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市场调查报告书
商品编码
1725059
2032 年风力水泵市场预测:按类型、组件、容量、最终用户和地区进行的全球分析Wind Powered Water Pumps Market Forecasts to 2032 - Global Analysis By Type, Component, Capacity, End User and By Geography |
根据 Stratistics MRC 的数据,全球风力水泵市场预计在 2025 年将达到 30.7 亿美元,预计到 2032 年将达到 60.6 亿美元,预测期内的复合年增长率为 10.2%。
风力水泵利用风力发电来输送水,通常用于农村和农业供水应用。风力发电机用于将风力发电转化为机械能,为泵浦(通常是旋转泵或活塞泵)提供动力。风力水泵为灌溉、牲畜饮水甚至小规模生活用水提供了一种经济、环保的选择,非常适合电力供应不良的偏远地区。此外,环境友善的水资源管理策略因其低营运成本和最小的环境影响而受益匪浅。
根据国际可再生能源机构(IRENA)的数据,包括风能在内的再生能源来源占2020年全球发电量的29%,预计到2030年这一比例将大幅成长。
日益关注可再生和永续能源
随着世界能源格局向低碳替代能源转变,风力发电已成为主要的可再生资源。支持这一趋势的是风力水泵,它提供了一种零排放的发行和抽水方式,特别是在农业领域。此外,为了减少对石化燃料的依赖,各国政府和国际可再生能源机构(IRENA)等国际组织都在积极支持风力发电技术。随着满足气候变迁目标和减少温室气体排放的紧迫性日益增强,投资的增加也推动了对这些绿色技术的需求。
初始安装成本高
虽然风力水泵可以带来长期的节约,但初始成本可能很高,特别是对于开发中国家的小农户和农村地区。成本还包括安装涡轮机结构、泵送装置、塔架,在某些情况下还包括场地准备和运输。这些成本通常高于太阳能或传统柴油泵系统。此外,在难以获得资金筹措,特别是对于那些优先考虑短期永续性而非长期可持续性的低收入用户而言。
与气候适应性农业计画的整合
由于气候变迁对农业生产力构成重大威胁,越来越多的国家正在投资气候适应农业(CSA)。风力水泵可以成为 CSA 的重要组成部分,因为它们排放气体、营业成本极低,而且不依赖石化燃料。风能还可以更好地管理有限的水资源。此外,政府、非政府组织和多边开发银行可能会支持将风力泵纳入抗旱、土壤保护和永续农业计划的努力,为采用和资金筹措创造新的途径。
缺乏售后服务和技术专业知识
风泵,尤其是机械泵,需要专业知识进行安装和维护。许多农村地区没有足够的技术人员来正确安装和修理这些系统。在缺乏强大的售后服务支援或随时可用的备件的情况下,用户可能会选择比风力系统更容易获得服务网路的技术。此外,风泵的不可靠性将限制口碑广告,从而阻碍新兴市场的成长。
COVID-19 疫情对风力水泵市场产生了多方面的影响。劳动力短缺、供应链瓶颈以及泵送系统生产和安装的延迟导致该行业短期中断,特别是基础设施和农村发展计划。此外,在开发中国家,封锁和旅行限制使得计划进行和维护服务变得困难。但疫情也增加了人们对有弹性、分散式水基础设施的兴趣,因为政府和社区优先考虑离网、永续的解决方案,以确保紧急情况下的供水。
预计叶轮市场在预测期内将占最大份额
预计在预测期内,叶轮部分将占据最大的市场占有率。转子可捕捉风力发电,并将其转化为旋转运动,为泵浦提供动力。叶轮是最重要且应用最广泛的市场部分,因为它们的有效性和设计直接影响泵浦的功率和性能。叶轮的设计具有长寿命和最佳空气动力学性能,使其能够在各种风况下高效运作。此外,由于风力水泵在偏远地区用于灌溉、牲畜饮水和其他农业需求,叶轮在这些系统中的重要性确保了其在市场扩张中的主导地位。
预计灌溉部门在预测期内将实现最高复合年增长率
预计灌溉部门在预测期内将出现最高的成长率。这是因为人们越来越多地使用风力灌溉系统来提高作物产量并减少对传统水源的依赖。农村地区对有效的水资源管理解决方案的需求、政府奖励采用可再生能源的激励措施以及对永续农业实践的需求不断增加是推动这一增长的一些因素。此外,风力水泵透过提供可靠且经济实惠的灌溉解决方案来支持农业部门的发展,特别是在电力供应有限的地区。
预计亚太地区将在预测期内占据最大的市场占有率。中国和印度等国家拥有大量农村人口和农业部门,对环保抽水解决方案的需求很高。支持市场扩张的政府计画包括印度的国家风能太阳能混合政策,该政策旨在安装 10,000 颱风力水泵。此外,由于人们越来越重视采用再生能源来源以及对农业有效水资源管理的需求,亚太地区已成为风力水泵市场的主要参与者。
预计北美地区在预测期内的复合年增长率最高。这种扩张的主要驱动力是对再生能源来源日益增长的需求以及支持环保水资源管理技术的有利立法的存在。到 2023 年,北美将占全球风力水泵市场的 35%。此外,该地区采用绿色技术并致力于解决水资源短缺问题预计将在未来几年进一步推动市场成长。
According to Stratistics MRC, the Global Wind Powered Water Pumps Market is accounted for $3.07 billion in 2025 and is expected to reach $6.06 billion by 2032 growing at a CAGR of 10.2% during the forecast period. Wind-powered water pumps use wind energy to move water, usually for rural or agricultural water supply applications. Water is lifted or moved from wells, boreholes, or surface sources using these systems, which use wind turbines to transform wind energy into mechanical power that powers a pump, usually a rotary or piston pump. Wind-powered water pumps provide an economical and environmentally friendly option for irrigation, livestock watering, and even small-scale household use, making them perfect for isolated locations with poor electrical connectivity. Moreover, eco-friendly water management strategies can benefit greatly from their low operating expenses and minimal environmental impact.
