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

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Commercial battery system: 80kWh rackable customized battery system

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80kWh rackable customized battery system

The 80 kWh Energy Storage System (ESS) represents a sophisticated commercial energy storage solution meticulously crafted to cater to the distinctive demands of diverse industries. Comprising eight sets of battery units, each harboring a formidable 10.75 kWh energy capacity, the ESS culminates in an impressive total storage capability of 80 kWh. The bedrock of this innovation is anchored in 105Ah LiFePO4 cells, meticulously interwoven in a 2 parallel and 16 series configuration, yielding a precise nominal voltage of 51.2V per unit. The system’s orchestration is entrusted to a Battery Control Unit (BCU), overseeing judicious energy management.

One of the ESS’s cardinal attributes is its innate scalability, facilitated by a rackable design that seamlessly accommodates additional battery units, addressing evolving energy requirements. Beyond its modular architecture, the ESS showcases its versatility through compatibility with an array of energy infrastructure setups.

This multifaceted ESS is characterized by its adaptability to a spectrum of applications. From demand charge optimization and peak shaving to the integration of renewable energy sources and fortifying grid stability, its footprint spans diverse commercial contexts. This embodiment of advanced LiFePO4 technology, coupled with its scalable nature, underscores its potential as a pivotal asset for industries seeking efficient energy management, cost reduction, and energy resilience.

In essence, the 80 kWh ESS resonates as a testament to innovation, poised to recalibrate energy paradigms and empower industries to embrace a more dynamic, efficient, and sustainable energy landscape.

Description

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

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