市场调查报告书
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1470559
抽水蓄能能源市场:按类型、应用和最终用途划分-2024-2030 年全球预测Pumped Hydro Storage Market by Type (Closed-Loop, Open-Loop), Application (Energy Management, Frequency Control), End-Use - Global Forecast 2024-2030 |
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抽水蓄能能源市场规模预计2023年为5.3531亿美元,预计2024年将达5.8968亿美元,2030年将达到10.858亿美元,复合年增长率为10.63%。
抽水蓄能水力发电(PSH)是一种成熟的能源储存技术,由于再生能源来源产生的剩余电力可以在电力需求低谷时储存,并在电力需求高峰时释放,因此得到了广泛的应用。对高效能源储存日益增长的需求以及大规模电网能源基础设施的显着增长正在加速抽水蓄能技术的采用。然而,高昂的资本成本和特殊的地形要求可能会减少电网基础设施中水力储存技术的部署。此外,创新抽水蓄能技术的持续研究和部署,加上世界各国政府对可再生能源发电的承诺,将为抽水蓄能技术在当前和未来电网的部署带来重大影响。
主要市场统计 | |
---|---|
基准年[2023] | 53531万美元 |
预测年份 [2024] | 58968万美元 |
预测年份 [2030] | 10.858 亿美元 |
复合年增长率(%) | 10.63% |
类型:闭合迴路蓄能发电 首选,对环境影响较小
闭合迴路PHS 系统(称为河外系统)在上水库或下水库都没有天然水体。这些系统利用人造水库来储存水。这种设计最大限度地减少了对自然水道和生态系统的环境影响。在无法开发天然水体或优先考虑环境保护的地区,闭合迴路系统通常是首选。开放回路型PHS 系统直接连接到河流、湖泊和海洋等自然水体。这些系统利用自然地形来储存和发电,从而比闭合迴路的初始建设成本更低。然而,它们对自然水体的依赖可能会对环境法规、水权和季节性水资源供应带来挑战。
最终用途:扩大用于水力发电大坝的能源储存和发电
分散式抽水蓄能係统是指服务于区域或社区级能源储存需求的小型计划。这些系统在无法连接到更大电网的偏远地区非常有用。它非常弹性,可减少传输损耗并改善能源获取。抽水蓄能水力发电厂是最传统、应用最广泛的能源储存系统之一。由于它利用高差来储存和发电,因此具有很强的抑低尖峰负载能力。海水抽水蓄能是一种利用海洋作为底层水库的创新方法,对于土地资源有限但海岸线漫长的国家具有明显的优势。这些系统减少了与传统水库相关的环境影响和土地利用问题。抽水蓄能地下水库利用天然或挖掘的洞穴来储水,是地表空间稀缺且环境保护成为首要任务时的替代方案。儘管这个部分不太常见,但人们的兴趣正在增长,因为它对景观的影响较小且更安全。海底水库是抽水力发电领域的前沿开发成果,利用海底的柔性薄膜和固态容器。这种新颖的方法描述了潜在的巨大能源储存容量,同时最大限度地减少了视觉影响和土地使用。
区域洞察
抽水蓄能发电的潜力因国家和地区而异,可以考虑地形、水资源取得情况和能源需求等因素来确定抽水蓄能发电的可行性和潜力。地形高差较大的山区最适合抽水蓄能发电。中国、日本和美国等国家由于多山地形,拥有一些世界上最大的抽水蓄能发电设施。亚洲和美国拥有一些世界上最大的抽水蓄能设施。中国目前拥有世界上最大的抽水蓄能发电能力,拥有包括丰宁和泸田电厂在内的多个大型设施。日本也拥有相当的抽水蓄能发电能力,如奥良木发电厂、神奈川发电厂等。水资源供应丰富且水资源管理管理良好的国家可能拥有抽水蓄能发电的能力。能源需求高、人口众多、能源密集型产业蓬勃发展的国家对抽水电的需求很大。
FPNV定位矩阵
FPNV定位矩阵对于评估抽水蓄能能源市场至关重要。我们检视与业务策略和产品满意度相关的关键指标,以对供应商进行全面评估。这种深入的分析使用户能够根据自己的要求做出明智的决策。根据评估,供应商被分为四个成功程度不同的像限。最前线 (F)、探路者 (P)、利基 (N) 和重要 (V)。
市场占有率分析
市场占有率分析是一种综合工具,可以对抽水蓄能市场供应商的现状进行深入而深入的研究。全面比较和分析供应商在整体收益、基本客群和其他关键指标方面的贡献,以便更好地了解公司的绩效及其在争夺市场占有率时面临的挑战。此外,该分析也为此细分市场的竞争特征提供了宝贵的见解,包括在研究基准年观察到的累积、分散主导地位和合併特征等因素。这种详细程度的提高使供应商能够做出更明智的决策并制定有效的策略,从而在市场上获得竞争优势。
1. 市场渗透率:提供有关主要企业所服务的市场的全面资讯。
2. 市场开拓:我们深入研究利润丰厚的新兴市场,并分析其在成熟细分市场的渗透率。
3. 市场多元化:包括新产品发布、开拓地区、最新发展和投资的详细资讯。
4. 竞争评估和情报:对主要企业的市场占有率、策略、产品、认证、监管状况、专利状况和製造能力进行全面评估。
5. 产品开发与创新:包括对未来技术、研发活动以及突破性产品开发的见解。
1.抽水蓄能发电市场规模及预测如何?
2.抽水蓄能市场预测期间我们应该考虑投资哪些产品与应用?
3.抽水蓄能市场的技术趋势和法规结构是什么?
4.抽水蓄能市场主要厂商的市场占有率为何?
5.进入抽水蓄能能源市场的适当形式和策略手段是什么?
[199 Pages Report] The Pumped Hydro Storage Market size was estimated at USD 535.31 million in 2023 and expected to reach USD 589.68 million in 2024, at a CAGR 10.63% to reach USD 1,085.80 million by 2030.
Pumped storage hydropower (PSH) is a well-established energy storage technology and is widely used due to its ability to store excess electricity generated from renewable sources when demand is low and release it at peak periods when there is a greater need for power. The rising need for efficient energy storage and the significant growth of large-scale grid energy infrastructure are leading to the escalated deployment of pumped hydro storage technologies. However, the high capital costs and specific topographic requirements may lead to reduced deployment of the hydro storage technology in the grid infrastructure. Moreover, the ongoing research and introduction of innovative pumped storage hydropower technologies, along with the inclination of governments worldwide toward renewable energy generation, are creating significant potential for the deployment of pumped storage technologies in the current and future grids.
