세계의 나트륨 이온 배터리 시장 평가 : 유형별(산화 나트륨 배터리, 나트륨 황 배터리, 나트륨소금 배터리), 용도별(고정형 에너지 저장, 운송), 지역별 - 기회 및 예측(2018-2032년)
Sodium-Ion Battery Market Assessment, By Type [Sodium-Oxide Battery, Sodium-Sulfur Battery, Sodium-Salt Battery], By Application [Stationary Energy Storage, Transportation], By Region, Opportunities, and Forecast, 2018-2032F
상품코드:1661587
리서치사:Markets & Data
발행일:2025년 02월
페이지 정보:영문 223 Pages
라이선스 & 가격 (부가세 별도)
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한글목차
세계 나트륨 이온 배터리 시장 규모는 2024년 4억 4,606만 달러로 평가되었고, 2025-2032년간 17.12%의 연평균 복합 성장률(CAGR)로 성장하여 2032년에는 15억 7,923만 달러에 달할 것으로 예상됩니다. 나트륨 이온 배터리는 충전식 배터리로, 배터리 충전 및 방전 시 전극 간 나트륨 이온의 이동이 필요한 충전식 배터리이며, 이 배터리의 양극은 나트륨을 사용하여 제조됩니다. 이 배터리는 에너지 저장의 효과적인 형태이며, 특히 대규모 전기 저장 용도에 적합합니다.
일정한 전력 공급에 대한 수요 증가, 가전제품 수요 증가, 재생 가능 에너지 생산 증가, 나트륨 이온 배터리의 연구개발 노력 등 많은 촉진요인으로 인해 향후 몇 년동안 시장이 크게 성장할 것으로 예상됩니다. 기후 변화에 대한 인식이 높아지고 이산화탄소 배출량 감축의 필요성이 증가함에 따라 여러 국가의 정부는 전기자동차의 사용을 장려하고 필요한 충전 인프라를 구축하고 있습니다. 또한, 나트륨은 쉽게 구할 수 있고 환경 친화적이기 때문에 수요가 증가하고 있습니다. 또한, 재생 가능 에너지에 대한 관심이 높아지는 것도 나트륨 이온 배터리 수요 증가로 이어지고 있습니다.
목차
제1장 조사 방법
제2장 제품 개요
제3장 주요 요약
제4장 고객의 소리
브랜드 인지도와 로열티
제품/시장 지식
구입 결정시에 고려되는 요소
품질
가격
목적
량
리뷰와 추천 사항
제품에의 액세스 용이도
애프터서비스
인구통계
계획적 구매자와 의도적 구매자
구입 빈도
구입 채널
제5장 세계의 나트륨 이온 배터리 시장 전망, 2018년-2032년
시장 규모와 예측
금액별
수량별
시장 점유율과 예측
유형별
Sodium-Oxide Battery
Sodium-Sulfur Battery
Sodium-Salt Battery
용도별
고정형 에너지 저장
운송
지역별
북미
유럽
라틴아메리카
아시아태평양
중동 및 아프리카
제6장 북미의 나트륨 이온 배터리 시장 전망, 2018년-2032년
시장 규모와 예측
금액별
수량별
시장 점유율과 예측
유형별
Sodium-Oxide Battery
Sodium-Sulfur Battery
Sodium-Salt Battery
용도별
고정형 에너지 저장
운송
지역별
미국
캐나다
멕시코
기타 북미
제7장 유럽의 나트륨 이온 배터리 시장 전망, 2018년-2032년
시장 규모와 예측
금액별
수량별
시장 점유율과 예측
유형별
Sodium-Oxide Battery
Sodium-Sulfur Battery
Sodium-Salt Battery
용도별
고정형 에너지 저장
운송
지역별
영국
프랑스
독일
러시아
기타 유럽
제8장 라틴아메리카의 나트륨 이온 배터리 시장 전망, 2018년-2032년
시장 규모와 예측
금액별
수량별
시장 점유율과 예측
유형별
Sodium-Oxide Battery
Sodium-Sulfur Battery
Sodium-Salt Battery
