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  • The village microgrid energy storage system The village microgrid energy storage system
    Aug 12, 2024
    The village microgrid energy storage system is a small, flexible, and reliable power system designed specifically for rural areas. It integrates distributed generation sources (such as solar photovoltaic panels, wind turbines, etc.), energy storage devices (such as batteries, supercapacitors, etc.), energy conversion devices, loads, and monitoring and protection devices, forming an autonomous system capable of self-control, protection, and management. This system aims to address issues such as unstable power supply and high electricity costs in rural areas, enhancing rural electrification levels and promoting the utilization of renewable energy. II. System Components   Distributed Generation Sources: Primarily solar photovoltaic panels and wind turbines, these sources are clean and renewable, reducing dependence on traditional energy sources. Energy Storage Devices: Used to store electrical energy generated by distributed generation sources for release when needed. The choice of energy storage devices depends on specific system requirements and cost considerations, with common options including batteries and supercapacitors. Energy Conversion Devices: Including inverters and rectifiers, these devices convert the electrical energy generated by distributed generation sources into a form suitable for use in the village grid. Loads: Refer to various electrical devices within the village, such as lighting, household appliances, and agricultural irrigation. The system conducts intelligent scheduling based on load demand to ensure reliable and economical power supply. Monitoring and Protection Devices: Used to monitor the system's operating status in real-time, including voltage, current, power, and other parameters, and take timely measures for protection in case of failure, ensuring the safe and stable operation of the system. III. System Advantages   Improved Power Supply Reliability: The village microgrid energy storage system can provide emergency power during grid failures or outages, ensuring continuous power supply to the village. Reduced Electricity Costs: By utilizing renewable energy and energy storage technologies, it reduces dependence on traditional grids, thereby lowering electricity costs. Promotes Renewable Energy Utilization: The system efficiently harnesses solar, wind, and other renewable energy sources, decreasing reliance on fossil fuels and reducing carbon emissions. Enhanced Energy Utilization Efficiency: Through intelligent scheduling and optimized management, it improves energy utilization efficiency and reduces energy waste.
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  • Solar and multi-scenario fusion solar power supply system Solar and multi-scenario fusion solar power supply system
    Sep 04, 2024
               Solar and multi-scenario fusion solar power supply system is a field full of potential. It combines photovoltaic technology and multi-scenario applications to provide stable, reliable and environmentally friendly power supply for various scenarios. The following are some key features and application scenarios of photovoltaic and multi-scenario fusion solar power supply system:             1. Residential and architectural fields: Photovoltaic and building integration (BIPV) is an important form of integration between photovoltaic and architectural fields. By installing photovoltaic panels on buildings, solar energy is converted into electrical energy to provide power supply for buildings. This method is not only beautiful, but also reduces the energy consumption and carbon emissions of buildings, achieving green buildings and sustainable development.           2. Agricultural field: The integration of photovoltaic and agricultural fields can realize the "agricultural light complementary" mode. Installing photovoltaic panels above the farmland and carrying out agricultural production below not only makes full use of land resources, but also improves the efficiency of agricultural production. At the same time, photovoltaic panels can also provide power support for agricultural irrigation, breeding, etc., and promote the modernization of agriculture.           3. Transportation field: The application of photovoltaics in the transportation field is mainly reflected in the solar power supply system of transportation facilities such as highways, railways, bridges, etc. By installing photovoltaic panels on traffic facilities, it is possible to provide power support for traffic lights, surveillance cameras, etc., while reducing dependence on traditional electricity and improving energy efficiency.           4. Public facilities: Photovoltaics are also widely used in public facilities. For example, installing photovoltaic panels in public places such as parks, squares, and schools can provide power support for lighting, monitoring and other equipment, reducing energy consumption and carbon emissions. In addition, photovoltaics can also be combined with energy storage technology to provide a stable power supply for public facilities in remote areas.           5. Energy storage field: With the development of energy storage technology, the integration of photovoltaics and energy storage technology is becoming closer and closer. By storing the electricity generated by photovoltaic panels, it can provide power support for various scenarios in insufficient light or at night. This can not only solve the intermittent and volatile problems of photovoltaic power generation, but also improve energy efficiency and reduce dependence on traditional electricity.           In short, photovoltaics and multi-scenario integrated solar power supply systems have broad application prospects and potential. With the continuous advancement of technology and the continuous expansion of the market, it will play an increasingly important role in various fields and promote the transformation and sustainable development of the global energy structure.
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  • Core technologies of microgrids Core technologies of microgrids
    Sep 09, 2024
    The key technologies of smart microgrids mainly include the following: (I) Renewable energy generation technology At present, smart microgrids are mainly based on a variety of renewable energy sources, and the power input is mainly photovoltaic, wind power, hydrogen energy, natural gas, biogas and other mature power generation technologies. (I) Key technologies of energy storage Energy storage is an indispensable part of microgrids. It can play a role in peak shaving and valley filling in microgrids, greatly improving the utilization efficiency of intermittent energy. With the continuous development of science and technology, the current energy storage mainly includes battery energy storage, flywheel energy storage, superconducting magnetic energy storage, and supercapacitor energy storage. The more mature energy storage technology is lead-acid battery, but it has the problems of short life and serious lead pollution. In the future, the marketization of high energy storage, low cost, and high-quality performance graphene batteries will bring spring to the energy storage industry. The current development cost of energy storage technology is relatively high. Countries around the world are working on this technology, but they all have a common goal, which is to achieve the goal of "low cost + high energy storage". (II) Smart microgrid energy optimization dispatching technology Different from the traditional power grid dispatching system, the smart microgrid dispatching system belongs to the horizontal multi-energy complementary optimization dispatching technology, which can fully explore and utilize the direct complementary substitutability of different energy sources, and can not only realize the output of heat, electricity and cold, but also realize the energy exchange of light/electricity, heat/cold, wind/electricity, direct/alternating current. The stratification of various energy sources in the source-storage-load links realizes orderly cascade optimization dispatching to achieve the best energy utilization efficiency. (III) Smart microgrid protection and control technology There are multiple power sources and multiple loads in the smart microgrid. The changes in loads and fluctuations in power sources need to be regulated and controlled by the energy storage system or the external power grid. The regulation, switching and control of these power sources are completed by the microgrid control center. In addition to monitoring the power parameters, switch status, power quality and energy parameters of each new energy generation system, energy storage system and load, the microgrid control center also needs to save energy and improve power quality.
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