市场调查报告书
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到 2030 年单轴太阳能追踪器市场预测:按产品类型、轴旋转、应用和区域进行的全球分析Single Axis Solar Tracker Market Forecasts to 2030 - Global Analysis By Product Type (Photovoltaic Trackers, Concentrated Solar Power Trackers and Other Product Types), Axis Rotation, Application and by Geography |
根据Stratistics MRC的数据,2023年全球单轴太阳能追踪器市场规模为225.2亿美元,预计在预测期内将以21.1%的复合年增长率成长,到2030年达到860.3亿美元。
单轴太阳能追踪器是一种太阳能电池板安装系统,可追踪太阳沿一个轴(通常是东西向)的运动,以最大限度地利用能源。太阳能电池板可以全天动态改变其倾斜和方向,透过保持垂直于太阳光线来最大化阳光照射。此外,透过提高太阳能电池板捕获阳光的效率,与固定太阳能装置相比,单轴追踪系统可以显着提高能源产量。
据美国太阳能协会(ASES)称,单轴太阳能追踪器透过动态调整太阳能电池板沿着东西轴的方向,在优化太阳能收集方面发挥着至关重要的作用。
增加太阳能发电厂
人们对环境、能源安全的日益关注以及减少对石化燃料依赖的愿望都导致全球太阳能发电能力大幅增加。随着太阳能装置数量的增加,对最大化能源输出的技术的需求也在增加。此外,大型太阳能装置需要单轴太阳能追踪器,这对于优化太阳能发电工程的潜力至关重要。
复杂的设计与安装
与固定倾斜系统相比,单轴太阳能追踪器需要更复杂的安装。追踪机制必须进行适当的调整和校准,以确保最佳性能。追踪器基础设施工程和设计也需要仔细的规划和专业知识。此外,设计和安装的复杂性都会增加计划的预算、进度和劳动力需求。
能源储存一体化
将能源储存系统整合到太阳能装置中的趋势日益明显。单轴太阳能追踪器与电池等能源储存技术相结合,可实现能源管理和发电弹性。此外,追踪器和储存的能力为结合追踪系统和能源储存的整合解决方案创造了机会,以提高电网稳定性并减少间歇性发电。
技术过时
随着太阳能技术的快速发展和新想法的引入,存在技术过时的风险。面对快速变化的市场的未来进步,目前的单轴太阳能追踪器技术面临过时或失去竞争力的风险。为了保持市场领先地位和竞争力,製造商和开发商也必须走在技术进步的最前线。
单轴太阳能追踪器市场受到了 COVID-19 大流行的影响。疫情初期,全球供应链中断、计划延迟、投资下降,但包括太阳能在内的可再生能源产业展现了韧性和韧性。世界各国政府已认识到可再生能源对其经济復苏计画至关重要,并实施了持续的政策支持和刺激奖励策略。此外,这场大流行使人们专注于对强大和永续能源系统的需求,从而推动了对太阳能计划的兴趣和资金投入。
预计光伏追踪器产业在预测期内将是最大的
市场占有率最大的领域是光电追踪器。光伏追踪器能够不断地将太阳能电池板与太阳对齐,以最大限度地提高其发电能力。此外,大型太阳能发电厂、商业设施和公共产业规模的太阳能发电工程都大量使用这些追踪器。太阳能发电技术是全球太阳能发电的主流,已被广泛采用,光伏追踪器领域受益。
预计公共事业规模在预测期间内复合年增长率最高
在单轴太阳能追踪器市场中,公共事业规模领域的复合年增长率最高。公共产业规模太阳能发电工程中使用的大型设备主要用于向电网供电并满足公用事业公司的电力需求。由于太阳能技术成本的下降以及世界对可再生能源的日益关注,公共产业规模产业正在经历显着增长。此外,规模经济透过允许更大的安装和更多的能源输出来支持公共产业规模的太阳能发电工程。
亚太地区占据最大的市场份额。该地区的主导地位有许多原因。首先,中国、印度和日本等国家製定了积极的太阳能目标和政策,处于可再生能源采用的最前线。这些国家对公共规模太阳能发电工程的大规模投资推动了对单轴太阳能追踪器的需求。此外,该地区庞大的人口和快速的工业化进一步推动了太阳能追踪器的普及,从而产生了对永续能源来源的巨大需求。
预计南美洲市场的复合年增长率最高。拉丁美洲的可再生能源部署正在稳步增加,其中墨西哥、巴西和智利处于领先地位。该地区太阳能发电的快速普及背后有多个因素,包括有利的政府政策、丰富的太阳能资源以及不断增长的能源需求。此外,能源来源多样化的需求和太阳能技术成本的降低也是推动拉丁美洲单轴太阳能追踪器市场成长的因素。
According to Stratistics MRC, the Global Single Axis Solar Tracker Market is accounted for $22.52 billion in 2023 and is expected to reach $86.03 billion by 2030 growing at a CAGR of 21.1% during the forecast period. A single-axis solar tracker is a solar panel mounting system that tracks the movement of the sun along one axis, usually east-west, to maximize energy capture. Solar panels can dynamically change their tilt or orientation throughout the day to maximize their exposure to sunlight by staying perpendicular to the sun's rays. Moreover, by improving the solar panels' efficiency in capturing sunlight, single-axis tracking systems considerably increase energy yield in comparison to fixed solar installations.
