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市场调查报告书
商品编码
1700179
2032 年电池储能逆变器市场预测:按产品类型、电池类型、额定功率、应用、最终用户和地区进行的全球分析Battery Storage Inverter Market Forecasts to 2032 - Global Analysis By Product Type (Single-Phase Three-Phase, Electric Power and Other Product Types), Battery Type, Power Rating, Application, End User and By Geography |
根据 Stratistics MRC 的数据,全球电池储能逆变器市场预计在 2025 年将达到 38 亿美元,到 2032 年将达到 78 亿美元,预测期内的复合年增长率为 10.8%。
电池储能逆变器是电池储能係统中的关键设备,负责将电池储能中储存的直流电转换为交流电,为家庭、企业和工业设施供电。这些逆变器透过促进与电网的无缝集成,在可再生能源系统中发挥着至关重要的作用。预计先进电池储能逆变器的采用将在全球范围内激增。
据该公司发布的声明称,“NOAH 2000采用Y型分支太阳能并联电缆,可连接四个太阳能模组,最大限度地提高太阳能收集效率。”
微电网和离网系统的扩展
电池储存逆变器市场受到全球向分散式能源系统转变的推动,尤其是偏远和灾害多发地区的微电网和离网解决方案。太阳能和风能等可再生能源的整合需要先进的逆变器来管理间歇性电源并确保电网稳定性。人们越来越重视停电和自然灾害期间的能源弹性,加速了住宅和商业领域的采用。此外,电池技术成本的下降使得这些系统在发展中地区更容易普及。
效率和性能降低
直流-交流转换过程中的能量损失和逆变器的热效率低会降低整体系统性能并增加营运成本。电池会随着时间的推移而劣化,尤其是在高温环境下,从而缩短其使用寿命并需要更频繁地更换。与传统电网基础设施的复杂整合增加了安装挑战和维护成本。老化逆变器导致的电能品质不稳定可能会对敏感的工业设备造成严重破坏。此外,现有设计的扩充性有限,限制了其适应不断增长的能源需求的能力。
工业和商业能源储存需求不断成长
各行各业都在采用电池储存逆变器来降低尖峰需求费用,并透过负载转移策略提高能源独立性。包括资料中心和医院在内的商业部门在电网故障期间优先使用逆变器作为不断电系统(UPS)。支援多源能源输入(太阳能+电网+储能)的混合逆变器满足动态能源管理需求。逆变器製造商和公用事业公司之间的伙伴关係也为频率调节等电网服务带来了机会。
科技颠覆与快速进步
固态逆变器和人工智慧主导的能源管理系统等快速的技术创新有可能使传统产品过时。提供更便宜的软体定义逆变器的新兴企业将挑战现有企业的市场占有率。监管部门对下一代技术的认证延迟将会延迟升级产品的上市时间。先进演算法和设计的智慧财产权纠纷带来了法律和财务风险。此外,由于技术趋势无法预测,研发和投资报酬率的波动也对盈利造成压力。
疫情扰乱了供应链,导致2020-2021年逆变器组件生产和计划推出延后。封锁扰乱了安装和维护服务,尤其是针对工业客户的服务。然而,疫情后的復苏工作优先考虑了对可再生能源的投资,从而在 2022 年和 2023 年恢復了需求。远端监控解决方案变得越来越普遍,可以实现逆变器系统的虚拟诊断。疫情过后,对能源安全的长期关注导致对混合电池储存逆变器装置的投资增加。
预计预测期内单相电力部分将占最大份额。
由于单相电源与家用太阳能板和小型电池储存系统具有高度相容性,预计在预测期内将占据最大的市场占有率。由于价格便宜、安装简便,它们在郊区和农村电气化计划中广受欢迎。越来越多的独户住宅和小型企业采用太阳能,推动了该行业的成长。新兴国家的公共产业正在其分散式能源接入计划中部署这些逆变器。然而,它们处理大功率负载的能力有限,限制了它们在工业应用中的使用。
预计预测期内锂离子电池领域将以最高的复合年增长率成长。
由于锂离子电池具有高能量密度、长循环寿命以及与快速充电逆变器的兼容性,预计在预测期内该领域将实现最高的成长率。锂离子成本的下降和安全标准的提高正在推动其在公用事业规模的电池储存计划中的应用。与智慧逆变器的整合实现了电网服务的即时能源管理。对电动车充电基础设施和可再生混合系统的需求激增将进一步推动成长。固体锂电池等技术创新可望提高效率,并刺激研发投资。
在预测期内,预计亚太地区将占据最大的市场占有率,这得益于中国积极的可再生能源目标以及印度国家太阳能计划等太阳能倡议。东南亚快速的都市化和工业成长正在推动对可靠能源储存解决方案的需求。在日本和韩国,政府对住宅太阳能+电池储能係统的补贴有助于推动其采用。该地区的製造地因在当地生产逆变器而节省了成本。此外,印尼、菲律宾等国家电力短缺现象频繁,微电网的引进正在加速。
预计北美地区在预测期内将呈现最高的复合年增长率。这是由美国联邦政府对太阳能储存系统的税额扣抵和加拿大的净零排放目标所推动的。电网现代化和抗飓风基础设施的投资增加将推动沿海各州的需求。利用分散式逆变器的虚拟发电厂(VPP)等技术进步将成为推动力。公用事业公司和科技公司之间的合作推动了智慧逆变器的采用。资料中心和电动汽车车队的商业能源储存的成长将进一步支持市场。
