市场调查报告书
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1193072
钠离子电池市场:按应用(住宅、商业、工业)、最终用途(固定储能、运输)分类:2021-2031 年全球机遇分析和行业预测Sodium Ion Battery Market By Application (Residential, Commercial, Industrial), By End Use (Stationary Energy Storage, Transportation): Global Opportunity Analysis and Industry Forecast, 2021-2031 |
全球钠离子电池市场预计将在 2021 年达到 3 亿美元,2031 年达到 12 亿美元,2022 年至 2031 年的复合年增长率为 15.9%。
由于钠含量高且成本低,钠离子电池 (SIB) 目前正在发展成为锂离子电池 (LIB) 的替代品。 由于钠比锂重三倍,标准电化学势较低,嵌入式SIB很难在能量密度、比容量和倍率性能方面超越LIB。 钠离子电池(SIB)作为可以替代锂离子电池的储能电池受到关注,因为它们可以使用自然界中廉价且丰富的钠资源。 此外,鑑于自然界中丰富的钠元素和锂化学的替代品,钠离子电池有可能在商业市场上与锂离子电池竞争。 钠的丰富程度可以从美国有230亿钠的前体纯碱来推算。 这些优势的存在带动了钠离子电池市场的需求。
由于人们认识到在日常生活中使用电动汽车的好处,电动汽车越来越受欢迎。 电动汽车销量的增加增加了对各种电池的需求。 研究人员正在製造用于电动汽车的基于纳米材料的钠离子电池和电容器。 钠在自然界中含量丰富,可用于製造廉价的电池,因此有望成为锂离子电池的补充技术。 由于电池技术成本较低,电动自行车与电池相结合可以显着降低成本。 电动汽车的价格将低于 200 美元,可能比锂离子电池便宜 25%。
由于全球可再生能源使用的迅速扩大以及公共和私营电力部门在太阳能和风电场建设方面的投资增加,储能服务正在获得丰厚的利润。 此外,储能服务需求的稳步增长也增加了对低成本、高可靠性电池的需求。 随着对电池的需求不断增加,钠离子电池市场需求旺盛。 随着化石燃料枯竭和全球油价飙升,消费者也在慢慢从传统汽车转向电动汽车。 在钠离子电池市场,由于对电动汽车的需求增加以及旨在电动汽车商业化的政府举措和法规,需求正在扩大。 在预测期内,上述方面有望为钠离子电池市场的发展提供良好的前景。
钠离子电池的积极使用没有可靠的产业供应链支持,这限制了这些电池的市场扩张。 它们比锂离子电池重。 钠金属的重量大于锂金属。 因此,钠电池在电动汽车中的使用受到限制。 此外,钠离子电池的使用受到高阻抗、低容量、短循环寿命和慢充电/放电速率等主要问题的阻碍。 这些原因制约了钠离子电池市场的增长。
此外,2021 年亚太地区将占全球市场收入的很大一部分。 由于中国、印度和日本等主要新兴经济体的存在,亚太地区是全球钠离子电池市场的最大消费国,2020年在钠离子电池市场中的市场份额最高。。 印度可能成为世界钠离子电池製造中心,作为更昂贵的锂离子电池的替代或补充技术。 中国的宁德时代 (CATL) 去年推出了第一代钠电池,併计划明年将其商业化。 世界各地的公司都在竞相使这项技术实用化,并製造为电动汽车提供动力的电池。 另一方面,据估计,LAMEA 市场在预测期内的增长率最快。
The global sodium ion battery market was valued at $0.3 billion in 2021, and is projected to reach $1.2 billion by 2031, growing at a CAGR of 15.9% from 2022 to 2031.
Sodium ion batteries (SIBs) are currently evolving as a viable substitute for lithium-ion batteries (LIBs) because of the abundant availability and reasonable cost of sodium. As Na is thrice heavier and possesses a lower standard electrochemical potential than Li, it makes it the built-in SIBs difficult to outclass the LIBs in terms of energy density, specific capacity, or rate capability. Sodium ion batteries (SIBs) have attracted much interest as an alternative to lithium-ion batteries for energy storage due to their low cost and natural abundance of sodium resources. Furthermore, as nature possesses a large amount of sodium and it can provide a replacement for lithium chemistry, sodium ion batteries could be a competitor to lithium-ion batteries in commercial markets. The abundance of sodium can be estimated by the fact that 23 billion of soda ash that is regarded as sodium precursor is only located in the United States. The presence of these advantages has driven the demand for the sodium ion battery market.