According to the American Solar Energy Society (ASES), single-axis solar trackers play a pivotal role in optimizing solar energy capture by dynamically adjusting the orientation of solar panels along the east-west axis.
Increasing number of solar power plants
Growing concerns about the environment, energy security, and a desire to lessen reliance on fossil fuels have all contributed to the notable increase in the world's solar power capacity. The need for technologies that maximize energy output is growing along with the number of solar installations. Additionally, wide-scale solar installations require single-axis solar trackers because they are critical to optimizing the potential of solar projects.
Intricate design and installation
When compared to fixed-tilt systems, single-axis solar trackers require more complicated installation. To guarantee peak performance, the tracking mechanism must be properly aligned and calibrated. Careful planning and expertise are also needed for the tracker infrastructure's engineering and design. Furthermore, project budgets, schedules, and labor requirements may all rise due to the intricacy of the design and installation.
Integration of energy storage
There is a growing trend toward integrating energy storage systems with solar power installations. Energy management and flexibility in the production of electricity are made possible by combining single-axis solar trackers with energy storage technologies, such as batteries. Moreover, opportunities for integrated solutions that combine tracking systems with energy storage are created by the ability of trackers and storage to improve grid stability and reduce intermittent power generation.
Obsolescence of technology
There is a risk of technological obsolescence due to the quick development of solar technology and the introduction of new ideas. Current single-axis solar tracker technologies run the risk of becoming antiquated or less competitive in the face of upcoming advancements in a market that is changing quickly. Additionally, to stay current and competitive in the market, manufacturers and developers need to stay on the cutting edge of technological advancements.
The single-axis solar tracker market was affected by the COVID-19 pandemic. The global supply chain was disrupted, projects were delayed, and investments were decreased during the pandemic's early stages, but the renewable energy industry-which includes solar energy-showed resilience and recovery. Governments all across the world realized that renewable energy was essential to plans for economic recovery, which resulted in ongoing policy support and stimulus packages. Furthermore, the pandemic also brought attention to the necessity of robust and sustainable energy systems, which increased interest in and funding for solar projects.
The Photovoltaic (PV) Trackers segment is expected to be the largest during the forecast period
The segment with the largest market share is photovoltaic (PV) trackers. PV trackers are made to continually align solar panels with the sun in order to maximize their ability to generate energy. Moreover, large-scale solar farms, commercial installations, and utility-scale solar projects all frequently use these trackers. As the predominant method of solar power generation worldwide, photovoltaic technology is widely adopted, this benefits the PV tracker segment.
The Utility-Scale segment is expected to have the highest CAGR during the forecast period
In the single-axis solar tracker market, the utility-scale segment has shown the highest CAGR. Large-scale installations used in utility-scale solar projects are mainly intended to feed electricity into the grid and satisfy utility companies' demand for electricity. Due to the falling costs of solar technology and the growing global focus on renewable energy, the utility-scale segment has experienced significant growth. Additionally, economies of scale help utility-scale solar projects by enabling bigger installations and more energy output.
The market's largest share is held by the Asia-Pacific region. Numerous reasons contribute to the region's dominance. First off, by enacting aggressive solar energy targets and policies, nations like China, India, and Japan have been at the forefront of the adoption of renewable energy. The need for single-axis solar trackers is being driven by these nation's large investments in utility-scale solar projects. Furthermore, solar tracker deployment has been further aided by the region's large population and rapid industrialization, which have created a significant need for clean and sustainable energy sources.
South America is anticipated to have the highest CAGR in the market. Renewable energy installations have been steadily increasing throughout Latin America, with Mexico, Brazil, and Chile setting the pace. The region's rapid adoption of solar power can be attributed to several factors, including favourable government policies, abundant solar resources, and rising energy demand. Moreover, the need to diversify energy sources and the falling costs of solar technology are other factors propelling the growth of the single-axis solar tracker market in Latin America.
Key players in the market
Some of the key players in Single Axis Solar Tracker market include Nextracker Inc., Valmont Industries, Inc., Huawei Technologies Co., Ltd., PV Hardware Ltd., Soltec Power Holdings S.L.U., MKS Instruments, Inc., SolAero Technologies LLC, Array Technologies, Inc., Solvest Inc., Enel Green Power S.p.A., Powerway Renewable Energy Co., Ltd, Arctech Solar Holding Co., Ltd. and SunPower Corporation.
In October 2023, Valley Irrigation, a Valmont Industries, Inc. company, and APH Group have announced a partnership spanning multiple countries in Central- and Eastern Europe as well as Asia. The appointment of APH Group as a dealer for Valley® Irrigation equipment perfectly fits within the global agriculture growth strategy of Valley.
In August 2023, Huawei and Ericsson have signed a long-term global patent cross-licensing agreement that covers patents essential to a wide range of standards such as 3GPP, ITU, IEEE, and IETF standards for 3G, 4G, and 5G cellular technologies. The agreement covers the companies' respective sales of network infrastructure and consumer devices, granting both parties global access to each other's patented, standardized technologies.
In March 2023, Nextracker Inc., a leading provider of solar tracking and software solutions, has signed a multi-year volume commitment agreement with Strata Clean Energy to supply 810 megawatts (MW) of trackers for large-scale solar power projects in Texas, Arizona, and Virginia. Consistent with Nextracker's years-long campaign to grow its partnerships with US suppliers, much of the equipment will be sourced from U.S. factories.