It provides an excellent price/performance ratio and is suitable for medium to large users in both the industrial and commercial sectors. It guarantees long-term energy saving without compromising on quality in whatever respect.
Multiple safety protection such as overcharge and short-circuit prevention for performance assurance reliably and stably.
Intelligent management and optimization can realize real-time intelligent management and optimization, efficiently utilize energy, and control operation.
Easy Maintenance: The facility is designed in a modular manner that is easy to maintain and upgrade. Thus, it would be able to meet the requirements of growing energy needs with only very slight downtime.
Energy Storage Container System by Huijue Group Prefabricated container in size options of 10/20/40 feet. These are the solutions to megawatt-class power output needs. An integrated structure of this energy storage unit includes energy storage batteries, energy management systems, monitoring systems, temperature control system, and fire protection system. Based on the basic unit of the battery cluster, through smooth interconnection with photovoltaic power, wind power, thermal power, and so on, provide requirements for different voltages and capacities. Allow new energy absorption, output smoothing of power, peak shaving, frequency modulation, peak load shifting, and auxiliary services to the grid. Energy storage therefore finds its application in the wide range from generation itself to transmission and distribution, right up to consumption.
(1) The Rapid Power Response function supports virtual power plants, grid tie island operations, and others.
(2) Compact packaging can greatly reduce the costs and time of transport and installation in the field.
(3) Site data acquisition, intelligent monitoring, and remote O&M.
(4) Standard parallel interface; several units can be combined for free capacity expansion. Meanwhile, batch manufacturing is easier to guarantee.
(5) realize in-situ intelligent installation and operation/maintenance, node adaptive support, fault indication, etc., and reduce operation/maintenance workload by 70%.
(6) No isolation design, high efficiency, improve the efficiency of the whole system; the battery independently in one cluster, no loop current, reduces losses.
(7) Six-layer security protection design, multi-info fusion.
(8) Local/remote upgrade, support broadcast program upgrade, compared to traditional point-to-point upgrade efficiency increased more than 90%.
(1). Peak cut and valley filling:
Discharge at peak requirement to reduce expensive electricity bills.
(2). Stability of power system:
Stabilize the output with the help of the power storage along with dispatch of variable renewables.
(3). Backup
Power supply to the load when the grid is in down condition or backup power supply to the area without power.
(4). Peak and valley arbitrage
The peak and valley arbitrage will occur due to different time.
(5). Use optimization of renewable energy:
The daytime loads maximize the use of the photovoltaic power, while the excess daytime power is reserved for use at night.
(6).Save investment cost in grid upgrade
Save money in initial investment in grid construction using Distributed Power System Scenarios.