용도별
고정형 에너지 저장
운송
지역별
브라질
아르헨티나
기타 라틴아메리카
제9장 아시아태평양의 나트륨 이온 배터리 시장 전망, 2018년-2032년
시장 규모와 예측
금액별
수량별
시장 점유율과 예측
유형별
Sodium-Oxide Battery
Sodium-Sulfur Battery
Sodium-Salt Battery
용도별
고정형 에너지 저장
운송
지역별
중국
인도
일본
한국
기타 아시아태평양
제10장 중동 및 아프리카의 나트륨 이온 배터리 시장 전망, 2018년-2032년
시장 규모와 예측
금액별
수량별
시장 점유율과 예측
유형별
Sodium-Oxide Battery
Sodium-Sulfur Battery
Sodium-Salt Battery
용도별
고정형 에너지 저장
운송
지역별
사우디아라비아
남아프리카공화국
기타 중동 및 아프리카
제11장 2024년 세계 나트륨 이온 배터리 시장 매핑
유형별
용도별
지역별
제12장 매크로 비즈니스 환경 분석
PESTEL 분석
정치적 요인
경제적 요인
사회적 요인
환경요인
기술 진보
법적 요인과 규제 정책
Porter의 Five Forces 분석
대체품의 위협
신규 진출의 위협
공급 기업의 교섭력
공급 기업의 교섭력
경쟁 기업간 경쟁도
가격 포인트 분석
밸류체인 분석
수급 분석
수입 수출 분석
제13장 시장 역학
성장 원동력
성장 억제 원인
제14장 주요 동향과 발전
제15장 세계의 나트륨 이온 배터리 시장 리더의 베스트 프랙티스 사례 연구(최대 3개)
제16장 경쟁 구도
SWOT 분석(시장 주요 5개사)
핵심 역량과 주요 가치 제안
개선해야 할 점
미개척 비즈니스 영역
경쟁이 제안하는 시장 가치
시장 리더 주요 5개사의 경쟁 매트릭스
주요 5개 시장 리더 기업의 점유율 분석(%, 2024년)
신규 기업과 대체 기업(해당하는 경우)
인수합병(M&A)/합작투자(해당하는 경우)
제17장 경쟁 전망
Reliance New Energy Solar Limited(Faradion Limited)
기업 개요
주요 경영진
제품 및 서비스
재무 상황(보고된 대로)
주요 시장 초점 및 지리적 입지
최근 동향
Tiamat Energy
HiNa Battery Technology Co., Ltd.
Aquion Energy Inc.
Natron Energy, Inc.
Nanopowder Enterprises Incorporated
Aquion Energy Inc.
AMTE Power PLC
Zhejiang Lvming Energy(Durathon)
AGM Batteries Ltd.
위에 언급된 회사는 시장 점유율에 따른 순위를 보유하지 않으며 조사 작업 중 이용 가능한 정보에 따라 변경될 수 있습니다.
제18장 전략적 제안
제19장 리서치사에 대해 & 면책사항
LSH
영문 목차
영문목차
The global sodium-ion battery market size was valued at USD 446.06 million in 2024. The market will grow to USD 1579.23 million in 2032 with a CAGR of 17.12% during the period between 2025 and 2032. Sodium-ion batteries are rechargeable batteries which requires sodium-ion movement between electrodes during the charging and discharging of the battery and the cathode for these batteries is manufactured using sodium. These batteries are an effective form of energy storage, particularly for large-scale electric storage applications.
