Advantages of distributed power source lithium-ion battery energy storage systems. Due to their high energy density, long cycle life, and high charging rate, lithium-ion batteries dominate the energy storage market, and 90% of the future distributed power source energy storage market will utilize lithium-ion batteries.
With the implementation of my country's new electricity reform, the development of industries such as new energy power generation, smart microgrids, and new energy vehicles will continue to accelerate, and the application of energy storage technology will form a new development trend.
Advantages of Distributed Power Lithium-ion Battery Energy Storage Systems
The energy internet is a more advanced form of energy development and utilization based on "Internet + smart energy". Distributed energy storage will play a decisive role in its development and is the hub of energy conversion and utilization; distributed power source lithium-ion battery energy storage has become an emerging frontier for the explosive growth of my country's energy storage market.
Lithium-ion batteries currently hold an undisputed dominant position in the energy storage market due to their high reliability, high conversion efficiency, high energy density, high safety, and low self-discharge. In particular, lithium-ion batteries will account for 90% of the future market for distributed energy storage.
Distributed power systems are products designed for next-generation smart data centers. They are suitable for power supply applications in distributed server rooms, load-bearing-constrained server rooms, phased deployment server rooms, rapid deployment server rooms, and integrated server racks.
Distributed power systems use less space, fewer power components, better reliability, and better power quality. They can fit into a standard 19-inch rack and occupy only 4U/6U of space. Power and battery capacity can be flexibly configured, making them suitable for high-density rack deployments.
Three Innovative Applications of Lithium-ion Battery Energy Storage in Distributed Energy Storage
① Innovative applications of energy and power types: It can realize the dual application of lithium-ion batteries in terms of power and energy, or use two types of lithium-ion battery designs in combination, without the need for traditional expensive and self-discharged supercapacitors and bulky and environmentally unfriendly lead-acid batteries.
② Cost-effective and efficient energy storage personalized design: For different application modes, energy density, rate, SOC and cycle life are considered to achieve the most optimized application of distributed energy storage.
③ Multifunctional energy storage prototype: combining peak-valley arbitrage, emergency power supply, and stable support. What are the conditions for the critical profit point? We have designed multiple models.
Distributed Power Supply (DPS), combined with safe and reliable high-energy-density lithium-ion batteries, can provide longer-lasting power outage protection for loads in a minimal size and light weight. Its rack-mount + socket installation within a standard 19-inch rack also makes the product easier to install, significantly reducing safety hazards to equipment and personnel caused by construction work.
With advancements in energy storage technology and cost reductions, as well as the evolution of demand, the widespread application of distributed lithium-ion battery energy storage in power systems is an inevitable trend in future power grid development and an important way to break through traditional distribution network planning and operation methods.
With the significant improvement in the performance of lithium-ion batteries and the substantial reduction in their cost, coupled with innovative operating models for suitable lithium-ion energy storage systems, the economic efficiency of energy storage systems will be greatly enhanced, and lithium-ion energy storage is gradually meeting the conditions for market-oriented promotion.
