CNAE provides comprehensive sodium-ion battery solutions covering both power and energy storage applications to meet diverse industry needs.
From urban waterfront leisure yachts to solar-powered ships driven by new energy, and then to passenger and cargo transport vessels on inland waterways, sodium-ion batteries are bringing about an all-round energy revolution in the field of ship power.
In the context of leisure yachts, it offers fast charging and discharging as well as stable endurance, allowing yacht enthusiasts to embark on water-based leisure trips at any time. It combines the convenience of charging with the sustainability of power, injecting efficient energy into water-friendly life. Solar-powered ships are equipped with sodium-ion batteries, achieving a perfect coupling of new energy and energy storage technologies. With the assistance of solar energy, their endurance is further upgraded, opening up a new experience of zero-carbon water navigation. In the field of inland waterway passenger and cargo ships, sodium-ion batteries, with their large capacity and high reliability, help ships transport efficiently in inland waterways, achieve the green transformation of shipping operations, and bring a new low-carbon option to inland waterway logistics and passenger transport.
From leisure and entertainment to the exploration of new energy, and then to commercial transportation, sodium-ion batteries, with their precise adaptation to multiple scenarios of ship power, provide strong energy support for the green upgrade of water transportation and operations, leading ship power into a new era of low-carbon and high efficiency.
From park engineering operations to construction in extremely cold environments, and then to warehousing and logistics scenarios, sodium-ion batteries are injecting strong and diverse energy power into construction machinery.
In the engineering scenarios of the park, various types of engineering operation vehicles are equipped with sodium-ion batteries. With stable endurance and efficient output, they can flexibly carry out transportation and operation tasks within the park, promoting the efficient operation of park construction and maintenance. In extremely cold snowy environments, large-scale snow removal engineering machinery, due to the outstanding low-temperature performance of sodium-ion batteries, can remain powerful even in frozen snow, ensuring timely and efficient snow removal operations and safeguarding traffic and environmental safety in extreme weather conditions. In the warehousing and logistics scenario, forklifts and unmanned operation vehicles rely on the rapid charging and discharging and high safety of sodium-ion batteries to achieve the automation and greening of goods handling and sorting in warehousing, significantly enhancing the operational efficiency of warehousing.
From conventional parks to extremely cold working conditions and then to indoor warehouses, sodium-ion batteries, with their precise empowerment of multiple scenarios in construction machinery, have become a key energy force driving the green and intelligent upgrade of the construction machinery industry.
From the agile vehicles of shared mobility to the green arteries of urban public transportation and the heavy-duty pioneers of logistics transportation, sodium-ion batteries are empowering automotive power scenarios in all aspects.
In the field of shared cars, it features fast charging, high efficiency and stable range, ensuring that every shared vehicle is always fully charged and ready for use, meeting users' immediate travel needs and promoting the efficient operation of the shared mobility ecosystem. In urban public transportation scenarios, sodium-ion batteries, with their large capacity and high safety, have become the "power hub" of the public transportation system, helping the fleet of public transportation achieve zero-emission operation and creating a green commuting experience for citizens. Focusing on the logistics truck sector, its long range and strong power output break through the energy bottleneck of commercial vehicles, enabling logistics transportation to run efficiently between cities and injecting new impetus into the acceleration of the supply chain.
From passenger cars to public transportation and then to commercial vehicles, sodium-ion batteries are reshaping the automotive power landscape with their technological adaptability, providing more economical, reliable and green energy solutions for diverse automotive travel and transportation needs.
In the field of light power, sodium-ion batteries are emerging as a new energy force that can handle multiple scenarios. On the city streets, the electric two-wheelers driven by food delivery riders, thanks to the efficient endurance and stable output of sodium-ion batteries, nimbly weave through the traffic, ensuring the timely delivery of meals. On the snowy plateau, light snowmobiles equipped with sodium-ion batteries can fully charge their power even in extremely cold conditions, allowing outdoor explorers to freely gallop in the icy and snowy world. In the logistics park, light delivery vehicles have become the green pioneers of last-mile delivery thanks to the high safety and economic advantages of sodium-ion batteries, making the flow of goods more efficient and economical.
From personal light travel to outdoor light operations and then to logistics light distribution, sodium-ion batteries, with their precise adaptation to light power scenarios, provide a powerful "heart" for various light equipment, promoting the application of light power to blossom with new vitality in diverse scenarios.
From the signal endurance of urban communication base stations to the power guarantee of military communication equipment, and then to the energy reserve of computing power in data centers, sodium-ion batteries are becoming the "power anchor point" in the field of network energy.