The market is expected to grow significantly over the coming years because of a number of driving factors such as an increased requirement for constant power supply, rise in demand for consumer electronics, increased production of renewable energy and sodium-ion battery research & development efforts. Due to increasing awareness about climate change and rising need for reduction of carbon emissions; governments of several countries are promoting the usage of electric vehicles and creating the necessary charging infrastructure. Additionally, the demand is rising because sodium is readily available and more ecologically friendly to source. Also, increased focus on renewable energy sources has led to an increased demand for sodium-ion batteries.,
Sustainability and Environmental Concerns Driving Global Sodium-ion Battery Market
Sustainability and environmental concerns are among the most important driving forces for the global sodium-ion battery market. Sodium-ion batteries are considered an ecofriendly variant of lithium-ion batteries as sodium is a more abundant resource and creates less environmental impact. These batteries thus reduce dependency upon scarce materials such as lithium and cobalt, encourage responsible sourcing, and lower adverse impacts on the environment1. As global awareness of climate change grows, the demand for sustainable energy storage solutions is increasing, making sodium-ion batteries a preferred choice for consumers and businesses aiming to adopt cleaner technologies.
For instance, In January 2024, BYD began constructing its first sodium-ion battery plant in Xuzhou, with a planned annual output of 30 GWh and an investment of 10 billion yuan (USD 1.4 billion). This gigafactory, developed in collaboration with Huaihai Group, aims to produce sodium-ion batteries for micro vehicles and scooters. This initiative highlights BYD's commitment to sustainability and environmental concerns by offering eco-friendly energy storage solutions. The project underscores the shift towards sustainable technologies in response to growing environmental awareness and the need for responsible resource use in the battery industry.
Advantages Over Lithium-Ion Battery
Sodium-ion batteries are fast emerging as a commercially viable alternative to lithium-ion batteries as sodium is available in abundance and much cheaper compared to Lithium. In comparison to lithium-ion batteries, sodium-ion batteries have the potential to offer higher capacity than normal lithium-ion cells. Sodium holds similar chemistry and intercalation kinetics to lithium. Furthermore, the irreversible carbon anode capacity of sodium-ion batteries is lower than that of lithium-ion batteries. Despite being heavier and bulkier than lithium-ion batteries, sodium-ion batteries can be used in stationary energy storage systems where volume and weight are less crucial.
Europe Dominates the Sodium-Ion Battery Market
With the growing interest in electric vehicles by the European population, the Sodium-Ion battery market has been experiencing rapid growth. In terms of regional share in Sodium-Ion battery market, Europe holds the highest market share followed by Asia Pacific and then North America. However, the Latin American and Middle East & Africa region are way behind in terms of regional share. With the aim of zero carbon emission, the European Union (EU) has banned the sale of diesel and petrol vehicles from 2035. Therefore, increasing demand for battery operated electric vehicles will be witnessed in the next 10-12 years.
Increasing Usage of Sodium-Ion Batteries in Electric Vehicles
Lithium-ion batteries have continued to be the favoured option for manufacturers when it comes to powering electric vehicles due to their various attributes such as relatively lower weight and volume, low maintenance requirements, low self-discharge rate and higher energy density. However, the volatile nature, temperature sensitivity, and eco-unfriendliness of lithium-ion batteries, among other drawbacks, can eventually limit the widespread use of these batteries. On the other hand, the benefits of sodium-ion batteries such as stability in temperature changes and longevity makes them suitable for the light-duty EVs.
Impact of COVID-19
The COVID-19 outbreak caused supply chain disruptions, production halts and manufacturing activity interruptions, all of which had a detrimental effect on the sodium-ion batteries market in 2020. In addition, several end-use industries, such as the automotive, industrial, and others, closed their operations, which decreased the need for batteries in 2020. During the pandemic, the revenues of major sodium-ion battery manufacturers declined. In addition, the global renewable energy sector was significantly impacted, which led to a decline in the growth of renewable technologies.
Due to a drop-in economic activity, the pandemic posed adverse impact on the solar energy industry too. The market for sodium-ion batteries, which is used in the solar energy industry as stationary storage systems, was also impacted by this decline. Post-COVID-19 ease in lockdown restrictions and removal of social distancing norms contributed to the smart recovery of the market.
Impact of Russia-Ukraine War
The global sodium-ion battery market has been severely impacted by the Russia-Ukraine war. In direct relation to the EV and automotive industries, Russia and Ukraine manufacture semiconductor and battery materials on a large scale. The war between the two nations had a direct influence on slowdown as well as in some cases stoppage of production facility and supply chain disruption due to damaged Russia's shipments impacting the global sodium-ion battery market particularly Europe.
