Commercial & Industrial BESS
Cut Costs, Not Power
Balance the energy peaks to lessen the strain on the grid and avoid high charges.
Build a smarter energy budget
Run energy-heavy tasks during off-peak hours when electricity is cheaper, minimize the tariffs inherent in the peak demand by using the stored energy.
Microgrid potential
Make sure hospitals, data centers, etc. can continue operations in power failure conditions.
Guarantee operational efficiency
Strategically store energy to power energy-intensive industrial operations.
LVFU C&I Product line
Modular PV - energy storage
Outdoor Liquid-cooled
Battery Cabinets
C&I PV+ BESS(Container solution)
Economical and efficient: peak shaving and valley filling, efficient conversion, deep power supply, and seamless switching Safe and reliable: real-time monitoring, perfect mechanism, multi-level protection, comprehensive management Intelligent interaction: multiple modes, intelligent management and control, real-time monitoring, quick easy maintain.
Flexible configuration, convenient installation; remote monitoring, real-time attention Seamless switching, multiple modes; advanced protection, safe and worry-free.
Commercial and industrial energy storage is a typical application ofthe distributed energy storage system on the user side, and features closedistance from the distributed pv power terminal and the load center, whichcan not only effectively improve the consumption rate of clean energy, butalso effectively reduce the loss of power transmission, and help therealization of the carbon peaking and carbon neutrality goals. The purposeof industrial and commercial energy storage is to meet the electricitydemand of industrial and commercial loads, and to realize the return oninvestment by making use of the difference between peak and valleyelectricity tariffs. C&i energy storage can cooperate with pv power generationto increase the ratio of "self-consumption priority", or it can take part in amicrogrid system consisting of solar, wind, diesel generator, and otherenergy sources.
Key Feature
PV(Solar)
Access
This commercial and industrial energy storageproduct operates under AC 400v on-grid condition,and can realize local manual adjustment, automaticpeak shaving, dynamic expansion and other operatingmodes through local EMS or remote EMS controlstrategies.
The system can also be optionally equipped witha PV access function to form a PV-storage system.
Flat and Valley Price Periods
In case of sufficient Pv power generation, PVs firstcharge batteries and then supply the remaining power toloads; In case of insufficient py power generation, Pys firstcharge batteries, and the grid supplies all the power to loads.However, the grid can charge batteries as well;
lf batteries are not discharged within a week after theon-grid connection of the system, the batteries will bedischarged a week following the charging to maintain theelectrochemical activity, and the power is determinedaccording to the battery calculation.
Peak Price Periods
In case of sufficient Py power generation, Pys firstsupply power to loads and then charge batteries with the
remaining power:In case of insufficient Py power generation, batteriesdischarge to supply power to loads. lf batteries getcompletely discharged,the grid supplies power to loadswhile charging batteres.
Dynamic extension of the grid ortransformer by devices When electrical loadsincrease, the energy storage system can beused to effectively extend the capacity of thegrid and reduce the short-time overload oftransformers or circuits caused by the changeof loads.
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When the power P of the load side is equal to or greater than that of the gridside, the energy storage system is in the discharging and extension mode(P=P1+P2)to reduce the load of transformers and effectively prevent theoccurrence ofthe peak power.
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When the power P of the load side is equal to or smaller than that of the gridside, the energy storage system is in the charging mode (P1=P+P2) to store theelectric energy of the grid in batteries.
Key Feature
Dynamic
Extention
Key Feature
On/Off Grid
Switch
In power backup, power preservation, and other applicationscenarios, it is necessary to ensure the power supply for importantloads. The EMS system controls the charging and discharging functionsof batteries based on whether the grid is powered on or off, ensuringthat its loads and power consumption terminal are not affected by gridoutage. The switching time shall be less than or equal to 10ms.
①When the grid is powered on, the energy storage system worksin on-grid mode and charges batteries under specific settings.
② When the grid is suddenly powered off, the distributed energystorage allin-one machine inverts the battery energy storage into ACpower supply for the loads, writh a switching time less than 10ms, toensure that the loads are not subject to intermittent power supplyinterruptions.
③When the grid is powered on again, after the system detects thegrid power-on, it automatically switches to the on-grid mode, andrecharges the batteries according to the policy requirements to ensurethe power supply for the next power outage
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Matching Standard Modular Pv-storage System
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Standard Single-gun and Dual-gun Ev Charger Access
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Pv, Storage and Charging Control Strategy and Energy Scheduling
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Standard EV Charger System, Matching Combination Mode
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Prefabricated PV-storage-charging Integrated System
Key Feature
DC Supply
CASES
Flexible Application Industrial & commercial
All scenario energy management solution - transformer-free design, on/off-grid compatible.
Smart harmonic suppression algorithm ensures power quality, with full lifecycle O&M efficiency.
Easy Design
Single-design-fits-all approach enables continuous reuse and error prevention.
Easy Installation
Multi-product combined delivery saves ≥4 man-days per station.
Easy Procurement
One-stop ordering from single supplier, simplified warehousing and configuration.
Easy Maintenance
Professional after-sales service with rapid response.
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