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市场调查报告书
商品编码
1351129
到 2030 年钢管风电塔市场预测:按产品类型、类型、製造流程、塔高度、用途和地区进行的全球分析Tubular Steel Wind Tower Market Forecasts to 2030 - Global Analysis By Product Type, Type, Manufacturing Process, Tower Height, Application and By Geography |
根据Stratistics MRC统计,2023年全球钢管风电塔筒市场规模为85.172亿美元,预计到2030年将达到158.7224亿美元,预测期内年复合成长率为9.3%。 。
风力发电机系统的关键部件是由钢管製成的风力塔。这为风力发电机的机舱和叶片提供了结构支撑。高强度钢经常用于塔的建造,使其能够耐用地承受恶劣的环境条件。此外,管状钢风塔有各种形状和高度,较高的塔可用于在风力较小的地区捕获更多的能量。除了结构强度外,圆柱形形状还减少了空气阻力,使其适合风力发电生产。
应对气候变迁的需求正在推动世界各地对可再生能源的需求。随着各国致力于减少碳排放并转向更清洁的能源,风能变得越来越重要。为了实现这些可再生能源目标,钢管风塔已成为风力发电机系统的关键零件。此外,由于都市化和电力需求的增加,对分散式能源解决方案的需求不断增加,这也增加了风力塔的价格。
由于风电场通常覆盖大面积土地,因此随着风电场的扩张,可能会出现土地使用衝突。在人口密度或农业生产较高的地区,风能计画可能会与其他用途竞争土地,这可能会导致法律问题和社区反对。此外,风电场还会对环境产生影响,可能危害鸟类族群、扰乱野生动物栖息地并改变景观。这些问题使得风塔计画变得更加复杂和昂贵,需要广泛的环境评估、缓解策略和公众宣传。
由于风力发电机动力学、材料和控制系统,钢管风电塔架市场拥有巨大的潜力。现代风力发电机可以在较低风速下有效地回收能量,这可能会增加对更高、更耐用的塔架的需求,以支援更大、更有效率的涡轮机。此外,混合系统和垂直轴涡轮机等下一代设计的开发也可能为风塔製造商创造新的机会,使其产品线多样化并填补新兴市场的空白。
太阳能、水力发电和天然气等替代和补充能源与风力发电部门竞争。此外,能源成本、技术进步和这些替代方案的地理适用性的差异也会影响投资选择。管状钢风塔市场面临着在多变且多样化的能源形势中保持竞争力的挑战。
钢管风电塔筒市场在各方面都受到了COVID-19疫情的显着影响。由于供应链中断、工厂关闭和劳动力短缺影响了专案进度,该塔的生产和建设最初经历了延误。由于经济不确定性和封锁期间能源需求减少,一些投资者正在重新评估他们对风发电工程的承诺,导致专案取消和延误。然而,随着各国政府逐渐认识到可再生能源对于復原力和经济復苏的价值,许多国家推出了经济奖励策略并改变了政策来支持可再生项目,从而帮助市场復苏。
在钢管风电塔筒市场中,钢管塔筒预计将占据最大的市场份额。钢管塔是首选,因为它们的强度和适应性使其能够适应各种风力发电机尺寸和环境要素。此外,它还易于运输和安装,并且其圆柱形形状减少了空气阻力。常用于陆域和离岸风发电工程,其可靠性和耐用性使其成为配套风力发电机发电机的最佳选择。
离岸风力发电领域在预测期间的年复合成长率最高。在水体(通常是海洋)中安装风力发电机,称为海上风力发电,由于其巨大的未实现潜力和许多优势,包括更强大和更可靠的风速,正在迅速成为行业领先的技术。 。此外,离岸风力发电预计将在实现可再生能源目标和减少碳排放方面发挥重要作用。各国政府和产业相关人员正在大力投资离岸风电项目,特别是在欧洲和美国等离岸风电开发正在加速的地区。
亚太地区占全球钢管风电塔筒的最大份额。中国、印度、日本、韩国和东南亚国家结构了这个地区。由于对风力发电基础设施的大量投资、快速的工业化以及对清洁能源的需求不断增长,亚太地区目前占据了大部分市场。此外,亚太地区由于中国内蒙古、蒙古戈壁滩等地风力资源丰富,成为风电发展的热点,也是钢管风塔市场的主要参与者。市场占有率。
钢管风电塔筒市场年复合成长率最高的是北美。这种扩张主要是由于北美和加拿大越来越多地采用再生能源来源。在国家级法规、企业永续性承诺和可再生能源激励措施的推动下,两国都在积极增加风力发电能力。此外,美国东岸的离岸风电开发也对北美的高成长率做出了重大贡献。该地区钢管风塔市场的成长主要得益于对清洁能源、技术进步和支持性法规环境的关注。
According to Stratistics MRC, the Global Tubular Steel Wind Tower Market is accounted for $8517.20 million in 2023 and is expected to reach $15872.24 million by 2030 growing at a CAGR of 9.3% during the forecast period. A wind turbine system's essential component is a tubular steel wind tower. The nacelle and blades of the wind turbine are supported structurally by it. In most cases, high-strength steel is used to build these towers, giving them the durability needed to withstand the challenging environmental conditions to which they are subjected. Moreover, tubular steel wind towers come in a variety of shapes and heights; taller towers are used to capture more energy in places where the wind blows less frequently. In addition to providing structural strength, their cylindrical shape also reduces aerodynamic drag, making them a good option for the production of wind energy.
According to the wind energy handbook, sources of these loads are divided into four categories: aerodynamic load, gravitational load, inertial loads and operational loads.