Key Players Landscape and Outlook
In order to stay ahead of the competition, key players are making significant investments in R&D projects to introduce technologically advanced products and increase production capabilities. The industry is growing through both organic and inorganic business strategies including alliances, mergers & acquisitions, joint ventures, etc. The global sodium-ion battery market is led by companies such as Reliance New Energy Solar Limited (Faradion Limited), Tiamat Energy and HiNa Battery Technology Co., Ltd.
Table of Contents
1. Research Methodology
2. Product Overview
3. Executive Summary
4. Voice of Customer
4.1. Brand Awareness and Loyalty
4.2. Product/Market Knowledge
4.3. Factors Considered in Purchase Decision
4.3.1. Quality
4.3.2. Price
4.3.3. Purpose
4.3.4. Quantity
4.3.5. Reviews and Recommendations
4.3.6. Ease of Access to the Product
4.3.7. After-Sales
4.4. Demographics
4.5. Planned v/s Intended Purchaser
4.6. Frequency of Purchase
4.7. Channel of Purchase
5. Global Sodium-Ion Market Outlook, 2018-2032F
5.1. Market Size & Forecast
5.1.1. By Value
5.1.2. By Volume
5.2. Market Share & Forecast
5.2.1. By Type
5.2.1.1. Sodium-Oxide Battery
5.2.1.2. Sodium-Sulfur Battery
5.2.1.3. Sodium-Salt Battery
5.2.2. By Application
5.2.2.1. Stationary Energy Storage
5.2.2.2. Transportation
5.2.3. By Region
5.2.3.1. North America
5.2.3.2. Europe
5.2.3.3. Latin America
5.2.3.4. Asia-Pacific
5.2.3.5. Middle East and Africa
6. North America Sodium-Ion Market Outlook, 2018-2032F
6.1. Market Size & Forecast
6.1.1. By Value
6.1.2. By Volume
6.2. Market Share & Forecast
6.2.1. By Type
6.2.1.1. Sodium-Oxide Battery
6.2.1.2. Sodium-Sulfur Battery
6.2.1.3. Sodium-Salt Battery
6.2.2. By Application
6.2.2.1. Stationary Energy Storage
6.2.2.2. Transportation
6.2.3. By Region
6.2.3.1. United States
6.2.3.1.1. By Type
6.2.3.1.1.1. Sodium-Oxide Battery
6.2.3.1.1.2. Sodium-Sulfur Battery
6.2.3.1.1.3. Sodium-Salt Battery
6.2.3.1.2. By Application
6.2.3.1.2.1. Stationary Energy Storage
6.2.3.1.2.2. Transportation
6.2.3.2. Canada
6.2.3.2.1. By Type
6.2.3.2.1.1. Sodium-Oxide Battery
6.2.3.2.1.2. Sodium-Sulfur Battery
6.2.3.2.1.3. Sodium-Salt Battery
6.2.3.2.2. By Application
6.2.3.2.2.1. Stationary Energy Storage
6.2.3.2.2.2. Transportation
6.2.3.3. Mexico
6.2.3.3.1. By Type
6.2.3.3.1.1. Sodium-Oxide Battery
6.2.3.3.1.2. Sodium-Sulfur Battery
6.2.3.3.1.3. Sodium-Salt Battery
6.2.3.3.2. By Application
6.2.3.3.2.1. Stationary Energy Storage
6.2.3.3.2.2. Transportation
6.2.3.4. Rest of North America
7. Europe Sodium-Ion Market Outlook, 2018-2032F
7.1. Market Size & Forecast
7.1.1. By Value
7.1.2. By Volume
7.2. Market Share & Forecast
7.2.1. By Type
