Focused on addressing energy pain points in high-consumption industries like electrolytic aluminum and metal smelting, WHES launched innovative solutions to tackle core challenges such as high energy costs and green electricity integration. Recognized as an SMM Global TIER 1 User-Side Energy Storage System Supplier, WHES attracted significant attention and collaboration interest, emerging as a highlight of the event.
Addressing the “Dual High” Challenge in Energy-Intensive Industries: Energy Storage as the Breakthrough
The metal smelting industry has long faced issues like grid fluctuations, high energy costs, and intense carbon emission pressures due to frequent impact loads and significant peak-valley electricity consumption differences. WHES proposes an integrated “Energy Storage + Smart Regulation” solution to help enterprises achieve the “triple reduction” goal of energy consumption, costs, and emissions. With millisecond-level response times, its systems buffer load surges to ensure production continuity. Leveraging regional peak-valley electricity price differentials, it optimizes charging and discharging strategies. For instance, a 5 MW energy storage project at a smelting plant saves approximately 1.65 million yuan annually in electricity costs and reduces carbon emissions by around 1,645 tons.
Product Highlights: PowerCore Series for C&I Energy Storage
At the expo, WHES unveiled two new products from the PowerCore Series:
· PowerCore D Series: Designed for large industrial parks and heavy industries, it features ultra-high energy density and flexible deployment capabilities. Its “Six-Dimensional Prevention + Eight-Dimensional Control” safety system ensures comprehensive protection from cell to system level, balancing safety and efficiency.
· PowerCore C Series: Targeting space-constrained environments, this compact model delivers 1 MWh capacity while occupying only half the space of a standard parking spot. Its modular design and intelligent control hub optimize operational efficiency through a “cloud-edge-terminal” integrated approach.
Also showcased was the flagship PowerCore B Series, equipped with #CATL packs and a high-precision BMS for cell consistency. Compliant with global standards (UL9540A, UN38.3, EN50549, G99, VDE4110, CEI016/021), it offers globally compliant solutions for C&I energy storage.
PANGU OS: The “Super Brain” of Smart Energy Management
WHES's PANGU OS is deeply integrated with AI technology, accurately predicting electricity price fluctuations and load demand to dynamically optimize charging and discharging strategies. It captures peak-valley arbitrage opportunities in real time and intelligently responds to grid load changes—discharging stored energy when nearing transformer capacity to prevent overload and prioritizing low-cost charging during off-peak hours.
PANGU OS also includes an intelligent O&M module for real-time health monitoring and anomaly alerts, extending system lifecycle profitability. Its AI-driven virtual power plant (VPP) capabilities enable precise aggregation and dispatch of distributed storage and renewable resources, enhancing green energy utilization and market trading revenues. Advanced AI models empower strategic decision-making in energy trading, helping enterprises “trade smart, win with confidence.”
A Green Revolution for High-Energy-Consumption Enterprises Starts with Efficient Energy Use
By smoothing loads and reducing grid dependence through energy storage, enterprises can alleviate high consumption and emissions pressures while capitalizing on new models like VPPs to transform carbon reduction goals into sustainable economic gains.
WHES will unveil the technical details of the PowerCore Series mid-year. With a dual-drive strategy of “Energy Storage + Intelligence,” the company continues advancing the integration of high-consumption industries with clean energy. Deployed across 38 countries and regions, WHES’s cumulative project scale exceeds several hundred MWh. Looking ahead, WHES aims to accelerate the fusion of storage and AI, empowering global C&I users to achieve sustainable growth marked by energy efficiency leaps, controllable carbon emissions, and predictable profits—reshaping the green industrial paradigm