The need to combat climate change has increased demand for renewable energy worldwide. Wind power becomes increasingly important as nations make commitments to cut carbon emissions and switch to cleaner energy sources. In order to achieve these renewable energy targets, tubular steel wind towers are essential parts of wind turbine systems. Additionally, the need for distributed energy solutions is fueled by rising urbanization and electricity demand, which raises the price of wind towers.
Land use conflicts may arise with the expansion of wind farms, which frequently cover large areas. Competition for land between wind energy projects and other uses can lead to legal issues and community opposition in areas with a high population density or significant agricultural production. Moreover, wind farms might have an effect on the environment, possibly harming bird populations, upsetting the habitats of wildlife, and changing the landscape. Due to these problems, wind tower projects become more complicated and expensive by calling for extensive environmental assessments, mitigation strategies, and public outreach initiatives.
The market for tubular steel wind towers has a lot of potential thanks to ongoing advancements in wind turbine technology, such as better aerodynamics, materials, and control systems. Modern turbines are more effective at capturing energy at lower wind speeds, which could lead to an increase in demand for taller, more durable towers to support these bigger, more effective turbines. Additionally, new opportunities for wind tower manufacturers to diversify their product lines and fill emerging market niches may arise with the development of next-generation designs like hybrid systems and vertical-axis turbines.
Alternative and complementary energy sources like solar power, hydropower, and natural gas compete with the wind energy sector. Moreover, investment choices may be influenced by the varying cost of energy, technological advancements, and geographic suitability of these alternatives. The market for tubular steel wind towers faces the challenge of remaining competitive in a fluid and diverse energy landscape.
The tubular steel wind tower market was significantly impacted by the COVID-19 pandemic in a number of ways. Tower production and construction initially experienced delays that impacted project schedules due to supply chain disruptions, factory closings, and labor shortages. Some investors re-evaluated their commitments to wind energy projects as a result of the unpredictability of the economy and the decreased energy demand during lockdowns, which led to project cancellations or delays. However, as governments came to understand the value of renewable energy for resilience and economic recovery, many of them introduced stimulus plans and changed their policies to support renewable projects, which ultimately assisted in the market's recovery.
In the market for wind turbine towers, tubular steel towers are anticipated to hold the largest market share. Due to their strength and adaptability, tubular steel towers are preferred because they can be used with a variety of wind turbine sizes and environmental factors. Moreover, they are easy to transport and install, and their cylindrical shape reduces aerodynamic drag. They are frequently used for both onshore and offshore wind energy projects, and because of their dependability and durability, they have been the top option for supporting wind turbine generators.
The segment for offshore wind energy had the highest CAGR over the forecast period. The installation of wind turbines in bodies of water-typically the ocean-is known as offshore wind energy and has been rapidly expanding because of its enormous unrealized potential and a number of benefits, including stronger and more reliable wind speeds. Additionally, offshore wind farms are thought to play a significant role in helping to achieve renewable energy targets and lower carbon emissions. Especially in places like Europe and the United States, where offshore wind development has accelerated; governments and industry stakeholders have been making significant investments in offshore wind projects.
Asia-Pacific holds the largest market share for tubular steel wind towers worldwide. China, India, Japan, South Korea, and several Southeast Asian countries are among the many nations that make up this region. Due to its substantial investments in wind energy infrastructure, rapid industrialization, and rising demand for clean energy sources, Asia-Pacific currently controls the majority of the market. Moreover, the Asia-Pacific region is a hotspot for the development of wind power due to the region's abundant wind resources in places like Inner Mongolia in China and the Gobi Desert in Mongolia, which also contributes to its sizeable share in the market for tubular steel wind towers.
North America had the highest CAGR in the market for tubular steel wind towers. This expansion was primarily attributed to North America's and Canada's growing adoption of renewable energy sources. Due to state-level regulations, corporate sustainability commitments, and incentives for renewable energy, both nations have been actively increasing their wind energy capacity. Moreover, the United States East Coast's offshore wind development also made a significant contribution to North America's high rate of growth. The region's growth in the tubular steel wind tower market has been significantly fueled by its emphasis on clean energy, technological advancements, and supportive regulatory environments.
Some of the key players in Tubular Steel Wind Tower market include: CS Wind Corporation, Tianneng Electric Power, Baolong Equipment, Marmen Industries, Ge Zhouba Group, Chengxi Shipyard, Valmont, DONGKUK S&C , Broadwind, Harbin Red Boiler Group, CNR Wind Turbine, Haili Wind Power, Huayuan, Enercon, Dajin Heavy Industry, Qingdao Pingcheng, Titan Wind Energy, Miracle Equipment, Trinity Structural Towers and Shanghai Taisheng.
In July 2023, South Korean wind tower maker CS Wind has signed an agreement to purchase Bladt Industries, a Danish offshore engineering company, from Nordic Capital for Won26.9bn. With the acquisition of Bladt, CS Wind now aims to transfer its production management and technology experience to the development of global substructures, boosting its competitiveness in the offshore wind market.
In June 2023, Saudi Arabia's Knowledge Economic City (KEC) has signed a framework agreement with China Gezhouba Group International Engineering Company (CGGC) to support the development of the Saudi company's projects.Under the six-month agreement, CGGC will cooperate in the engineering, procurement, and construction (EPC) phase for KEC projects, such as Hub Residence, Al-Alya mixed-use project, and South Area infrastructure, the company said in a statement to the Saudi stock exchange.
In March 2022, Tianneng signed a strategic cooperation framework agreement with State Grid Huzhou Power Supply Company. The two sides will deepen exchanges and cooperation in energy storage, microgrid, energy services, scientific research, and party building to help China achieve its 2030 renewable energy development target and its carbon neutrality target.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.