7.2.1.1. Sodium-Oxide Battery
7.2.1.2. Sodium-Sulfur Battery
7.2.1.3. Sodium-Salt Battery
7.2.2. By Application
7.2.2.1. Stationary Energy Storage
7.2.2.2. Transportation
7.2.3. By Region
7.2.3.1. United Kingdom
7.2.3.1.1. By Type
7.2.3.1.1.1. Sodium-Oxide Battery
7.2.3.1.1.2. Sodium-Sulfur Battery
7.2.3.1.1.3. Sodium-Salt Battery
7.2.3.1.2. By Application
7.2.3.1.2.1. Stationary Energy Storage
7.2.3.1.2.2. Transportation
7.2.3.2. France
7.2.3.2.1. By Type
7.2.3.2.1.1. Sodium-Oxide Battery
7.2.3.2.1.2. Sodium-Sulfur Battery
7.2.3.2.1.3. Sodium-Salt Battery
7.2.3.2.2. By Application
7.2.3.2.2.1. Stationary Energy Storage
7.2.3.2.2.2. Transportation
7.2.3.3. Germany
7.2.3.3.1. By Type
7.2.3.3.1.1. Sodium-Oxide Battery
7.2.3.3.1.2. Sodium-Sulfur Battery
7.2.3.3.1.3. Sodium-Salt Battery
7.2.3.3.2. By Application
7.2.3.3.2.1. Stationary Energy Storage
7.2.3.3.2.2. Transportation
7.2.3.4. Russia
7.2.3.4.1. By Type
7.2.3.4.1.1. Sodium-Oxide Battery
7.2.3.4.1.2. Sodium-Sulfur Battery
7.2.3.4.1.3. Sodium-Salt Battery
7.2.3.4.2. By Application
7.2.3.4.2.1. Stationary Energy Storage
7.2.3.4.2.2. Transportation
7.2.3.5. Rest of Europe
8. Latin America Sodium-Ion Market Outlook, 2018-2032F
8.1. Market Size & Forecast
8.1.1. By Value
8.1.2. By Volume
8.2. Market Share & Forecast
8.2.1. By Type
8.2.1.1. Sodium-Oxide Battery
8.2.1.2. Sodium-Sulfur Battery
8.2.1.3. Sodium-Salt Battery
8.2.2. By Application
8.2.2.1. Stationary Energy Storage
8.2.2.2. Transportation
8.2.3. By Region
8.2.3.1. Brazil
8.2.3.1.1. By Type
8.2.3.1.1.1. Sodium-Oxide Battery
8.2.3.1.1.2. Sodium-Sulfur Battery
8.2.3.1.1.3. Sodium-Salt Battery
8.2.3.1.2. By Application
8.2.3.1.2.1. Stationary Energy Storage
8.2.3.1.2.2. Transportation
8.2.3.2. Argentina
8.2.3.2.1. By Type
8.2.3.2.1.1. Sodium-Oxide Battery
8.2.3.2.1.2. Sodium-Sulfur Battery
8.2.3.2.1.3. Sodium-Salt Battery
8.2.3.2.2. By Application
8.2.3.2.2.1. Stationary Energy Storage
8.2.3.2.2.2. Transportation
8.2.3.3. Rest of Latin America
9. Asia Pacific Sodium-Ion Market Outlook, 2018-2032F
9.1. Market Size & Forecast
9.1.1. By Value
9.1.2. By Volume
9.2. Market Share & Forecast
9.2.1. By Type
9.2.1.1. Sodium-Oxide Battery
9.2.1.2. Sodium-Sulfur Battery
9.2.1.3. Sodium-Salt Battery
9.2.2. By Application
9.2.2.1. Stationary Energy Storage
9.2.2.2. Transportation
9.2.3. By Region
9.2.3.1. China
9.2.3.1.1. By Type
9.2.3.1.1.1. Sodium-Oxide Battery
9.2.3.1.1.2. Sodium-Sulfur Battery
9.2.3.1.1.3. Sodium-Salt Battery
9.2.3.1.2. By Application
9.2.3.1.2.1. Stationary Energy Storage
9.2.3.1.2.2. Transportation
9.2.3.2. India
9.2.3.2.1. By Type
9.2.3.2.1.1. Sodium-Oxide Battery
9.2.3.2.1.2. Sodium-Sulfur Battery
9.2.3.2.1.3. Sodium-Salt Battery