KEY MARKET STATISTICS | |
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Base Year [2023] | USD 535.31 million |
Estimated Year [2024] | USD 589.68 million |
Forecast Year [2030] | USD 1,085.80 million |
CAGR (%) | 10.63% |
Type: Closed-loop pumped hydro storage preferred for its reduced environmental impact
Closed-loop PHS systems, known as off-river systems, do not have a natural body of water at either the upper or lower reservoir. These systems utilize man-made reservoirs to store water. This design minimizes environmental impact on natural waterways and ecosystems. Closed-loop systems are often preferred in areas where natural water bodies are not available for development and where environmental conservation is a priority. Open-loop PHS systems are directly connected to natural water bodies, including rivers, lakes, and the ocean. These systems leverage the natural topography to store and generate power, which can result in lower initial construction costs compared to Closed-Loop systems. However, the dependency on natural water bodies can create challenges related to environmental regulations, water rights, and seasonal water availability.
End-Use: Growing applications in hydroelectric dams for energy storage & power generation
Decentralized pumped hydro storage systems refer to small-scale projects that serve local and community-level energy storage needs. These systems are highly beneficial in remote locations where connecting to larger grids is impractical. They offer flexibility, lower transmission losses, and improved energy accessibility. Hydroelectric dams equipped with pumped storage capabilities are among the most traditional and widely used systems for energy storage. They leverage elevation differences to store energy and generate power, offering significant capacity for peak shaving and load balancing on the grid. Seawater-pumped hydro storage is an innovative approach that uses the ocean as the lower reservoir, distinctly advantageous for countries with limited land resources but extensive coastlines. These systems reduce environmental impact and land use concerns associated with traditional reservoirs. Underground reservoirs for pumped hydro storage involve utilizing natural and excavated caverns to store water, offering an alternative where surface space is scarce and environmental conservation is paramount. This segment is less common but is growing in interest due to its minimal landscape impact and security advantages. Underwater reservoirs represent a cutting-edge development in the field of pumped hydro storage, utilizing flexible membranes and solid containers on the seabed. This novel approach minimizes visual impact and land use while also providing a potentially significant energy storage capacity.
