市场调查报告书
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1569867
2030 年能源储存系统市场预测:按组件、容量、技术、应用和地区进行的全球分析Energy Storage Systems Market Forecasts to 2030 - Global Analysis By Component (Energy Management Systems, Inverters, Battery Management Systems, Power Conversion Systems and Other Components), Capacity, Technology, Application and By Geography |
根据Stratistics MRC预测,2024年全球能源储存系统市场规模将达2,640.5亿美元,预计2030年将达到4,755亿美元,预测期内复合年增长率为10.3%。
能源储存系统(ESS)是指旨在捕获、储存、管理和随后使用能源的各种技术和方法。 ESS 调节间歇性并提供可靠的能源供应,这对于风能和太阳能等可再生能源的整合至关重要。该行业提供各种商业、工业和住宅技术,包括电池、抽水力发电和蓄热技术。
根据能源经济与金融分析研究所(IEEFA)的数据,2018年,美国对可再生能源发电技术(主要是太阳能和风能)的投资总额为642亿美元。
扩大可再生能源的采用
由于太阳能和风能等可再生能源的使用不断增加,能源储存系统(ESS)的需求量很大。由于这些间歇性能源来源的输出可能会波动,因此能源储存系统(ESS)在生产高峰期储存多余的能量,并在低产量或高需求期间释放它,这样做极为重要。这有助于电网平衡并确保持续和永续的能源供应。此外,ESS 可用于最大限度地减少温室气体排放并减少对石化燃料的依赖。
初期投资成本高
高昂的初始投资价格是能源储存系统(ESS)市场的主要障碍。这包括电源转换、电池管理、设备基础设施以及电池安装价格。系统控制、工厂平衡、施工和试运行都是额外成本。与能源储存系统相关的初始成本可能会阻碍其广泛采用,特别是在财政资源匮乏的开发中国家。
降低电池技术成本
电池技术价格的下降正在推动能源储存系统(ESS)市场的成长。由于製造效率的提高和规模经济,电池变得越来越便宜,使得抽水能源储存系统更具竞争力和更低的价格。正因为如此,公用事业、企业和住宅发现 ESS 对于离网供电、尖峰负载管理和电网稳定性更有吸引力。
缺乏标准化
能源储存系统(ESS)领域因某些领域缺乏标准化而面临挑战。缺乏标准定义、指标和测试程序使得供应商和客户都难以进行系统评估。整合和供应商锁定问题源自于供应商之间的开放通讯协定。当地的安全、环境和电网法规法律使问题变得更加复杂。降低软成本、增强互通性以及提高能源储存技术的全球采用率都取决于缩小这些标准化差距。
COVID-19 的影响
COVID-19的爆发造成了供应链中断、生产和安装延误以及对能源储存系统市场的其他重大影响。由于停工和限制,投资和计划开发放缓,特别是在住宅和商业领域。然而,疫情导致国内能源消费增加,增加了对能源储存的需求,也加速了对可再生能源的转型。随着经济復苏,恢復电网弹性和采用更永续的能源实践将成为首要任务,并将为该产业未来的扩张做好准备。
能源管理系统(EMS)产业预计将在预测期内成为最大的产业
能源管理系统(EMS)领域预计将在预测期内占据最大的市场占有率。随着对环保能源解决方案的需求不断增长,EMS能够即时监控和控制能源输出和消耗,并提高电网稳定性。这些系统支援需量反应和负载平衡,允许用户根据可用性改变能源消耗。此外,随着能源网路变得更加复杂,需要提高分析和报告技能。这意味着能源储存应用必须使用 EMS 来最大限度地提高效率并最大限度地减少对石化燃料的依赖。
预计电网能源储存产业在预测期内复合年增长率最高
在预测期内,由于对可靠和有弹性的电力供应的需求不断增长,电网能源储存产业预计将以最高的复合年增长率成长。太阳能和风能等再生能源来源的日益普及,迫切需要高效的能源储存技术来缓解其间歇性。此外,对清洁能源专案的监管支持和奖励正在推动市场,促进不同能源来源的整合并提高电网的整体稳定性和效率。
由于再生能源来源的整合以及对稳定电力供应的需求不断增长,预计亚太地区在预测期内将占据最大的市场占有率。提高能源安全和永续性的政府措施和监管激励措施也推动了市场成长。由于远端电气化的趋势,该地区将成为全球能源转型的关键驱动力,并为能源储存系统的部署提供了前景。
预计北美地区在预测期内的复合年增长率最高。这是由于对电网弹性和现代化的需求增加、再生能源来源的快速采用以及鼓励政府的奖励和监管。电动车的日益普及以及对可靠备用电源的需求也促进了市场的成长。液流电池和锂离子电池等电池技术的持续开拓正在提高系统的经济性和效率,并提高北美市场能源储存系统的可用性和需求。
According to Stratistics MRC, the Global Energy Storage Systems Market is accounted for $264.05 billion in 2024 and is expected to reach $475.50 billion by 2030 growing at a CAGR of 10.3% during the forecast period. Energy Storage Systems (ESS) refers to a range of technologies and methods designed to capture, store, and manage energy for later use. As they regulate intermittency and provide a steady supply of energy, these systems are essential to the integration of renewable energy sources like wind and solar power. The industry offers a range of technologies for use in commercial, industrial, and residential settings, such as batteries, pumped hydro storage, and thermal storage.
