Zero-carbon smart park + energy storage

Traditional industrial parks have a large number of equipment, characterized by high power consumption, long-time high load, and high energy consumption of equipment. To achieve the goal of carbon reduction, renewable energy is used in a large number of smart parks, but due to its instability, it can lead to insufficient or excessive power supply, which requires an energy storage system to regulate the level of supply and demand.

Under the “Smart Park + Energy Storage” model, the energy storage system collects excess power from solar and wind energy  and then supplies it to the grid at the time of major power consumption. This not only stabilizes the grid but also provides backup power to the grid in case of emergency to ensure the normal operation of the park. China’s industrial parks have high electricity price differentials, which are suitable for the peak and valley arbitrage of energy storage projects.

Commercial complex + energy storage

The integrated implementation program of energy saving, energy storage, and charging for commercial complexes refers to a solution in which the three aspects of energy saving, energy storage, and charging will be comprehensively implemented. By adopting energy-saving technologies and equipment, it will reduce the energy consumption of commercial complexes. Install energy storage equipment and distribute new energy power stations in commercial complexes to store electricity for use by commercial complexes, reducing reliance on traditional energy sources. In addition, energy storage equipment can be used to install charging piles in the parking lots and underground garages of commercial complexes, which can provide charging services for new energy vehicles.

Data Center + Energy Storage

Under the implementation of the “dual-carbon” strategy, low-carbon data centers will be the future development trend, and “renewable energy + reserve unity + virtual power plant” is one of the ways that data centers may achieve carbon neutrality. Through digitalization and intelligent technology, distributed energy, energy storage ,and load are deeply integrated, and through the establishment of the virtual power plant, the upper platform of the polymerization, the data center load, renewable energy power supply , and energy storage become an organic whole, to achieve self-generated and self-managed energy autonomy within the region, and to truly realize a carbon-neutral data center.

In this process, the energy storage system improves the economy of data center power operation and enhances the reliability of data center power supply through the mechanism of peak shaving and valley filling, capacity deployment, etc. While low-carbon and energy-saving, it can effectively prevent data loss caused by occasional power outages of the data center and improve the security and stability of the power supply system.

Optical storage and charging integration

With the rapid development of the new energy vehicle industry, the demand for charging is also growing simultaneously, and there is still a great vacancy in the charging pile market in China. As a new attempt at green economy, “the optical storage charging station” has a broad development prospect.

Optical storage charging station integrates photovoltaic power generation, large-capacity energy storage batterys, intelligent charging piles , and other technologies, using battery energy storage system to absorb the low valley electricity and support the fast-charging load in the peak period, supplying green electricity for electric vehicles, and at the same time, supplemented by photovoltaic power generation system, realizing the auxiliary service function of power peak shaving and valley filling, effectively reducing the peak and valley difference of the load of the fast-charging station, and improving the system operation efficiency.

5G Base Station + Energy Storage

To meet the growing number of 5G base stations and power demand, and in order to reduce the waste of resources, the electrochemical energy storage system has become a suitable choice for 5G base station backup power supply due to its flexible, intelligent, and highly efficient technical characteristics.

The 5G base station distribution storage utilizes intelligent staggering, charging at idle time and discharging at busy times, which well solves the pain point of 5G base station construction not being able to advance smoothly due to power supply problems, and helps to vigorously promote the landing of 5G base station and the development of 6G technology.

Household + Energy Storage

More and more households are installing photovoltaic power stations as a supplement to energy consumption or a source of income from electricity bills, and the configuration of energy storage power stations has become an important measure to ensure the safety and stability of household electricity consumption.

Household energy storage usually includes equipment such as batteries, supercapacitors , and hot water storage tanks, which can effectively store home-generated solar energy, wind energy , and other clean energy. The advantage of this is that it allows households to be self-sufficient when they need to be, and at the same time, they can also sell excess power to the grid, thus obtaining a certain amount of economic returns.

Household energy storage can help households become self-sufficient and less dependent on the grid, thereby reducing the cost of electricity for the household. In addition to self-sufficiency, household energy storage can also sell excess electricity to the grid, thereby gaining some financial benefit. It can also improve power quality when it is poor by storing power and providing power support.

Microgrid + Energy Storage

In recent years, China has been vigorously developing the construction of islands, which are home to a small number of residents, island guarding militia, mobile signal transmitting base stations, maritime radar stations , and other power equipment, in the harsh natural environment, conventional photovoltaic power generation or wind power generation can not provide stable and reliable power for the islands in this scenario.

Installation of off-grid smart island microgrids on such islands utilizes energy management systems to precisely coordinate the control of power generation, energy storage, and power consumption conditions, flexibly deploy the connection mode of each user, and realize the coordinated control and economic operation of “source-network-load-storage”. The off-grid smart island microgrid not only solves the energy consumption problems of the island residents, but also provides a power supply guarantee for the development and protection of islands and oceans, and also provides a technical model for the construction of smart island microgrid.