市场调查报告书
商品编码
1569869
到 2030 年混合电池储存系统市场预测:按电池类型、功能、额定功率、所有权模式、技术、最终用户和地区进行的全球分析Hybrid Battery Energy Storage System Market Forecasts to 2030 - Global Analysis By Battery Type, Function, Power Rating, Ownership Model, Technology, End User and By Geography |
根据Stratistics MRC的数据,2024年全球混合电池储存系统市场规模为164.7亿美元,预计到2030年将达到265.4亿美元,在预测期内复合年增长率为8.27%。
混合电池储存系统 (HBESS) 结合了电池和超级电容等多种能源储存技术,以提高效率、效能和寿命。透过整合不同的系统,可以优化能源储存和放电过程,并适应不断变化的能源需求和供应条件。 HBESS 在可再生能源併网、电网稳定和负载转移等应用中特别有用。其灵活性和应变能力使其成为管理住宅和工业环境中能源资源的宝贵解决方案。
对可再生能源的需求不断增加
随着可再生能源计划的发展,需要使用有效的能源储存系统来平衡供需。 HBESS 透过储存高峰期产生的多余能源并在以后使用来提高电网的可靠性。在再生能源来源日益一体化的推动下,对混合系统的投资被定位为基础设施和永续能源转型的关键要素,推动市场成长。
认识有限
由于对混合电池储存系统的优势及其技术应用的认识有限,许多消费者和企业想知道 HBESS 如何提高能源效率、降低成本并支援可再生能源整合,但他们可能并没有意识到这一点。这种知识的缺乏阻碍了投资和招聘,并阻碍了市场渗透。此外,行业相关人员的教育倡议和推广不足进一步加剧了这个问题,导致住宅和商业领域错失了创新和部署的机会。
能源储存需求增加
随着太阳能和风能等能源储存併入电网,对可靠储存解决方案的需求不断增加。 HBESS 提高了灵活性,并允许更好的负载分配和抑低尖峰负载。这种适应性有助于公用事业和企业优化能源使用并降低成本。此外,对电动车和智慧电网日益增长的兴趣进一步刺激了需求,而对再生能源来源的日益依赖透过满足高效能源管理的需求而加强了市场的成长。
快速的技术变革
快速的技术创新,例如新技术的出现,可能会使现有系统过时,导致市场信任度下降以及消费者和企业购买决策的延迟。此外,公司面临持续的创新压力,这可能会增加研发成本并从其他关键领域转移资源。这种快节奏的环境也导致市场分散化,使消费者很难为自己的能源储存需求选择最可靠、最有效的解决方案,而这些因素将阻碍成长。
COVID-19 的影响
COVID-19 大流行扰乱了供应链并推迟了计划进度,从而影响了混合能源储存系统 (HBESS) 市场。停工和限制阻碍了製造和安装活动,导致某些行业的需求减少。但随着企业和政府意识到可靠能源来源的重要性,这场危机也加速了向可再生能源和能源弹性的转变。随着经济復苏,对永续性和能源安全的日益重视预计将推动 HBESS 市场的未来成长。
预计抑低尖峰负载场将是预测期内最大的
透过在非高峰时段储存能量并在高峰时段释放能量,HBESS 帮助公用事业公司管理需求波动、降低消费者的电费并提高电网稳定性。随着企业和住宅用户寻求经济高效的能源解决方案,对有助于抑低尖峰负载的 HBESS 的需求持续增加,推动市场成长。
预计电讯业在预测期内的复合年增长率最高。
由于偏远和离网地区需要可靠的电力供应,预计通讯业在预测期内将出现最高的复合年增长率。随着通讯基础设施的扩展,尤其是在农村地区,HBESS 提供了永续的解决方案,在停电期间不会中断服务。此外,电讯领域向再生能源来源的转变将推动采用 HBESS 进行能源储存。该领域的重点是营运效率和降低成本,进一步推动混合能源储存解决方案的投资并推动市场成长。
由于对可再生能源的需求不断增加和电网现代化,预计亚太地区将在预测期内占据最大的市场占有率。中国、日本和印度等国家在清洁能源基础设施投资方面处于主导,政府支持政策促进了能源储存解决方案的发展。电动车的普及和电池技术的进步将进一步推动市场扩张。总体而言,该地区为 HBESS 的采用提供了巨大的机会。
由于可再生能源整合和电网稳定性,预计北美在预测期内的复合年增长率最高。有利的政府政策和奖励正在支持能源储存解决方案的部署,特别是在加州和德克萨斯州等可再生资源丰富的州。电池技术的技术进步将进一步提高系统效率和效能。总体而言,市场为能源管理解决方案的创新和投资提供了巨大的机会。
According to Stratistics MRC, the Global Hybrid Battery Energy Storage System Market is accounted for $16.47 billion in 2024 and is expected to reach $26.54 billion by 2030 growing at a CAGR of 8.27% during the forecast period. A hybrid battery energy storage system (HBESS) combines multiple energy storage technologies, such as batteries and supercapacitors, to enhance efficiency, performance, and lifespan. By integrating different systems, it can optimize energy storage and discharge processes, adapting to varying energy demands and supply conditions. HBESS is particularly beneficial in applications like renewable energy integration, grid stabilization, and load shifting. Its flexibility and responsiveness make it a valuable solution for managing energy resources in both residential and industrial settings.
