Industrial and Commercial Energy Storage vs. Large Scale Battery Storage

As the world moves towards a more sustainable and cleaner energy future, energy storage systems have become a critical component of the energy mix. Among these systems, commercial and industrial (C&I) energy storage and large-scale battery storage are two prominent solutions that have emerged in recent years. In this essay, we will explore the differences between these two types of energy storage systems and their applications.

Industrial and commercial energy storage is mostly integrated and built with one cabinet. Commercial and industrial energy storage systems are designed to provide backup power to facilities such as commercial buildings, hospitals and data centers. These systems are typically smaller than large battery storage systems, with capacities ranging from a few hundred kilowatts to several megawatts, and are designed to provide power for short periods of time, often up to a few hours. Commercial and industrial energy storage systems are also used to reduce energy demand during peak hours and to improve power quality by providing voltage regulation and frequency control. C&I energy storage systems can be installed on-site or remotely and are becoming increasingly popular for facilities looking to reduce energy costs and increase energy resiliency.

In contrast, large battery energy storage systems are designed to store energy from renewable sources, such as wind and solar power. These systems have capacities of tens to hundreds of megawatts and can store energy for longer periods of time, ranging from a few hours to several days. They are often used to provide grid services such as peak shaving, load balancing and frequency regulation. Large battery storage systems can be located near renewable energy sources or near the grid, depending on the application, and are becoming increasingly popular as the world moves toward a more sustainable energy mix.

Commercial and industrial energy storage system structure diagram

Energy storage plant system structure diagram

Industrial and Commercial Energy Storage vs. Large Scale Battery Storage: Capacity

Commercial and industrial (C&I) energy storage systems typically have a capacity of a few hundred kilowatts (kW) to a few megawatts (MW). These systems are designed to provide backup power for short periods, usually up to a few hours, and to reduce energy demand during peak hours. They are also used to improve power quality by providing voltage regulation and frequency control.

In comparison, large-scale battery storage systems have a much higher capacity than C&I energy storage systems. They typically have a capacity of tens to hundreds of megawatts and are designed to store energy from renewable sources such as wind and solar power. These systems can store energy for longer periods, ranging from several hours to several days, and are used to provide grid services such as peak shaving, load balancing, and frequency regulation.

Industrial and Commercial Energy Storage vs. Large Scale Battery Storage: Size

The physical size of C&I energy storage systems is also typically smaller than large-scale battery storage systems. C&I energy storage systems can be installed on-site or remotely and are designed to be compact and easily integrated into existing buildings or facilities. In contrast, large-scale battery storage systems require more space and are typically located in large fields or in special buildings specifically designed to house the batteries and other associated equipment.

The difference in size and capacity between C&I energy storage and large-scale battery storage systems is primarily due to the different applications for which they are designed. C&I energy storage systems are intended to provide backup power and to reduce energy demand during peak hours for individual facilities. In contrast, large-scale battery storage systems are intended to provide energy storage on a much larger scale to support the integration of renewable energy sources into the grid and to provide grid services to the broader community.

Industrial and Commercial Energy Storage vs. Large Scale Battery Storage: Batteries

Commercial and industrial energy storage uses energy-based batteries. Commercial and industrial energy storage has relatively low response time requirements, and energy-based batteries are used for comprehensive consideration of cost and cycle life, response time and other factors.

Energy storage power plants use power-type batteries for frequency regulation. Similar to commercial and industrial energy storage, most energy storage power plants use energy type batteries, but because of the need to provide power auxiliary services, so the FM power plant energy storage battery system for cycle life, response time requirements are higher, for frequency regulation, emergency backup batteries need to choose power type, some grid scale energy storage companies launched the power plant battery system cycle times Some grid scale energy storage companies introduced the power station battery system cycle times can reach about 8000 times, higher than ordinary energy type battery.

BMS architecture for energy storage plants

Industrial and Commercial Energy Storage vs. Large Scale Battery Storage: BMS

Commercial and industrial energy storage battery system can provide overcharge, over discharge, overcurrent, over-temperature, under-temperature, short-circuit and current limit protection functions for the battery pack. Commercial and industrial energy storage battery systems can also provide voltage equalization functions during charging, parameter configuration and data monitoring through background software, communication with many different types of PCS and joint intelligent management of energy storage systems.

