Zeno Electric
1 / 5
Our energy storage battery systems deliver cutting-edge power solutions designed for residential, commercial, and industrial applications.
These high-performance battery systems serve as dependable emergency backup power sources, ensuring uninterrupted operation during grid outages while optimizing energy consumption for maximum cost savings.
| TECHNICAL PARAMETERS | |
|---|---|
| Product Name | Commercial Energy Storage Battery |
| Keywords | Energy Storage Battery |
| Nominal Voltage | 230V/400V |
| Nominal Capacity | 80KW-125KW |
| Cycle Life | 8000cycles+ |
| Protection Class | IP55 |
| Cooling Method | Liquid Cooling |
| Rated Output Voltage | 400V, 3L/N/E |
| Operating Voltage Range | 650V~959V |
| Cell Type | 3.2V/314Ah LFP |
| System Efficiency | >90% |
| Communication Method | 4G/LAN |
| Operating Temperature | -25°C~55°C |
Function: Achieve the conversion between chemical energy and electrical energy, serving as the basic unit for storing electrical energy in the energy storage cabinet.
Advantages: High-quality cells with long cycle life can reduce long-term usage costs.
Function: Combines multiple battery cells in series and parallel to achieve stable voltage and capacity, integrates cooling, overcharge/overtemperature/overcurrent protection mechanisms.
Advantages: Modular design facilitates installation, maintenance, and expansion, and the protective mechanism enhances system safety, preventing the impact of a single cell failure on the entire system.
This "four-in-one" hybrid energy storage inverter integrates four major functions: PCS charging and discharging, photovoltaic grid-connected power generation, off-grid/on-grid diesel-powered switching, and EMS energy management. It is specifically designed for industrial and commercial applications.
High-Efficiency Power Generation: 200% DC oversizing, increasing power generation by 20% for the same roof area, significantly shortening the payback period.
Flexible Energy Storage: Dual battery interface design supports mixed configurations of different types/capacities of batteries, adapting to phased investment and future expansion.
Intelligent Management: Built-in AI energy management system automatically optimizes charging and discharging strategies based on electricity price fluctuations to maximize returns.
Reliable and Safe: Patented heat dissipation technology ensures stable operation even in high-temperature environments, extending equipment lifespan.
Function: Real-time monitoring of operating parameters of each component, formulation of the most optimal charging and discharging strategies, fault warning and emergency protection, connection with grid dispatch instructions.
Advantages: Intelligent scheduling enhances energy utilization efficiency, reduces manual intervention, provides comprehensive protection for components to extend system lifespan, and ensures operational stability.
Function: Real-time monitoring of the voltage, temperature, SOC (Remaining Capacity), and SOH (Health Status) of each cell, achieving balanced charging and discharging of the cells, triggering fault protection for overcharge, overdischarge, overtemperature, etc., and transmitting battery status data to EMS.
Advantages: Precise control of the battery's operating state, preventing damage to individual cells, extending the overall lifespan of the battery pack, core guaranteeing the safety of the energy storage cabinet operation, and reducing battery degradation losses.
Buying low-cost electricity during off-peak hours and discharging it during peak or ultra-peak periods to reduce corporate energy costs, maximizing profit margins by capitalizing on significant electricity price differentials throughout the day, while also optimizing energy storage systems to achieve substantial savings and improved return on investment for enterprises.
Optimizing demand through energy storage deployment to minimize short-term peak loads, lower demand charges, and enhance user revenue, while intelligently balancing grid consumption patterns to avoid costly infrastructure upgrades, reduce transmission congestion, improve overall power quality, and enable flexible scheduling that aligns energy usage with operational priorities and cost-saving opportunities for maximum efficiency.
During power shortages, enterprises voluntarily reduce consumption (e.g., peak shaving) to support grid stability, earning economic incentives in return, while participating in utility programs that offer flexible compensation structures, contributing to environmental sustainability by reducing reliance on expensive peaker plants, and establishing strategic partnerships with grid operators for long-term financial benefits and enhanced energy resilience.
Can I have a sample order?
Yes, we welcome sample orders to test and check quality. Customized options are available.
How to proceed with an order?
Firstly, let us know your requirements or application. Secondly, we quote according to your requirements or our suggestions. Thirdly, customer confirms the samples and places a deposit for a formal order. Fourthly, we arrange the production.
Is it OK to print my logo on the product?
Yes. Customers can provide their own packaging, or we can provide neutral packaging options.
Where can I get the price?
We usually quote within 24 hours after we get your inquiry. If you require the price urgently, please state it in your inquiry so that we will give your request priority.
What payment methods do you accept?
We accept standard payment methods, including PayPal, T/T, Credit Card, Western Union, and Bank Transfer. Please get in touch with our team for more details to discuss specific payment requirements.
What cooling method is utilized in this system?
The system features advanced Liquid Cooling technology, maintaining a protection class of IP55, to ensure optimal performance, reliable temperature management, and enhanced system longevity.