In communication scenarios, whether it is civilian base stations in cities or mobile communication equipment in the military, sodium-ion batteries, with their high reliability and long endurance, ensure that signal transmission is always online. Even in the event of power outages or extreme environments, they can maintain the stable operation of communication networks, building a solid energy defense line for information transmission. In the data center scenario, it serves as the "energy backing" for computing power hubs with its efficient energy storage and rapid response features, smoothing out power fluctuations, ensuring the continuous operation of server clusters, and facilitating the efficient and stable computing power foundation of the digital economy.
From the full coverage of communication networks to the computing power endurance of data centers, sodium-ion batteries, with their technological advantages, empower multiple scenarios of network energy, providing solid energy support for smooth communication and sustainable computing power, and promoting the network energy system to move towards a more reliable and efficient direction.
From the energy self-sufficiency of photovoltaic households to the energy circulation of vehicle-home interconnection, and then to the power guarantee for home emergencies, sodium-ion batteries are reshaping the application landscape of household energy.
In the photovoltaic residential scenario, it serves as the core hub for green electricity storage. By storing the electricity generated from solar panels as needed, it enables self-sufficiency in household electricity supply. Even in the event of a power outage, it can ensure a stable supply of basic electricity for lighting, home appliances, etc. In the vehicle-home interconnection ecosystem, sodium-ion batteries can interact with new energy vehicles in terms of energy. The integration of vehicle storage and home enables the surplus electricity from the vehicle to supply power to the home, and the household electricity can also feed back to the vehicle, thus building a circular energy network for the home. In scenarios such as home maintenance and emergency power supply, its portability and stable output enable power tools, emergency lighting and other devices to run fully charged at any time, providing reliable power support for family life and unexpected situations.
From energy autonomy to vehicle-home interaction, and then to emergency support, sodium-ion batteries, with their multi-scenario adaptability, have become the intelligent energy storage hub of the home energy ecosystem, helping families move towards a more autonomous, greener and more convenient new energy life.
From the energy security hub of industrial parks to the peak-valley regulation hub of industrial and commercial clusters, and then to the green energy base station of enterprise parks, sodium-ion batteries are bringing about an all-round energy efficiency revolution in the field of industrial and commercial energy storage.
In the industrial park scenario, it builds a stable energy reserve system with high safety and long cycle life, providing reliable power support for various production enterprises within the park. Even during peak electricity consumption periods, it can ensure that production is not interrupted. In industrial and commercial cluster areas, sodium-ion batteries, with their rapid charging and discharging capabilities and intelligent regulation, have become the "energy-saving managers" for peak-valley electricity price arbitrage, helping enterprises reduce electricity costs while alleviating the load pressure on the power grid. In the self-use scenarios of enterprise parks, its modular design and efficient energy storage capacity enable self-generation and self-consumption of green electricity and storage of surplus electricity, promoting the transformation of the enterprise's energy structure towards green and low-carbon.
From industrial production support to commercial energy conservation and cost reduction, and then to the green transformation of enterprises, sodium-ion batteries are reshaping the industrial and commercial energy storage landscape with their technological adaptability, providing more economical and reliable energy storage solutions for various industrial and commercial entities, and driving energy efficiency upgrades and sustainable development in the industrial and commercial sectors.
From the energy buffer of photovoltaic power stations to the peak shaving center of power grid systems, and then to the power stabilizer of wind farms, sodium-ion batteries are becoming the all-round "energy bank" in the field of power storage.
In the photovoltaic energy storage scenario, it stores the intermittent energy of photovoltaic power stations in real time and releases it as needed through efficient charging and discharging and long cycle life, solving the problem of photovoltaic output fluctuations and making the supply of clean power more stable. In the grid-side energy storage scenario, sodium-ion batteries, with their rapid response and large-capacity storage, have become "flexible pawns" for peak shaving in the power grid, smoothing out the difference between peak and off-peak electricity consumption and ensuring the stable and efficient operation of the power grid at all times. In the field of wind power energy storage, its strong adaptability and reliable performance effectively mitigate the intermittency and randomness of wind power, making the power output of wind power more controllable and facilitating the large-scale grid connection and consumption of wind power.
From the support of new energy power stations to the central regulation of the power grid and then to the consumption support of wind power, sodium-ion batteries, with their technological advantages, have crossed multiple scenarios of power storage, providing solid energy storage momentum for building a new power system and achieving the green transformation of energy.
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