According to Stratistics MRC, the Global Battery Storage Inverter Market is accounted for $3.8 billion in 2025 and is expected to reach $7.8 billion by 2032 growing at a CAGR of 10.8% during the forecast period. A battery storage inverter is a key device in energy storage systems, responsible for converting the DC power stored in batteries into AC electricity that powers homes, businesses, and industrial facilities. These inverters play a crucial role in renewable energy systems by facilitating seamless integration with the electrical grid. The adoption of advanced battery storage inverters is expected to surge globally.
According to a statement released by the firm, "The NOAH 2000 features a Y-Branch Solar Parallel Cable, which allows it to be connected to four solar modules, thereby maximizing the efficiency with which it harvests solar energy."
Expansion of microgrid and off-grid systems
The battery storage inverter market is driven by the global shift toward decentralized energy systems, particularly microgrids and off-grid solutions in remote or disaster-prone areas. Renewable energy integration, such as solar and wind, necessitates advanced inverters to manage intermittent power supply and ensure grid stability. Growing emphasis on energy resilience during power outages or natural disasters boosts adoption in residential and commercial sectors. Additionally, declining costs of battery technologies make these systems more accessible to developing regions.
Efficiency and performance degradation
Energy losses during DC-AC conversion and thermal inefficiencies in inverters reduce overall system performance, raising operational costs. Battery degradation over time, especially in high-temperature environments, shortens lifespan and necessitates frequent replacements. Complex integration with legacy grid infrastructure increases installation challenges and maintenance expenses. Inconsistent power quality from aging inverters can disrupt sensitive industrial equipment. Furthermore, limited scalability in existing designs restricts adaptability to growing energy demands.
Growing demand for industrial and commercial energy storage
Industries are adopting battery storage inverters to reduce peak demand charges and enhance energy self-sufficiency through load-shifting strategies. Commercial sectors, including data centers and hospitals, prioritize inverters for uninterrupted power supply (UPS) during grid failures. Hybrid inverters supporting multi-source energy inputs (solar + grid + storage) cater to dynamic energy management needs. Partnerships between inverter manufacturers and utility providers also unlock opportunities in grid services like frequency regulation.
