Craftsmanship and Perseverance for the Basic Technology
Advanced staking process is adopted for SVOLT products and all series products have undergone penetration test to ensure safety.
Penetration test
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Short Blade Cell
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Energy Storage System
350Ah specialized cell for electric energy storage
Extremely safe, long-life energy storage short blade cells
325Ah specialized cell for electric energy storage
Extremely safe, long-life energy storage short blade cells
730Ah specialized cell for household energy storage
Extremely safe, long-life energy storage short blade cells
Energy density
>171 Wh/Kg
Efficiency
>94%
Ultimate safety
Staking technology
High cycle
8000
Energy density
>165 Wh/Kg
Efficiency
>94%
Ultimate safety
Staking technology
High cycle
9000
Energy density
>185 Wh/Kg
Efficiency
>94%
Ultimate safety
Staking technology
High cycle
8000
3.46/3.3Wh liquid cooled container-0.5P
Equipped with short blade cells of SVOLT, innovative in five major fields and globally certified.
318kWh energy storage cabinet
Equipped with short blade cells of SVOLT, innovative in five major fields and globally certified.
3.34MWh liquid cooled container-1P
Equipped with short blade cells of SVOLT, innovative in five major fields and globally certified.
6.9MWh liquid cooled container-0.5P
Equipped with short blade cells of SVOLT, innovative in five major fields and globally certified.
Safety innovation
Design and production of automotive-grade cells, AI smart factory standards, safety (+15%).
Technology innovation
Stacking process increases density by 5%, cycle life by 10%, and cost by 15%.
Material innovation
Advanced LFP and nanoscale chemical systems, with high rate and high capacity, as well as ultra long cycle life (over 9,000 cycles).
Intelligent innovation
Advanced BMS and EMS with self-learning and artificial intelligence technology, full lifecycle management (recycling supported).
Safety innovation
Design and production of automotive-grade cells, AI smart factory standards, safety (+15%).
Technology innovation
Stacking process increases density by 5%, cycle life by 10%, and cost by 15%.
Material innovation
Advanced LFP and nanoscale chemical systems, with high rate and high capacity, as well as ultra long cycle life (over 9,000 cycles).
Intelligent innovation
Advanced BMS and EMS with self-learning and artificial intelligence technology, full lifecycle management (recycling supported).
Safety innovation
Design and production of automotive-grade cells, AI smart factory standards, safety (+15%).
Technology innovation
Stacking process increases density by 5%, cycle life by 10%, and cost by 15%.
Material innovation
Advanced LFP and nanoscale chemical systems, with high rate and high capacity, as well as ultra long cycle life (over 9,000 cycles).
Intelligent innovation
Advanced BMS and EMS with self-learning and artificial intelligence technology, full lifecycle management (recycling supported).
Safety innovation
Design and production of automotive-grade cells, AI smart factory standards, safety (+15%).
Technology innovation
Stacking process increases density by 5%, cycle life by 10%, and cost by 15%.
Material innovation
Advanced LFP and nanoscale chemical systems, with high rate and high capacity, as well as ultra long cycle life (over 9,000 cycles).
Intelligent innovation
Advanced BMS and EMS with self-learning and artificial intelligence technology, full lifecycle management (recycling supported).
Application Scenarios
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Electricity scenario
Specialized products for large-capacity electric energy storage are linked with photovoltaic, thermal power, wind power, grid dispatch and other systems through energy management systems.
The big data platform and energy management system can quickly and accurately adjust energy storage charging and discharging strategies based on power generation and grid scheduling needs.
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Commercial scenarios
High-quality commercial energy storage products can achieve real-time monitoring of remaining capacity and load size of power lines with the support of energy management systems, and can interact with energy units such as distributed photovoltaics and charging equipment.
The big data platform and energy management system can quickly and accurately adjust the energy storage charging and discharging strategies based on the different energy consumption conditions monitored.
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Family scenario
Diversified home energy storage products that support DIY appearance and achieve self-sufficiency in household energy and effectively store renewable energy such as solar and wind energy.
In the event of a power outage or sudden malfunction in the power grid, household energy storage can be put into standby mode to ensure basic electricity consumption.
Energy replenishment can be achieved during peak electricity consumption to supplement insufficient power supply in the power grid and avoid grid overload and faults.
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Electricity scenario
Smoothing fluctuations, improving forecasting accuracy, enhancing new energy generation capacity, conducting joint frequency regulation, participating in auxiliary services, achieving large-scale flexible peak-shaving, and improving power factor and other functions.
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Commercial scenarios
Conducting peak load shifting to alleviate the energy burden during peak hours, providing emergency power supply, and coordinating with charging piles to alleviate capacity shortages, which can participate in auxiliary services.
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Family scenario
Household energy supply, balancing grid load, emergency backup, optimizing electricity consumption and management, and reducing energy costs.
They are Using Products from SVOLT
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100MWh Shared Energy Storage Project of Nyocor in Shishou
50MW/100MWh
Rated total installed capacity of energy storage system
This project is the first shared electrochemical energy storage power station of SVOLT, with a rated total installed capacity of 50MW/100MWh for the energy storage system.
Shared energy storage can reduce the investment cost of new energy projects, play a role in power regulation, and promote the matching of power supply and demand. Furthermore, it can also enhance the regulatory support capacity of the power grid system, and significantly increase the installed capacity and grid connection scale of renewable energy such as photovoltaic and wind power.
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50MW Project of Integration of Agriculture, Photovoltaic Power Generation of CNNC in Tengzhou
5MW/10MWh
Project installation
The project was officially put into operation on December 30, 2020, with an installed capacity of 5MW/10MWh. It is one of the first batch of photovoltaic power station energy storage projects in Shandong, equipped with many functions such as peak load shifting, AGV/C dispatching, primary/secondary frequency regulation, etc. It can meet various requirements such as charging by abandoned light, demand side response, and grid side safety.
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Guangdong User Side Stereoscopic Energy Storage Project
19MW/38MWh
Project volume
Site 1: Located on the reserve land outside the parking lot of Lens Technology Park in Dongguan City, the project has a volume of 19MW/38MWh. A three-dimensional energy structure is constructed in the project by utilizing the reserve land. The steel structure overhead method is adopted to achieve integrated application of light storage and charging, solving the problems of parking, charging, and peak load shifting in the park.
Site 2: Located in Dongguan Internet Industrial Park, the project has a volume of 500kWMh. It makes full use of the park space to solve the parking, charging, peak load shifting, power backup and other problems in the park through three-dimensional methods.
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Dual Adjustment Cascade 1.5MW Energy Storage Project of Southern Power Grid
1.5MW/4.9MWh
Project installation
The project was officially put into operation on April 30, 2021, with an installed capacity of 1.5MW/4.9MWh. It is a demonstration project for the utilization of lithium iron phosphate cascade modules, with functions such as peak load shifting, AGVC dispatching, and regulation, to achieve demand side response and cascade energy utilization.
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400MWh Energy Storage Project in Awat, Xinjiang
5.0176MWh
Single unit capacity
For the Grid-Connected 400000 KW Photovoltaic + Energy Storage Marketization Project of Guangdong Hydropower Group in Awat County, SVOLT provided a total of 80 prefabricated battery compartments, with a single unit capacity of 5.0176 MWh and a total capacity of 401.408 Wh. The energy storage system can achieve applications such as solar energy storage integration, energy transfer, primary frequency regulation, secondary frequency regulation, reactive power support, short-circuit capacity, black start, virtual inertia, damping, etc. in conjunction with photovoltaic power generation. Furthermore, the energy storage system can accept grid dispatching and participate in grid auxiliary services.