The product offers excellent value, ideal for medium to large industrial and commercial users, ensuring long-term energy savings and reliable operational efficiency.
Equipped with overcharge, short-circuit protection, and temperature control, it ensures reliable, stable performance and optimal safety over time.
It provides real-time intelligent management, optimizing energy use, controlling operations, and ensuring maximum efficiency with minimal energy waste.
The modular design enables easy maintenance and upgrades, ensuring minimal downtime and meeting growing energy demands efficiently.
The containerized energy storage system of Huijue Group is with prefabricated containers in size options of 10/20/40 feet. These are the solutions to megawatt-level power output needs. Energy storage batteries, energy management systems, monitoring systems, temperature control systems, and fire protection systems are all integrated into this energy storage unit. It can be based on the battery cluster as its basic unit to fulfill the demand of different voltages and capacities, which can be smoothly connected to photovoltaic, wind, and thermal power, among other systems. Allow for the absorption of new energy, the smoothing of power output, the shaving of peaks, frequency regulation, peak load shifting, and auxiliary services to the grid. Therefore, energy storage has gained a wide range of applications in power generation, transmission, distribution, and consumption.
(1).rapid power response supports virtual power plant, grid tie, island operation and so on
(2).compact packaging greatly reduces field transportation and installation time and cost.
(3).on-site data acquisition, intelligent monitoring, remote O&M.
(4).standard parallel interfaces can connect multiple units in parallel, convenient to expand the capacity; meanwhile batch manufacturing process is easier to guarantee.
(5).Intelligent installation and operation and maintenance, support node adaptive, fault indication, etc., site and operation and maintenance workload reduced by 70% .
(6).non-isolation design, improve system efficiency, independent single-cluster battery, no loop current, reduce power loss
(7).Six-layer security protection design, multi-information fusion.
(8).local/remote upgrade, support broadcast program upgrade, compared to the traditional point-to-point upgrade efficiency increased more than 90%.
(1).peak cut and valley filling
During peak requirements, discharge to reduce expensive electricity bills.
(2).Improve stability of power system
Stabilize output with power storage and dispatch of variable renewables.
(3).Backup
Supplies power to the load when the grid goes down or a backup supply for the area without electricity.
(4).Peak and valley arbitrage
Peak and valley arbitrage at different times of the day:
(5).Renewable energy use optimization
Daytime loads maximize the utilization of photovoltaic power, with excess power stored for use at night.
(6).Reduce grid upgrade investment costs
Reduce the initial investment in grid construction when utilizing distributed power system scenarios.