Regional Insights
The potential for pumped hydro storage varies by country and geographic region, considering factors such as topography, access to water resources, and energy demand that help determine the feasibility and potential for pumped hydro storage. Mountainous regions with significant elevation differences in the landscape are most suited for pumped hydro storage. Countries such as China, Japan, and the United States have some of the largest pumped hydro storage facilities in the world due to their mountainous terrain. Asia and the United States have some of the largest pumped hydro storage facilities in the world. China currently has the largest pumped hydro storage capacity in the world, with several large facilities such as the Fengning plant and the Ludian plant. Japan also has a significantly pumped hydro storage capacity, with facilities such as the Okutataragi plant and the Kannagawa plant. Countries with abundant water supplies and good water management practices are more likely to have the capacity for pumped hydro storage. Countries with high energy demand, those with large populations or energy-intensive industries, have a greater need for pumped hydro storage.
FPNV Positioning Matrix
The FPNV Positioning Matrix is pivotal in evaluating the Pumped Hydro Storage Market. It offers a comprehensive assessment of vendors, examining key metrics related to Business Strategy and Product Satisfaction. This in-depth analysis empowers users to make well-informed decisions aligned with their requirements. Based on the evaluation, the vendors are then categorized into four distinct quadrants representing varying levels of success: Forefront (F), Pathfinder (P), Niche (N), or Vital (V).
Market Share Analysis
The Market Share Analysis is a comprehensive tool that provides an insightful and in-depth examination of the current state of vendors in the Pumped Hydro Storage Market. By meticulously comparing and analyzing vendor contributions in terms of overall revenue, customer base, and other key metrics, we can offer companies a greater understanding of their performance and the challenges they face when competing for market share. Additionally, this analysis provides valuable insights into the competitive nature of the sector, including factors such as accumulation, fragmentation dominance, and amalgamation traits observed over the base year period studied. With this expanded level of detail, vendors can make more informed decisions and devise effective strategies to gain a competitive edge in the market.
Key Company Profiles
The report delves into recent significant developments in the Pumped Hydro Storage Market, highlighting leading vendors and their innovative profiles. These include AGL Energy Ltd., Andritz AG, Black & Veatch Holding Company, Duke Energy Corporation, Electric Power Development Co., Ltd., Enel S.p.A., Eskom Holdings SOC Ltd., General Electric Company, Genex Power Limited, Greenko Group, Hitachi Energy, Hydro-Electric Corporation, Litostroj Power d.o.o., Nevada Hydro Corporation, Obermeyer Hydro, Inc., Schluchseewerk AG, Siemens AG, Stantec Inc., Sunshine Hydro, Tata Power Company Limited, Toshiba Corporation, and Voith GmbH & Co. KGaA.
Market Segmentation & Coverage
1. Market Penetration: It presents comprehensive information on the market provided by key players.
2. Market Development: It delves deep into lucrative emerging markets and analyzes the penetration across mature market segments.
3. Market Diversification: It provides detailed information on new product launches, untapped geographic regions, recent developments, and investments.
4. Competitive Assessment & Intelligence: It conducts an exhaustive assessment of market shares, strategies, products, certifications, regulatory approvals, patent landscape, and manufacturing capabilities of the leading players.
5. Product Development & Innovation: It offers intelligent insights on future technologies, R&D activities, and breakthrough product developments.
1. What is the market size and forecast of the Pumped Hydro Storage Market?
2. Which products, segments, applications, and areas should one consider investing in over the forecast period in the Pumped Hydro Storage Market?
3. What are the technology trends and regulatory frameworks in the Pumped Hydro Storage Market?
4. What is the market share of the leading vendors in the Pumped Hydro Storage Market?
5. Which modes and strategic moves are suitable for entering the Pumped Hydro Storage Market?