According to the International Renewable Energy Agency (IRENA), renewable energy sources, including wind power, accounted for 29% of global electricity generation in 2020, and this share is expected to grow significantly by 2030.
Increasing attention to renewable and sustainable energy
Wind energy has become a major renewable resource as the world's energy landscape changes toward low-carbon alternatives. This trend is supported by wind-powered water pumps, which provide a zero-emission means of distributing and lifting water, particularly in agriculture. Additionally, to lessen dependency on fossil fuels, governments and international organizations like the International Renewable Energy Agency (IRENA) aggressively support wind-based technologies. Demand for these green technologies is being driven by increased investment in response to the growing urgency to meet climate targets and reduce greenhouse gas emissions.
Expensive initial installation fees
The initial expenses of wind-powered water pumps can be prohibitive, particularly for smallholder farmers and rural communities in developing nations, even though they provide long-term savings. The windmill structure, pump mechanism, tower installation, and occasionally site preparation and transportation are all included in the costs. These expenses are frequently greater than those of solar or traditional diesel pump systems. Furthermore, the capital barrier may deter adoption in places where financing is scarce or subsidies are not available, especially for low-income users who value affordability in the short term over sustainability in the long run.
Integration with programs for climate-resilient agriculture
A growing number of nations are investing in climate-smart agriculture (CSA) as climate change poses a greater threat to agricultural productivity. Because wind-powered water pumps are emission-free, have minimal operating costs, and are not dependent on fossil fuels, they can be positioned as a crucial component of CSA. Better management of limited water resources is also made possible by them. Moreover, governments, NGOs, and multilateral development banks are likely to back initiatives that incorporate wind pumps into programs for drought resilience, soil conservation, or sustainable farming, creating new avenues for adoption and funding.