The energy storage power plant has a more complex structure level with the unified management of batteries in layers and levels. According to the characteristics of each layer and level, the energy storage power plant calculates and analyzes various parameters and operating status of the battery, realizes effective management such as equalization, alarm and protection, so that each group of batteries can achieve equal output and ensure that the system reaches the best operating condition and the longest operating time. It can provide accurate and effective battery management information and greatly improve battery energy utilization efficiency and optimize load characteristics through battery equalization management. At the same time, it can maximize the battery life and ensure the stability, safety and reliability of the energy storage system.

Industrial and Commercial Energy Storage vs. Large Scale Battery Storage: PCS

Energy storage converter (PCS) is the key device between energy storage device and grid, relatively speaking, commercial and industrial energy storage PCS is relatively single-function and more adaptable. Commercial and industrial energy storage inverters are based on bi-directional current conversion, compact size, flexible expansion according to their own needs, easier to integrate with the battery system; with 150-750V ultra-wide voltage range, can meet the needs of lead-acid batteries, lithium batteries, LEP and other batteries in series and parallel; one-way charge and discharge, adapted to a variety of types of PV inverters.

Energy storage power plant PCS has grid support function. The DC side voltage of energy storage power plant converter is wide, 1500V can be operated at full load. In addition to the basic functions of the converter, it also has the functions of grid support, such as having primary frequency regulation, source network load fast scheduling function, etc. The grid is highly adaptable and can achieve fast power response (<30ms).

Industrial and Commercial Energy Storage vs. Large Scale Battery Storage: EMS

Commercial and industrial energy storage EMS system functions are more basic. Most of the commercial and industrial energy storage system EMS do not need to accept grid dispatch, only need to do a good job of local energy management, need to support the storage system battery balance management, to ensure operational safety, to support millisecond rapid response, to achieve integrated management and centralized regulation of energy storage subsystem equipment.

The EMS system of energy storage power stations is more demanding. In addition to the basic energy management function, it also needs to provide grid dispatching interface and energy management function for the microgrid system. It needs to support a variety of communication statutes, has a standard power dispatch interface, and be able to manage and monitor the energy of applications such as energy transfer, microgrid and power frequency regulation, and support the monitoring of multi-energy complementary systems such as source, network, load and storage.

Industrial and Commercial Energy Storage vs. Large Scale Battery Storage: Applications

C&I energy storage systems are primarily designed for on-site or near-site energy storage and management applications, including:

Backup power: C&I energy storage systems are used to provide backup power in the event of an outage or failure in the grid. This ensures that critical operations can continue uninterrupted, such as data centers, hospitals, and manufacturing plants.

Load shifting: C&I energy storage systems can help reduce energy costs by shifting energy use from peak demand periods to off-peak periods when energy is cheaper.

Demand response: C&I energy storage systems can be used to reduce peak energy demand during periods of high energy use, such as during heatwaves, by storing energy during off-peak periods and then discharging it during peak demand periods.

Power quality: C&I energy storage systems can help improve power quality by providing voltage regulation and frequency control, which is important for sensitive equipment and electronics.

In contrast, large-scale battery storage systems are designed for grid-scale energy storage and management applications, including:

Storing energy from renewable sources: Large-scale battery storage systems are used to store energy from renewable sources, such as wind and solar power, which are intermittent and require storage to provide a consistent energy supply.

Peak shaving: Large-scale battery storage systems can help reduce peak energy demand by discharging stored energy during periods of high demand, which can help avoid the need for expensive peaker plants that are only used during peak periods.

Load balancing: Large-scale battery storage systems can help balance the grid by storing energy during periods of low demand and discharging it during periods of high demand, which can help prevent power outages and improve the stability of the grid.

Frequency regulation: Large-scale battery storage systems can help regulate the frequency of the grid by providing or absorbing energy to help maintain a consistent frequency, which is important for ensuring the stability of the grid.

In conclusion, both C&I energy storage and large-scale battery storage systems have their unique applications and advantages. C&I energy storage systems are designed to provide backup power to facilities and to improve power quality, while large-scale battery storage systems are used to store energy from renewable sources and provide grid services. The choice between the two systems depends on the specific needs and requirements of the application, including the size, duration of storage, and cost-effectiveness.