, the payback period would be 10 years ($20,000 / $2,000). 4. Calculate the ROI: Once the payback period is determined, subtract it from the expected lifespan of the solar energy system. Divide the remaining years by the payback period and multiply by 100 to get the ROI percentage. For example, if the expected lifespan is 25 years and the payback period is 10 years, the ROI would be 60% ((25-10) / 10 * 100). It's important to note that this calculation provides an estimate and does not account for factors like maintenance costs, inflation, or changes in energy prices. Additionally, consider other benefits such as reduced carbon footprint and increased property value when evaluating the ROI of a solar energy system.

Q:Can solar energy systems be used for powering recycling or waste management facilities?: Yes, solar energy systems can be used to power recycling or waste management facilities. Solar energy can be harnessed through the installation of solar panels, which can generate electricity to meet the energy requirements of these facilities. By utilizing solar power, recycling or waste management facilities can reduce their reliance on traditional energy sources, lower their carbon footprint, and contribute to a more sustainable and environmentally friendly operation.

Q:Can solar energy systems be used in residential areas with homeowners associations?: Yes, solar energy systems can be used in residential areas with homeowners associations. However, it is important to review and comply with the HOA's guidelines and regulations regarding the installation of solar panels. Some associations may have specific requirements or restrictions, such as design guidelines, placement restrictions, or approval processes. It is recommended to consult with the homeowners association and work together to find a solution that meets both the homeowner's desire for solar energy and the association's guidelines.

Q:Can solar energy systems be used for powering public transportation systems like buses or trains?: Yes, solar energy systems can be used to power public transportation systems like buses or trains. Solar panels can be installed on the roofs of the vehicles or at specific locations along their routes to harness solar energy. This energy can then be converted into electricity to power the vehicles' motors and other systems, reducing their reliance on fossil fuels and decreasing emissions. Additionally, solar energy systems can also be utilized to charge the batteries of electric buses or trains, providing a sustainable and renewable source of power for public transportation.

Q:Can solar energy systems be used for powering water pumping systems?: Yes, solar energy systems can be used to power water pumping systems. Solar-powered water pumping systems utilize photovoltaic panels to convert sunlight into electricity, which can then be used to power water pumps. These systems are cost-effective, environmentally friendly, and have proven to be reliable in remote areas where grid electricity is not available.

Q:Can solar energy systems be used in powering green hotels or eco-resorts?: Yes, solar energy systems can definitely be used in powering green hotels or eco-resorts. Solar power is a clean and renewable source of energy that can greatly contribute to reducing the carbon footprint of these establishments. By installing solar panels on the roofs or open spaces of hotels and resorts, they can generate electricity from the sun's rays and use it to power their operations. Solar energy systems can provide a significant portion, if not all, of the electricity needed to run a green hotel or eco-resort. This includes powering lighting systems, heating and cooling systems, water pumps, and other electrical appliances. The excess energy generated during the day can also be stored in batteries or fed back into the grid to be used during nighttime or low sunlight periods. Implementing solar power in these establishments not only helps reduce their dependence on fossil fuels but also makes them more self-sufficient and resilient to power outages. It aligns with their commitment to sustainability and eco-conscious practices, attracting environmentally conscious travelers who prioritize staying in green accommodations. Furthermore, solar energy systems can also enhance the overall guest experience at these hotels and resorts. They can provide opportunities for educational tours and demonstrations where guests can learn about the benefits of solar power and the importance of renewable energy sources. This can create awareness and inspire guests to adopt sustainable practices in their own lives. In conclusion, solar energy systems are an excellent choice for powering green hotels or eco-resorts. They offer a clean, renewable, and reliable source of electricity that aligns with their sustainability goals. By harnessing the power of the sun, these establishments can reduce their carbon footprint, enhance their guest experience, and contribute to a more sustainable future.

Q:How do solar energy systems impact the electricity grid?: Solar energy systems impact the electricity grid by reducing the demand for electricity from traditional power plants and lowering overall electricity costs. They also contribute to a more resilient and decentralized grid by generating electricity closer to where it is consumed, reducing transmission losses and enhancing grid stability. However, the intermittent nature of solar power can pose challenges for grid operators in terms of managing fluctuations in supply and demand.

Q:How do solar energy systems affect wildlife and ecosystems?: Solar energy systems have minimal negative impacts on wildlife and ecosystems compared to other forms of energy generation. While the construction and operation of solar farms may disrupt local habitats temporarily, they generally have a smaller footprint and lower emissions than fossil fuel power plants. Proper planning and siting can help mitigate potential effects on wildlife, and studies have shown that solar farms can even provide new habitats for certain species. Overall, solar energy systems have a relatively positive environmental profile and contribute to the conservation of wildlife and ecosystems.

Q:What is the impact of roof angle on the performance of solar panels?: The angle of a roof has a significant impact on the performance of solar panels. The ideal roof angle depends on the geographical location of the installation and the time of year. In general, solar panels perform best when they are tilted at an angle that allows them to capture the maximum amount of sunlight throughout the day. This is because the angle affects the amount of direct sunlight that falls on the panels, which directly impacts their energy production. In regions closer to the equator, where the sun is more directly overhead, a roof angle of around 30 to 45 degrees is typically recommended. This allows the panels to receive the maximum amount of sunlight during the year. On the other hand, in regions farther from the equator, where the sun is lower in the sky, a steeper roof angle of around 45 to 60 degrees may be more suitable to optimize solar panel performance. The impact of the roof angle on solar panel performance is also noticeable during different seasons. For example, in the summer when the sun is higher in the sky, a flatter roof angle may be more effective in capturing sunlight. Conversely, during the winter when the sun is lower, a steeper roof angle can help maximize energy production. It is important to note that while the roof angle is a crucial factor, other factors such as the orientation of the panels (facing south is usually preferred in the Northern Hemisphere) and shading from nearby objects or trees can also influence the performance of solar panels. Proper planning and design are essential to ensure optimal performance and efficiency of the solar panel system.

Q:Can solar energy systems be used in areas with limited access to food?: Yes, solar energy systems can be used in areas with limited access to food. Solar energy systems can power various agricultural technologies such as irrigation systems, greenhouses, and hydroponic systems, which can help improve food production in these areas. Additionally, solar energy can also be used to power refrigeration and storage systems, allowing for better preservation of food and reducing post-harvest losses.

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