Increased demand for renewable energy
The increasing development of renewable projects necessitates the use of effective energy storage systems in order to maintain supply and demand equilibrium. Grid dependability is increased by HBESS because it makes it possible to store excess energy produced during periods of peak output for later use. Investment in hybrid systems is fuelled by the increasing integration of renewable energy sources, which positions them as crucial elements of the infrastructure and transition to sustainable energy, thereby fuelling the growth of the market.
Limited awareness
Limited awareness about hybrid battery energy storage systems benefits and applications of the technologies, many consumers and businesses may not recognize how HBESS can enhance energy efficiency, reduce costs, and support renewable energy integration. This lack of knowledge leads to hesitancy in investment and adoption, stalling market penetration. Additionally, insufficient educational initiatives and outreach by industry stakeholders further exacerbate this issue, resulting in missed opportunities for innovation and deployment in both residential and commercial sectors.
Rising energy storage demand
Rising energy storage like solar and wind, are integrated into the grid, the demand for reliable storage solutions grows. HBESS provides enhanced flexibility, enabling better load balancing and peak shaving. This adaptability helps utilities and businesses optimize energy usage and reduce costs. Additionally, heightened interest in electric vehicles and smart grids further stimulates demand, reinforcing the growth of the market by addressing the need for efficient energy management amid increasing reliance on renewable energy sources.
Rapid technological changes
Rapid technological changes such as technologies emerge, existing systems may become outdated, leading to reduced market confidence and delayed purchasing decisions from consumers and businesses. Additionally, companies may face pressure to continuously innovate, increasing R&D costs and diverting resources from other essential areas. This fast-paced environment can also lead to fragmentation in the market, making it challenging for consumers to choose the most reliable and effective solutions for their energy storage needs, these factors hindering market growth.
Covid-19 Impact
The COVID-19 pandemic impacted the Hybrid Battery Energy Storage System (HBESS) market by disrupting supply chains and delaying project timelines. Lockdowns and restrictions hindered manufacturing and installation activities, leading to decreased demand in some sectors. However, the crisis also accelerated the shift toward renewable energy and energy resilience, as businesses and governments recognized the importance of reliable energy sources. This growing emphasis on sustainability and energy security is expected to drive future growth in the HBESS market as economies recover.
The peak shaving segment is expected to be the largest during the forecast period
The peak shaving segment is estimated to have a lucrative growth, due to reducing energy consumption during peak demand periods. y storing energy during off-peak times and discharging it during peak hours, HBESS helps utilities manage demand fluctuations, lowering electricity costs for consumers and improving grid stability. As businesses and residential users increasingly seek cost-effective energy solutions, the demand for HBESS to facilitate peak shaving continues to rise, driving market growth.
The telecom segment is expected to have the highest CAGR during the forecast period
The telecom segment is anticipated to witness the highest CAGR growth during the forecast period, due to need for reliable power supply in remote and off-grid locations. As telecommunications infrastructure expands, especially in rural areas, HBESS provides a sustainable solution for uninterrupted service during power outages. Moreover, the shift towards renewable energy sources in the telecom sector enhances the adoption of HBESS for energy storage. This sector's emphasis on operational efficiency and cost reduction further drives investment in hybrid storage solutions, fostering market growth.
Asia Pacific is projected to hold the largest market share during the forecast period due to increased demand for renewable energy and grid modernization. Countries like China, Japan, and India are leading investments in clean energy infrastructure, with supportive government policies promoting energy storage solutions. The rising adoption of electric vehicles and advancements in battery technologies further propel market expansion. Overall, the region presents significant opportunities for HBESS adoption.
North America is projected to have the highest CAGR over the forecast period, owing to renewable energy integration and grid stability. Favourable government policies and incentives support the deployment of energy storage solutions, particularly in states like California and Texas, where renewable resources are abundant. Technological advancements in battery technologies further enhance system efficiency and performance. Overall, the market presents substantial opportunities for innovation and investment in energy management solutions.
Key players in the market
Some of the key players profiled in the Hybrid Battery Energy Storage System Market include ABB Ltd., BYD Company Limited, Contemporary Amperex Technology Co., Ltd. (CATL), Eaton Corporation, Enel X, Fluence Energy, Inc., General Electric (GE), Hitachi Energy, Johnson Controls International, LG Energy Solution, NEC Energy Solutions, NGK Insulators, Ltd., Panasonic Corporation, Saft Groupe S.A. (A subsidiary of TotalEnergies), Samsung SDI Co., Ltd., Schneider Electric SE, Siemens AG, SMA Solar Technology AG, Tesla, Inc and VARTA AG.
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Frequency Regulation
Load Shifting
Backup Power
Grid Stabilization
Renewable Energy Integration
Other Functions
50-250 kW
250-500 kW
500 kW-1 MW
Above 1 MW
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.