9.2.3.2.2. By Application
9.2.3.2.2.1. Stationary Energy Storage
9.2.3.2.2.2. Transportation
9.2.3.3. Japan
9.2.3.3.1. By Type
9.2.3.3.1.1. Sodium-Oxide Battery
9.2.3.3.1.2. Sodium-Sulfur Battery
9.2.3.3.1.3. Sodium-Salt Battery
9.2.3.3.2. By Application
9.2.3.3.2.1. Stationary Energy Storage
9.2.3.3.2.2. Transportation
9.2.3.4. South Korea
9.2.3.4.1. By Type
9.2.3.4.1.1. Sodium-Oxide Battery
9.2.3.4.1.2. Sodium-Sulfur Battery
9.2.3.4.1.3. Sodium-Salt Battery
9.2.3.4.2. By Application
9.2.3.4.2.1. Stationary Energy Storage
9.2.3.4.2.2. Transportation
9.2.3.5. Rest of Asia Pacific
10. Middle East & Africa Sodium-Ion Market Outlook, 2018-2032F
10.1. Market Size & Forecast
10.1.1. By Value
10.1.2. By Volume
10.2. Market Share & Forecast
10.2.1. By Type
10.2.1.1. Sodium-Oxide Battery
10.2.1.2. Sodium-Sulfur Battery
10.2.1.3. Sodium-Salt Battery
10.2.2. By Application
10.2.2.1. Stationary Energy Storage
10.2.2.2. Transportation
10.2.3. By Region
10.2.3.1. Saudi Arabia
10.2.3.1.1. By Type
10.2.3.1.1.1. Sodium-Oxide Battery
10.2.3.1.1.2. Sodium-Sulfur Battery
10.2.3.1.1.3. Sodium-Salt Battery
10.2.3.1.2. By Application
10.2.3.1.2.1. Stationary Energy Storage
10.2.3.1.2.2. Transportation
10.2.3.2. South Africa
10.2.3.2.1. By Type
10.2.3.2.1.1. Sodium-Oxide Battery
10.2.3.2.1.2. Sodium-Sulfur Battery
10.2.3.2.1.3. Sodium-Salt Battery
10.2.3.2.2. By Application
10.2.3.2.2.1. Stationary Energy Storage
10.2.3.2.2.2. Transportation
10.2.3.3. Rest of Middle East & Africa
11. Global Sodium-Ion Battery Market Mapping, 2024
11.1. By Type
11.2. By Application
11.3. By Region
12. Macro Business Environment Analysis
12.1. PESTEL Analysis
12.1.1. Political Factors
12.1.2. Economic Factors
12.1.3. Social Factors
12.1.4. Environmental Factors
12.1.5. Technological Advancements
12.1.6. Legal Factors & Regulatory Policies
12.2. Porter's Five Force Analysis
12.2.1. Threat of Substitutes
12.2.2. Threat of New Entrant
12.2.3. Bargaining Power of Suppliers
12.2.4. Bargaining Power of Suppliers
12.2.5. Intensity of Competitive Rivalry
12.3. Price Point Analysis
12.4. Value Chain Analysis
12.5. Demand Supply Analysis
12.6. Import Export Analysis
13. Market Dynamics
13.1. Growth Drivers
13.2. Growth Inhibitors
14. Key Trends & Developments
15. Best Practice Case Studies by Market Leader of Global Sodium-Ion Battery Market (Upto Three)
16. Competitive Landscape
16.1. SWOT Analysis (Top Five Market Players)
16.1.1. Core Competence and Key Value Proposition
16.1.2. Areas of Improvement
16.1.3. Untapped Scope of Business
16.1.4. Market Value Proposed by Competitors
16.2. Competition Matrix of Top Five Market Leaders
16.3. Company Share Analysis of Top Five Market Leaders (in %, 2024)