The popularity of electric cars has grown as a result of people being more aware of the benefits of using them in daily life. The demand for diverse batteries has increased as a result of the rise in electric car sales. Researchers create nanomaterial-based sodium ion batteries and capacitors for use in electric cars. Because sodium is abundant in nature and results in inexpensive batteries, it has been thought of as a potential complementary technology to lithium-ion batteries. Electric cycles coupled with batteries would be substantially less expensive thanks to the low cost of battery technology. Electric cars might be made to cost under $200, making them around 25% more inexpensive than lithium-ion storage solutions.
Energy storage services are being developed favorably as a result of the fast expansion in the use of renewable energy throughout the world and the increased investment by the public and private power sectors in the construction of solar and wind power plants. The demand for low-cost, reliable batteries has increased as a result of the steadily rising demand for energy storage services. The market for sodium ion batteries is more in demand now that there is a need for batteries. Additionally, as fossil fuel supplies are depleting and the price of crude oil is rising globally, consumers are gradually switching from conventional to electric automobiles. The market for sodium ion batteries has seen growing demand as a result of rising demand for electric cars as well as government initiatives and regulations to commercialize electric vehicles. During the projected period, the aforementioned aspect is anticipated to offer lucrative prospects for the advancement of the sodium ion battery market.
The active usage of sodium ion batteries is not supported by a reliable industrial supply chain, which limits the market's expansion for these batteries. Compared to Lithium-Ion Batteries, they are heavier. The weight of sodium metal is greater than that of lithium metal. As a result, the usage of sodium batteries in electric cars is constrained. Furthermore, the sodium ion battery's use is hampered by key issues such high impedance, poor capacity, short cycle life, and sluggish charge/discharge rate. This reason is constraining the Sodium Ion Battery Market's growth.
Asia-Pacific also accounted for a significant share of the global market revenue in 2021. Asia-Pacific is the largest consumer in the global sodium ion battery market, owing to the presence of key developing economies such as China, India, and Japan, which registered the highest market share in the sodium ion battery market in the year 2020. India could well emerge as a global hub for manufacturing sodium ion batteries, which is seen as an alternative or complementary technology to the more expensive lithium-ion-powered batteries. Some prominent players have entered the business, too, such as Contemporary Amperex Technology (CATL) from China, which showcased its first generation of sodium batteries last year and plans a commercial launch next year. Companies around the world are working furiously to commercialize the technology and manufacture batteries to power electric vehicles. On the other hand, the market in LAMEA is estimated to register the fastest growth rate over the forecast period.
The sodium ion battery market is segmented on the basis of application, end-use, and region. On the basis of application, the market is fragmented into residential, commercial, and industrial. On the basis of end-use, the market is bifurcated into stationary energy storage and transportation. Region-wise, the market is analyzed across North America, Europe, Asia-Pacific, and LAMEA. Presently, Europe accounts for the largest share of the market, followed by North America, Asia-Pacific, and LAMEA.
The major companies profiled in this report CATL, Faradion, Natron Energy, HiNa Battery, Ronbay Technology, Zoolnash, Natrium, Kishida Chemical, Panasonic, and Mitsubishi Chemical. An increase in the demand for eco-friendly power generation has led to an increase in investment in solar and wind power plants which led to an increase in the demand for low-cost and stable batteries. Additional growth strategies such as an expansion of storage capacities, acquisition, partnership, and research & innovation in the optimization and improvement in the efficiency and reliability of sodium ion batteries have led to attaining key developments in the global sodium ion battery market trends.
Impact of Covid-19 on Global Sodium Ion Battery Market
During the pandemic, there was a high demand for stationary energy storage devices as most people were working from home, which led to the demand for the UPS system that created a huge demand for the sodium-ion battery market. The shutdown of industrial facilities across the globe has led to delays in the construction of solar and wind power plant facilities, which have led to a decline in the demand for stationary energy storage devices manufactured using sodium-ion batteries during the COVID-19 outbreak.
The demand for fossil-based energy resources has decreased significantly, while the demand for renewable energy resources has grown significantly. Although renewable energy sources have significant advantages in areas such as carbon emission, they need energy storage systems with large capacities due to the significant relationship between air exchange and their efficiency. The changes in renewable energy demand significantly affect energy storage technologies. The presence of the above-mentioned demand for energy storage devices in renewable power plants is anticipated to provide lucrative opportunities for the development of the market.
Key Benefits For Stakeholders
By Application
By End Use
By Region