CNBM Energy Storage 1228V2752kWh Hybrid Lithium Battery Solar Power System On Grid ESS

CNBM Energy Storage 1228V2752kWh Hybrid Lithium Battery Solar Power System On Grid ESS System 1

CNBM Energy Storage 1228V2752kWh Hybrid Lithium Battery Solar Power System On Grid ESS System 2

CNBM Energy Storage 1228V2752kWh Hybrid Lithium Battery Solar Power System On Grid ESS System 3

CNBM Energy Storage 1228V2752kWh Hybrid Lithium Battery Solar Power System On Grid ESS System 4

CNBM Energy Storage 1228V2752kWh Hybrid Lithium Battery Solar Power System On Grid ESS

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Loading Port:: Stock in Panama

Payment Terms:: TT OR LC

Min Order Qty:: 50 set

Supply Capability:: 10000 set/month

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Item specifice

Application:

Industrial

Output Voltage (V):

1036V

Work Time (h):

100 hours and longer

CNBM Energy Storage 300kwh 500kwh Hybrid Lithium Battery Solar Power System 100KW On Grid ESS

Liquid cooled high voltage LFP BATTERY ENERGY STORAGE SYSTEM

SDC-ESS-R1228V2752kWh It is a LFP battery container designed for high-capacity energy storage systems, mainly used in large-scale renewable energy generation consumption, power grid peak regulation and frequency regulation, emergency backup, delayed distribution network upgrade, distributed generation and microgrid systems. Modular design, strong scalability, can meet the power and energy needs of different user scenarios. The battery module has a rated voltage of 1228V and a rated capacity of 280Ah。

Product features

uHigh Security：The use of LFP material system, with high safety, long life, stable and reliable characteristics; The protection level of the battery module is IP65 or above, which can effectively prevent condensation and salt spray erosion.

uHigh Performance Liquid-cooling Technology：Adopt intelligent temperature control and balanced design, single PACK temperature difference ≤ 3 °C.

uMulti-dimensional Fire Protection Design：Equipped with cell level, PACK level, cabin class three-level fire protection design, equipped with temperature sensitivity, combustible gas detection and other detection sensors, water fire, cabin gas fire and PACK level gas fire compatible design, flexible selection.

uStandardized Modules：The standardized module design is adopted, which is highly extensible and can meet the power and energy requirements of different scenarios. All components are pre-installed in the factory, saving onsite installation and commissioning workload and meeting the overall marine transportation

Q:How long does a solar energy system last?: A solar energy system typically lasts for about 25 to 30 years, but can continue to generate electricity beyond that period with regular maintenance and occasional component replacements.

Q:Can solar energy systems be used in areas with high levels of saltwater exposure?: Yes, solar energy systems can be used in areas with high levels of saltwater exposure. However, it is important to use materials and components that are specifically designed to withstand the corrosive effects of saltwater. This can include using corrosion-resistant coatings on solar panels, using stainless steel or marine-grade aluminum for mounting structures, and implementing proper maintenance and cleaning procedures to minimize the impact of salt buildup on the system.

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 is then used to power the water pumps. These systems are particularly beneficial in remote areas without access to the electrical grid or where traditional energy sources are expensive or unreliable. Solar-powered water pumps provide a sustainable and cost-effective solution for irrigation, livestock watering, and other water supply needs.

Q:Can solar energy systems be used for powering off-grid eco-cities?: Yes, solar energy systems can be used to power off-grid eco-cities. Solar panels can be installed to harness sunlight and convert it into electricity, providing a sustainable and renewable energy source for various needs in eco-cities. This allows these cities to operate independently from the traditional power grid, reducing their reliance on non-renewable energy sources and minimizing their carbon footprint. Solar energy systems also offer the advantage of scalability, allowing eco-cities to expand their solar capacity as needed.

Q:Can solar energy systems be used in areas with limited access to backup systems?: Yes, solar energy systems can be used in areas with limited access to backup systems. Solar energy systems are designed to generate electricity from sunlight, which means they can operate independently without relying on backup systems such as grid power or generators. These systems can store excess energy in batteries, allowing for usage during periods of low sunlight or at night. In remote areas with limited access to backup systems, solar energy can provide a reliable and sustainable source of power.

Q:How does the angle of incidence affect the performance of solar panels?: The angle of incidence significantly affects the performance of solar panels. When the angle of incidence is perpendicular to the sun's rays (90 degrees), the panels receive the maximum amount of solar energy, resulting in the highest efficiency. As the angle deviates from perpendicular, the amount of energy captured decreases, leading to reduced performance. Therefore, adjusting the angle of solar panels to match the sun's position throughout the day optimizes their efficiency and overall performance.

Q:Can solar energy systems be used in powering scientific research vessels or marine laboratories?: Yes, solar energy systems can be used to power scientific research vessels or marine laboratories. Solar panels can be installed on the vessels or on nearby platforms to harness sunlight and convert it into electricity, which can then be used to power various equipment and systems onboard, such as navigation devices, communication systems, lighting, and scientific instruments. This not only reduces reliance on fossil fuels but also provides a sustainable and renewable energy source for these facilities, enabling them to operate efficiently and environmentally responsibly.

Q:Can solar energy systems be used for powering off-grid recreational vehicles?: Yes, solar energy systems can be used to power off-grid recreational vehicles. Solar panels can be installed on the roof of the RV to capture sunlight and convert it into electrical energy, which can then be used to power various appliances and systems within the vehicle. This not only provides a sustainable and environmentally-friendly power source but also allows RV owners to enjoy freedom and independence from traditional electrical hookups while on their travels.

Q:How much energy can a solar energy system generate?: The amount of energy a solar energy system can generate depends on several factors such as the size and efficiency of the system, the geographical location, and the amount of sunlight available. On average, a well-designed solar energy system can generate enough electricity to meet a significant portion of a household or business's energy needs.

Q:How does the efficiency of solar panels vary based on the cleanliness?: The efficiency of solar panels can vary based on their cleanliness. When solar panels are clean and free from dirt, dust, or debris, they can capture a higher amount of sunlight and convert it into electricity more effectively. Clean solar panels have a lower chance of being obstructed by dust particles, which can reduce the amount of sunlight they can absorb. Additionally, a buildup of dirt or grime on the surface of solar panels can create a barrier that prevents sunlight from reaching the photovoltaic cells, resulting in a decrease in their efficiency. Regular cleaning and maintenance of solar panels are essential to ensure optimal performance. By keeping solar panels clean, their efficiency can be maximized, leading to improved electricity generation. It is recommended to clean solar panels periodically, especially in areas with high levels of dust or pollution, or during seasons with increased pollen or debris in the air. By doing so, the solar panels can continue to operate at their highest efficiency, resulting in increased energy production and overall system performance.

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