Top 10 Application Scenarios of Energy Storage Systems

From the perspective of the power system, the application scenarios of energy storage can besubdivided into grid-side energy storage and user-side energy storage.

In actual applications, energy storage technology is analyzed according to the needs of various usage scenarios to ensure that the advantages of energy storage technology are maximized.

This article will focus on analyzing the top ten application scenarios and technology trends of energy storage.

Energy storage application scenarios

1. Zero-carbon Smart Park + Energy Storage System

There are many equipments in traditional industrial parks, which have the characteristics of large power consumption, high load for a long time, and high energy consumption of equipment. In order to achieve carbon reduction goals, renewable energy is widely used in smart parks. However, due to its instability, it will lead to insufficient or excess power supply. In this case, energy storage systems are needed to adjust the supply and demand levels.

In this mode, the energy storage system can collect excess power from solar energy, wind energy, etc., and then supply it to the grid during the main power consumption time. This not only stabilizes the power grid, but the system can provide backup power to the grid in emergencies to ensure the normal operation of the park.

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2. Commercial Complex + ESS

The integrated implementation plan for energy saving, energy storage and charging in commercial complexes is a comprehensive solution. Reduce energy consumption in commercial complexes through the adoption of energy saving technologies and equipment.

Install distributed new energy power stations in commercial complexes to store electrical energy through energy storage equipment for commercial use, thereby reducing reliance on traditional energy sources.

In addition, through energy storage equipment, charging piles can also be set up in commercial parking lots, underground garages and other places to provide charging services for new energy vehicles.

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3. Data Center + ESS

By establishing the aggregation effect of the upper-layer platform of the virtual power plant, the data center load, renewable energy power supply, and energy storage become an organic whole, achieving the goal of autonomous operation in the region. Self-use and self-managed energy autonomous domain truly realizes a carbon-neutral data center.

In this process, the energy storage system improves the economics of power operation of the data center and enhances the power supply reliability of the data center through mechanisms such as peak shaving and valley filling, capacity allocation, etc. lt can effectively prevent accidental outages of the data center while being low-carbon and energy-saving. Electricity causes data loss and improves the security and stability of the power supply system.

4. Solar Storage System + EV Charging Station

The solar storage charging station integrates solar power generation, large-capacity energy storage batteries, smart charging station and other technologies. lt uses the battery energy storage system to absorb low valley power and support fast charging loads during peak periods to provide green power for electric vehicles.

At the same time, it is supplemented by solar power generation systems to realize auxiliary service functions such as power peak shaving and valley filling, effectively reducing the load peak and valley difference of fast charging stations and effectively improving system operation efficiency.

5. 5G Base Station + ESS

5G base station distribution and storage utilizes intelligent peak shifting, charging during idle hours and discharging during busy hours, which effectively solves the pain point of 5G base station construction being unable to proceed smoothly due to power supply problems.

6. Residential Use+ ESS

More and more households are beginning to install residential solar power stations?as a supplement to their energy consumption or as a source of electricity bill income.

The advantage of this is that it allows households to be self-sufficient when needed, and at the same time, excess electricity can be sold to the grid to obtain certain economic benefits. When power quality is poor, power quality can also be improved by storing electrical energy and providing power support.

7. Microgrid + Energy Storage Energy

In the harsh natural environment, conventional solar power generation or wind power generation can not be used in such harsh natural environments.

The off-grid smart island microgrid not only solves the energy consumption problem of island residents, but also provides power supply guarantee for island and ocean development and protection. lt also provides a technical model for the construction of smart island microgrid.

8. Mining Plant + ESS

For example, in areas such as oil exploration and coal mines, there is no reliable, fixed, economical power supply that can continuously supply power. After the energy storage system is configured, when a fault occurs on the grid side or power supply needs to be stopped for normal maintenance, the battery system on the load side converts the DC in the battery system into AC through the energy storage converter to provide power to the user side.

9. Emergency Energy Storage Power Supply

High-power emergency energy storage power?supply is a subdivision of the new energy battery industry. Portable energy storage power supply canbe used in outdoor scenes such as RV travel, night fishing, and outdoor camping. In addition, when the power grid power supply system fails, the emergency energy storage system can provide power guarantee for emergency rescue and can be used in various scenarios such as emergency rescue and hospital backup power supply.

10. Urban Rail Transit + ESS

The urban rail transit energy storage system refers to the process in which the regenerative braking of urban rail transit vehicles generates a large amount of regenerated electric energy, and the introduction of an energy storage system to recover the regenerated electric energy and recycle it is the requirement and development direction for building an energy-saving society in the future.

Many clients are often confused about how to design the right energy storage system solution for them that fits their budget without wasting energy:

1. lf the hashtag energy storage system is only to meet the peak hour load demand, the available capacity of the battery should be higher than the peak electricity demand (kWh) in order to avoid high electricity prices.

2. When used in the case of backup power, the average time of home hashtag power outage , thepower of all appliances (kW) needs to be obtained in order to design a suitable energy storage system.3. In case of daily use, it is necessary to focus on the total daily electricity consumption of thehousehold (kWh) when designing the energy storage system for this purpose, in order to ensure thatthe PV capacity can meet the demand.

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For more information, please contact Namkoo sales team. Namkoo team will give some data provided by the client to design a fullset of energy storage system solutions to meet the client's electricity demand, not only to save energy costs for the client, but also not to cause energy waste.

Guangdong Namkoo Power Co.,Ltd

WhatsApp: +86 188 2630 9307?

Email: [email protected]

Address: No.133 Jingying International Business Center, Foshan,Guangdong, China

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