Technological disruptions and rapid advancements
Fast-paced innovations, such as solid-state inverters and AI-driven energy management systems, risk obsolescence for conventional products. Startups offering cheaper, software-defined inverters challenge established players' market share. Regulatory delays in certifying next-gen technologies slow time-to-market for upgrades. Intellectual property disputes over advanced algorithms or designs create legal and financial risks. Additionally, there is fluctuation in R&D and ROI due to unpredictable tech trends pressures profitability.
The pandemic disrupted supply chains, delaying inverter component production and project deployments in 2020-2021. Lockdowns hampered installation and maintenance services, particularly for industrial clients. However, post-pandemic recovery efforts prioritized renewable energy investments, revitalizing demand in 2022-2023. Remote monitoring solutions gained traction, enabling virtual diagnostics for inverter systems. Long-term emphasis on energy security post-COVID has strengthened investments in hybrid storage-inverter setups.
The single-phase electric power segment is expected to be the largest during the forecast period
The single-phase electric power segment is expected to account for the largest market share during the forecast period due to their compatibility with household solar panels and small-scale storage systems. Their affordability and ease of installation make them popular in suburban and rural electrification projects. Rising solar adoption in single-family homes and small businesses drives segment growth. Utilities in emerging economies deploy these inverters for decentralized energy access programs. However, limitations in handling high-power loads restrict their industrial use.
The lithium-ion battery segment is expected to have the highest CAGR during the forecast period
Over the forecast period, the Lithium-Ion battery segment is predicted to witness the highest growth rate due to their high energy density, longer cycle life, and compatibility with fast-charging inverters. Declining lithium-ion costs and improved safety standards boost adoption in utility-scale storage projects. Integration with smart inverters enables real-time energy management for grid services. Demand surges in EV charging infrastructure and renewable hybrid systems further propel growth. Innovations like solid-state lithium batteries promise enhanced efficiency, fueling R&D investments.
During the forecast period, the Asia-Pacific region is expected to hold the largest market share driven by China's aggressive renewable targets and India's solar initiatives like the National Solar Mission. Rapid urbanization and industrial growth in Southeast Asia increase demand for reliable energy storage solutions. Government subsidies for residential solar+storage systems in Japan and South Korea bolster adoption. Manufacturing hubs in the region benefit from local inverter production, reducing costs. Additionally, frequent power shortages in countries like Indonesia and the Philippines accelerate microgrid deployments.
Over the forecast period, the North America region is anticipated to exhibit the highest CAGR fuelled by U.S. federal tax credits for solar-storage systems and Canada's net-zero emissions goals. Increasing investments in grid modernization and hurricane-resilient infrastructure drive demand in coastal states. Tech advancements, such as virtual power plants (VPPs) leveraging distributed inverters, gain traction. Partnerships between utilities and tech firms enhance smart inverter adoption. Rising commercial energy storage in data centers and EV fleets further supports the market.
Key players in the market
Some of the key players in Battery Storage Inverter Market include Robert Bosch GmbH, CLOU, Zhicheng Champion, SUNGROW, Dynapower, Parker-Hannifin Corporation, TRIED, Eaton, SMA, KACO, ABB, Princeton, Sensata Technologies, Inc., GOODWE and SolaX Power.
In January 2025, Sungrow Power Supply Co., Ltd. introduced the SH20RT Hybrid Inverter, a residential solution combining solar PV and battery storage management. The inverter features AI-driven energy optimization, allowing homeowners to prioritize self-consumption or grid sell-back based on real-time electricity prices.
In October 2024, SMA Solar Technology AG launched the Sunny Central Storage UP 2500, a grid-scale battery inverter designed for utility and industrial applications. The system supports bidirectional power flow, enabling seamless integration with solar/wind farms and lithium-ion or flow battery storage.
In February 2024, ABB Ltd. announced the Terra 360 Battery Inverter, a modular system tailored for commercial microgrids and EV charging stations. The inverter supports up to 2 MW of storage capacity and integrates with second-life EV batteries, offering a 30% cost reduction for energy storage projects.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.