News: The World’s First 1 MWh Na-Ion Battery for Solar Energy Storage and Smart Microgrid System are Operating

BatteryBits
Jun 28 · 3 min read

This story is contributed by Hong Li

  • A 1 MWh Na-ion battery for solar energy storage and intelligent micro-grid system was successfully put into operation at Taiyuan, China.
  • Na-ion batteries (NIB) are showing great promise for applications in low-speed electric vehicles, residential/industrial energy storage, 5G base station, data center, grid storage of renewable energy, and smart grids, etc.
  • With the advantages of low cost, long cycling, wide temperature operation (-30~80 degC) and high safety, the energy density of NIB cell could achieve above 105 Wh/kg for cylindrical cells and 140Wh/kg for pouch cells. It can deliver 6000 cycles at 100%DOD at room temperature.

On June 28th, 2021, the first 1 MWh Na-ion battery (NIB)-based solar energy storage and intelligent micro-grid system in the world was successfully put into operation at Taiyuan, China. This achievement was jointly completed by a team from the Institute of Physics, Chinese Academy of Sciences (IOP-CAS) and HiNa Battery Technology Co., Ltd. The micro-grid system uses NIB as the principle component for energy storage and combines grid electricity, solar cell and charging facilities, which is able to connect the public grid in accordance with requirements. The launch of this NIB-based energy storage system not only marks that China is at the forefront of the world in NIB technologies and its industrialization, but also signifies that the NIB is entering a new stage of commercial applications.

Figure 1. MWh NIB-based energy storage system put into operation(2021.6.28)

Since 2011, the IOP-CAS team has been dedicated to the development of low-cost, safe, environmental friendly and high-performance NIB technologies. The research team has already applied for over 50 patents in the key techniques of cell, cathodes, anodes, electrolytes, additives and binders, etc. (more than 30 patents have been issued, 3 of which are issued in the United States, European Union and Japan). Meanwhile, 10 research articles have been published on Science, Nature/Science series journals, and Joule. Regarding the industrialization, HiNa Battery Technologies Co., Ltd. was founded in 2017, which is a high-tech enterprise dedicating to the investigation and production of NIBs. HiNa has built the hundred-ton-level pilot line and MWh-level cell production line in Liyang, Jiangsu Province in China. Now, the production base of 2000 tons of cathode and anode materials for NIBs per year is constructing in Taiyuan, China. These materials do not contain any expensive and rare metal. Typically, the cathode is Na-Cu-Fe-Mn-O2, and the anode is coke from anthracite. It has also produced around 150,000 pouch, prismatic and cylinder cells, whose comprehensive performance is comparable to Li-ion batteries, and much better than Lead-acid batteries. The energy density of the cell is above 105 Wh/kg for cylindrical cell and 140Wh/kg for pouch cell. It can deliver 6000 cycles at 100%DOD at room temperature. Such performance is acceptable for most applications and has laid a solid foundation and shown promising value for the commercialization of NIBs.

Figure 2. Illustration of a Na-ion battery system (ref.)

Currently, the proposal of the “peak carbon dioxide emission” and “carbon neutrality” goals in China and the development of the renewable energy industry provide huge space for the growth of NIBs. Facing the enormous market of future energy storage, NIB shows great potentials for the application scenarios of low-speed electric vehicles, family/industry energy storage, 5G base station, data center, grid access of renewable energy and smart grid, etc. owing to its various advantages such as low cost, long cycling, wide temperature operation (-30–80 C) and high safety, which is able to relieve the “strangled” risks due to the shortage and non-uniform distribution of Li sources in the world. On the other hand, the lead-acid batteries with serious pollution could be gradually displaced by NIBs to facilitate the development of energy storage in our country.

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