The Importance of Energy Storage Systems for Industrial Parks
In modern industrial processes, industrial parks have enormous power demands and heavily rely on grid stability. Traditionally, they face two significant challenges: the cost pressures of peak electricity rates and the impact of grid fluctuations or unexpected outages. Moreover, as countries impose stricter regulations on carbon emissions, many industrial parks now encounter an additional challenge—meeting carbon reduction targets. Energy storage systems offer an efficient solution for achieving low-carbon development.
By peak shaving, ensuring stable power supply, and integrating renewable energy, energy storage systems help industrial parks optimize energy management, reduce electricity costs, and assist companies in meeting environmental goals. Furthermore, their environmental benefits enable businesses to apply for government subsidies, creating additional economic and policy advantages for the park.
Benefits of Energy Storage Systems for Industrial Parks
Reducing Electricity Costs
By storing electricity during off-peak hours and discharging it during peak hours, energy storage systems significantly reduce peak electricity consumption, optimizing overall energy costs—particularly effective in regions with high electricity price fluctuations.
Stable Power Supply
Energy storage systems respond to grid fluctuations or outages in milliseconds, providing backup power to critical equipment. This ensures uninterrupted production, especially for precision manufacturing and continuous process production lines.
Stable Power Supply
Energy storage systems respond to grid fluctuations or outages in milliseconds, providing backup power to critical equipment. This ensures uninterrupted production, especially for precision manufacturing and continuous process production lines.
Securing Government Subsidies
The environmental benefits of energy storage systems help businesses apply for various government incentives, such as carbon reduction rewards and green industry support funds. These subsidies lower the initial investment costs, providing additional financial support for park development.
PKNERGY Customizes a free, no-obligation Industrial Parks energy storage system design for you
Industrial Parks Energy Storage System Case Study
What are their needs?
An enterprise primarily engaged in electronic component production and precision instrument development faced significant electricity demand, especially during daytime peak hours, leading to high energy costs. Occasional grid fluctuations or outages disrupted production, and a prolonged outage once resulted in lost orders. To address these issues, the company decided to implement an energy storage system to optimize energy management, reduce electricity expenses, and provide backup power during unexpected outages.
PKNERGY’s Solution
1MWh Energy Storage Container
PKNERGY designed an energy storage system tailored to the park’s electricity demands and load characteristics with the following configuration:
- Battery Model: Integrated 1MWh Battery Energy Storage System (BESS)
- Supported Loads: Public lighting systems, production equipment, and communication infrastructure
The system uses CATL’s LFP cells, equipped with key components such as a Battery Management System (BMS), temperature sensors, smoke detectors, and a fire suppression system to ensure safe operation. In the event of a power outage, the system can provide over two hours of backup power to park facilities, minimizing the economic losses caused by downtime.
What they got?
The energy storage system, integrated with a solar PV system and peak shaving strategy, reduces the park’s annual electricity costs by approximately 25%. Additionally, the system cuts annual carbon dioxide emissions by about 500 tons, helping the enterprise meet government-mandated carbon reduction targets and successfully securing environmental funding support.
Risparmiare denaro, proteggere l'ambiente
PKNERGY vi aiuta a ridurre le bollette energetiche per l'accumulo di energia solare in casa, immagazzinando l'energia solare per utilizzarla in qualsiasi momento, di notte o durante un'interruzione.
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