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| Product Advantage
1. Standard 30-foot container design,compact design,saving project land space,suitable for large andmedium-sized energy storage projects;
2. 280AhPACK+Pack-level targeted fire suppression +Pack-level fan speed control;
3. 1500V DC,20 years ofnormaluse;
4. Patented bionic tree runner design,intelligenttemperature control system,system temperaturedifference≤5℃,battery cycle life increased by 12%;
5. The main control cabinet,Integrated DC confluence,power distribution,communication and control; 6. Cell-level fully automatic fire protection,integratingdetection,fire extinguishing,combustible gas detection,smoke prevention,and explosion venting functions;
7. The module uses a new type of non-metallic material,theblocking level is 5VA,and it has the characteristics of hightemperature resistance,long life,and excellentinsulation ability,which effectively inhibits thermalrunaway and electrical insulation problems;
8. Black start function
Model | YT Explore 5117 | |
Battery parameters | Cell Type | LFP-3 .2V-280Ah |
Rated Power[ kWh] | 5117 .95 | |
Charge/ Discharge Ratio | ≤0 . 5CP | |
Battery Voltage Range[V] | 1142〜 1468 .8 | |
System Parameters | BMS | Level 3 |
Size (Width * Height * Depth)[MM] | 6058 *2896 *2438( 20ft) | |
Weight[ KG] | 33T | |
Ingress Protection | IP54 | |
Operating Temperature Range | -30 〜+50℃( >45℃ Derating) | |
Operating Humidity Range | 0 〜 9 5 % ( Non- condensing) | |
Auxiliary Electrical Parameter | 25kW-380V&480V/50Hz | |
Fire Protection | S-type aerosol/ HFC-227EA/ Perflu oro hexanone | |
Installation | Outdoor Installation | |
Anti corrosion Grade | C 3 ( C 4\ C 5 optional) | |
Altitude | Within 3 0 0 0 m | |
Working Condition | Up to 2 charges and 2 discharges per day | |
System Communication Interface | Ethernet | |
External System Communication Protocol | Modbus TCP | |
Certification | GB/T 36276、GB/T 34131、UL 1973、UL 9540A、IEC 62619、UN 38 .3 | |
| Product Uses
1.Renewable Energy Integration: Energy storage systems play a crucial role in integrating renewable energy sources like solar and wind into the grid. They store excess energy generated during peak production periods and release it during high demand or when renewable sources are not actively generating electricity.
2.Microgrids and Remote Areas: In remote areas or regions with unreliable grid infrastructure, energy storage systems provide a reliable and stable power supply. They store energy during periods of low demand or when renewable sources are available and release it when needed, ensuring a continuous power supply.
3.Grid Stabilization and Frequency Regulation: Energy storage systems can respond rapidly to fluctuations in grid frequency and help stabilize the power grid. They provide ancillary services like frequency regulation, voltage support, and grid balancing, which contribute to a more efficient and reliable electricity system.
4.Peak Shaving and Load Management: Energy storage systems help reduce peak demand on the grid by supplying stored energy during times of high electricity usage. This "peak shaving" helps avoid strain on the grid, reduces the need for expensive peaker plants, and can lead to cost savings for both utilities and consumers.
5.Backup Power and Uninterrupted Power Supply (UPS): Energy storage systems provide backup power in case of grid outages or blackouts. They ensure uninterrupted power supply to critical facilities such as hospitals, data centers, telecommunications infrastructure, and emergency response centers, where power reliability is of utmost importance.
| FAQ
What is an energy storage system?
An energy storage system is a technology that captures and stores energy for later use. It allows surplus energy to be saved and released when demand is high or when intermittent energy sources like solar or wind are not actively generating power.
How do energy storage systems work?
Energy storage systems store energy in various forms such as electrical, mechanical, chemical, or thermal energy. Common technologies include batteries, pumped hydro storage, compressed air energy storage, flywheels, and thermal energy storage. During charging, the system converts and stores energy, and during discharge, it releases the stored energy back into the grid or for specific applications.
What are the benefits of energy storage systems?
Energy storage systems offer several benefits, including:
Grid Stability: They help stabilize the power grid by balancing supply and demand, managing frequency fluctuations, and providing voltage support.
Renewable Energy Integration: They enable the integration of intermittent renewable energy sources into the grid, enhancing reliability and reducing curtailment.
Peak Demand Management: Energy storage systems can reduce peak demand on the grid by supplying stored energy during high-demand periods, avoiding the need for additional power plants and reducing costs.
Backup Power: They provide backup power during grid outages, ensuring uninterrupted electricity supply for critical loads.
Cost Savings: Energy storage systems can optimize energy usage, reduce electricity bills through demand management, and avoid peak pricing.
What are the types of energy storage systems?
There are various types of energy storage systems, including:
Battery Energy Storage Systems (BESS): Lithium-ion, lead-acid, flow batteries, etc.
Pumped Hydro Storage: Utilizes the gravitational potential energy of water.
Compressed Air Energy Storage (CAES): Compresses air and stores it in underground caverns.
Flywheel Energy Storage: Stores energy in the rotational motion of a flywheel.
Thermal Energy Storage: Stores and releases thermal energy using materials like molten salt or phase-change materials.
Where are energy storage systems used?
Energy storage systems have diverse applications, including:
Grid-scale energy storage for utility companies.
Residential and commercial energy storage for self-consumption and backup power.
Integration with renewable energy installations.
Microgrids and remote areas with limited grid access.
Electric vehicle charging infrastructure.
Industrial and commercial load management.
