Features

Simple Setup

Security and Dependability

Effortless Handling and Upkeep
Application Scenario
- Demand Charge Reduction:
Leverage the ESS to strategically manage energy demand during peak hours, significantly reducing demand charges and optimizing operational expenses for commercial facilities. - Peak Shaving Strategies:
Employ the ESS to mitigate peak energy consumption by releasing stored energy during high-demand periods, contributing to substantial cost savings. - Renewable Energy Optimization:
Integrate the ESS with solar arrays or wind turbines, storing surplus renewable energy for use during low-generation periods, enhancing energy self-sufficiency. - Grid Stabilization:
Utilize the rapid response capabilities of the ESS to provide frequency regulation, voltage support, and grid stabilization services, enhancing overall power grid reliability. - Energy Resilience and Backup:
Ensure uninterrupted operations during grid outages by employing the ESS as a dependable backup power source, safeguarding business continuity. - Optimized Load Management:
Employ dynamic load shifting, using stored energy during peak hours to reduce electricity costs and enhance operational efficiency. - Microgrid Integration:
Seamlessly integrate the ESS into microgrid systems, enhancing energy self-reliance and enabling autonomous operation during grid disruptions. - Electric Vehicle Charging Infrastructure:
Enhance electric vehicle charging stations with the ESS to manage charging demand, optimize energy usage, and provide resilient backup power. - Remote Area Power:
Extend consistent power supply to remote facilities or off-grid locations, addressing energy challenges and bolstering operational reliability. - Industrial Process Assurance:
Ensure the continuity of critical industrial processes by deploying the ESS to provide stable and reliable power, minimizing production downtime. - Grid Services Participation:
Engage in grid services, such as demand response and ancillary services, leveraging the ESS to provide grid stability and earning potential. - Energy Arbitrage:
Capitalize on fluctuating energy prices by charging the ESS during low-cost periods and discharging during peak-cost periods, optimizing energy expenses.
Product Advantage
- Greater Capacity:
With an increased storage capacity of 80 kWh, the ESS provides even more energy storage potential, catering to higher demand applications and longer-duration usage. - Enhanced Energy Resilience:
The larger capacity allows for extended backup power during grid outages, ensuring uninterrupted operations for longer durations. - Increased Flexibility:
The extra energy capacity offers more flexibility in load shifting and energy optimization strategies, accommodating larger energy consumption patterns. - Extended Renewable Integration:
The higher energy capacity enables longer-term storage of excess renewable energy, ensuring consistent clean energy utilization over extended periods. - More Comprehensive Grid Services:
The larger ESS can provide even more substantial grid stability services, contributing to smoother grid operations and potentially yielding higher revenue from grid services participation.
- Scaling Possibilities:
With a higher capacity, the ESS remains scalable to even larger energy storage needs, supporting businesses’ future expansion plans. - Reduced Cost per kWh:
As the ESS capacity increases, the cost per kWh of stored energy may decrease, enhancing the economic feasibility of energy storage investments. - Broader Application Reach:
The enhanced capacity broadens the ESS’s application spectrum, making it suitable for larger commercial facilities, industrial processes, and more extensive microgrid installations. - Adaptable Customization:
The increased capacity provides more room for customization, allowing tailored solutions to match the specific energy requirements of diverse industries. - Industry-Leading Efficiency:
With its advanced LiFePO4 technology and expanded capacity, the 80 kWh ESS continues to provide more efficiency and performance.
Product Specification
HV DC unit specifications
Electrical Capacity |
1000V 160A |
Maximum Battery DC Voltage |
1000Vdc |
---|---|---|---|
Maximum Current |
160A |
Communication |
CAN, RS485 optional |
Monitor |
External linked, for all rack battery information display |
Main switch |
Yes |
Working power |
230Vac |
Parallel function |
Optional, need to define before place order |
Weight |
30kG |
Dimensions (mm) |
Standard 19' rack mounted, 446 x 245 x 587 |
Accessories |
Cables and touch screen monitor |
Pack specifications
Capacity |
10.75kWh |
Cell Amount |
32 pcs |
---|---|---|---|
Cell Connection |
2P16S |
Nominal Voltage |
51.2V |
Ah Value |
210Ah |
Maximum Discharge Current |
0.7C |
Maximum Charge Current |
0.7C |
BMS |
High voltage BMS integrated |
Charge Method |
CV/CC/CP |
Protections |
Yes |
Dimensions |
W446mm D587mm H245mm |
Weight |
85kg |
Model |
Customized rack 80 |
Nominal Energy |
86kWh |
Usable Energy |
81.9kWh |
Battery Pack Amount |
8 |
Voltage |
409.6V |
Voltage Working Range |
358.4V-460.8V |
Nominal Current |
147A |
Racking Parallel |
Yes (please define before placing order) |
HV DC unit |
Yes |
Monitor |
Yes, external linked and installed |
Dimensions |
Customized |