According to the Institute for Energy Economics and Financial Analysis (IEEFA), in 2018, investments in renewable power production technologies, dominated by solar and wind energy, totaled USD 64.2 billion in the United States.
Growing adoption of renewable energy
Energy Storage Systems (ESS) are in high demand due to the growing use of renewable energy sources like solar and wind power. Energy storage systems (ESS) are crucial for storing extra energy during peak production periods and releasing it during periods of low production or high demand since the output of these intermittent energy sources might fluctuate. This contributes to grid balancing and guarantees a consistent and sustainable supply of energy. In addition, ESS can be used to minimize greenhouse gas emissions and lessen dependency on fossil fuels, which makes them an essential part of the shift to cleaner energy sources in the future.
High initial investment costs
High initial investment prices provide a major hurdle for the Energy Storage Systems (ESS) market. This covers the price of installing batteries as well as power conversion, battery management, and facility infrastructure. System control, balance of plant, building, and commissioning are additional expenses. The initial expenses associated with energy storage systems may impede their extensive implementation, particularly in developing nations where funding resources are scarce.
Declining costs of battery technology
Battery technology is becoming more affordable, which is driving growth in the market for Energy Storage Systems (ESS). Batteries are getting cheaper as a result of increased manufacturing efficiency and the realization of economies of scale, which makes energy storage systems like pumped hydro storage more competitive and more affordable. Because of this, utilities, companies, and homeowners find ESS to be more appealing for off-grid power supply, peak load management, and grid stabilization.
Lack of standardization
Lack of standardization in several areas presents difficulties for the Energy Storage Systems (ESS) sector. Evaluating systems is challenging for both suppliers and customers due to the absence of standard definitions, metrics, and testing procedures. Issues with integration and vendor lock-in arise from open communication protocols across vendors. Complicating matters include local safety, environmental, and grid code laws. Reducing soft costs, enhancing interoperability, and hastening the global adoption of energy storage technologies all depend on closing these standardized gaps.
Covid-19 Impact
The COVID-19 epidemic caused supply chain disruptions, production and installation delays, and other significant effects on the energy storage systems market. Investment and project development slowed as a result of lockdowns and restrictions, especially in the residential and commercial sectors. However, because of the pandemic's increased demand for energy storage due to rising domestic energy consumption, the transition to renewable energy sources was also accelerated. Restoring grid resilience and incorporating more sustainable energy practices are top priorities as economies rebound, setting up the industry for future expansion.
The energy management systems (EMS) segment is expected to be the largest during the forecast period
The energy management systems (EMS) segment is projected to account for the largest market share during the projection period. As the need for environmentally friendly energy solutions increases, EMS makes it possible to monitor and control energy output and consumption in real time, improving grid stability. These systems enable demand response and load balancing, enabling users to modify energy consumption in accordance with availability. Furthermore, as energy networks are becoming more complicated, enhanced analytics and reporting skills are required, which means that energy storage applications need to use EMS in order to maximize efficiency and minimize reliance on fossil fuels.
The grid energy storage segment is expected to have the highest CAGR during the forecast period
During the projection period, the grid energy storage segment is expected to grow at the highest CAGR, due to the growing need for a dependable and resilient power supply. The increasing prevalence of renewable energy sources such as solar and wind power emphasizes the urgent need for efficient energy storage technologies to mitigate their intermittency. The market is further driven by regulatory support and incentives for clean energy programs, which also make it easier to integrate different energy sources and increase the overall stability and efficiency of the grid.
The Asia Pacific region is projected to account for the largest market share during the forecast period, due to the growing need for the integration of renewable energy sources and a steady supply of electricity. Growth in the market is also accelerated by encouraging government initiatives and regulations that improve energy security and sustainability. The region becomes a major factor in the global energy transition as a result of the trend towards electrification in distant areas, which also presents prospects for the deployment of energy storage systems.
Over the forecasted timeframe, the North America region is anticipated to exhibit the highest CAGR, owing to increasing demand for grid resilience and modernization, the quick uptake of renewable energy sources, and encouraging government incentives and regulations. The growing popularity of electric vehicles and the requirement for dependable backup power also contribute to the market's growth. Constant developments in battery technologies, including as flow and lithium-ion batteries, improve system economics and efficiency, increasing the availability and desirability of energy storage systems in the North American market.
Key players in the market
Some of the key players profiled in the Energy Storage Systems Market include LG Chem, Siemens Energy, Samsung SDI, Fluence, Hitachi ABB Power Grids, GE Renewable Energy, VRB Energy, Eve Energy Co. Ltd., ABB, Kokam, Tesla, Panasonic, AES Corporation, Enphase Energy, TotalEnergies, Vivint Solar, GE Vernova, Northvolt, Tata Power and Larsen & Toubro (L&T).
In August 2023, Fluence Energy launched a new storage platform aimed at improving efficiency in integrating renewable energy sources into the grid.
In June 2023, LG Chem announced the construction of a new production facility in the U.S. to expand its lithium-ion battery output.
In April 2023, Tesla launched the Megapack, a large-scale battery designed for commercial use to provide enhanced energy storage capacity and stability.
In May 2020, Northvolt introduced the Voltpack Mobile System, a lithium-ion battery energy storage solution designed as a zero-emission alternative to diesel generators, applicable for powering remote grids and supporting EV charging.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.