Limited after-sales support and technical expertise
Wind-powered water pumps, especially mechanical ones, require specialized knowledge to install and maintain. There are not enough skilled technicians in many rural areas to install or fix these systems correctly. Users may choose technologies with more accessible service networks over wind systems if there is a lack of robust after-sales support and easily accessible spare parts. Additionally, this hinders the growth of emerging markets by eroding trust in wind pump dependability and limiting word-of-mouth advertising.
The COVID-19 pandemic affected the market for wind-powered water pumps in a variety of ways. The industry was disrupted in the short term by labor shortages, supply chain failures, and delays in the production and installation of pump systems, especially in infrastructure and rural development projects. Additionally, in developing nations, lockdowns and travel restrictions made it difficult to deploy projects and provide maintenance services. But the pandemic also increased interest in resilient and decentralized water infrastructure, as governments and community's prioritized off-grid, sustainable solutions to guarantee water access in times of emergency.
The rotor blades segment is expected to be the largest during the forecast period
The rotor blades segment is expected to account for the largest market share during the forecast period. Wind energy is captured by rotor blades, which then transform it into rotational motion that powers the pump. They are the most important and extensively utilized market segment since their effectiveness and design have a direct impact on the pump's output and performance. Rotor blades can operate efficiently in a variety of wind conditions because they are designed for longevity and optimal aerodynamic performance. Furthermore, rotor blades' significance in these systems guarantees their leading position in the market's expansion, as wind-powered water pumps are utilized in isolated areas for irrigation, livestock watering, and other agricultural requirements.
The irrigation segment is expected to have the highest CAGR during the forecast period
Over the forecast period, the irrigation segment is predicted to witness the highest growth rate, driven by the growing use of irrigation systems powered by wind to increase crop yields and lessen dependency on conventional water sources. The need for effective water management solutions in rural areas, government incentives encouraging the adoption of renewable energy, and the growing demand for sustainable farming practices are some of the factors contributing to this growth. Moreover, wind-powered water pumps support the growth of the agricultural sector by providing a dependable and affordable irrigation solution, especially in areas with limited access to electricity.
During the forecast period, the Asia Pacific region is expected to hold the largest market share. Countries like China and India are the main drivers of this dominance because of their sizable rural populations and extensive agricultural sectors, which generate a high demand for environmentally friendly water pumping solutions. Government programs that support market expansion include India's National Wind-Solar Hybrid Policy, which aims to install 10,000 wind-powered water pumps. Additionally, APAC is positioned as a major player in the market for wind-powered water pumps due to the region's emphasis on the adoption of renewable energy sources and the necessity of effective water management in agriculture.
Over the forecast period, the North American region is anticipated to exhibit the highest CAGR. The main drivers of this expansion are the rising demand for renewable energy sources and the existence of advantageous laws supporting environmentally friendly water management techniques. North America had a substantial 35% market share in the global market for wind-powered water pumps in 2023. Furthermore, the market's growth is anticipated to be further fueled in the upcoming years by the region's dedication to implementing green technologies and tackling the issues of water scarcity.
Key players in the market
Some of the key players in Wind Powered Water Pumps Market include CNP Pumps India Pvt Ltd., Aermotor Windmill Company Inc., EcoInnovation Ltd., GE Renewable Energy, Bergey Windpower Co., Grundfos Holding A/S, Lorentz, WindEnergy7 LLC, Suzlon Energy Ltd., QED Environmental Systems Ltd, Sweco AB, Lone Star Windmill Company LLC, Graco Inc., Kijito Windpower Ltd and Airwell Group Pty Ltd.
In January 2025, Suzlon Energy Ltd. and Torrent Power Ltd. said they secured a 486 megawatt wind power contract in Gujarat. The deal value was not disclosed. Under the agreement, Suzlon will supply 162 state-of-the-art S144 wind turbine generators with hybrid lattice towers, each rated at 3 MW capacity in the Bhogat region in Gujarat, according to an exchange filing.
In September 2023, Lorentz and Xylem Inc announced they will enter into a distribution agreement to expand the availability of solar-powered pumping systems, globally. These sustainable pumping solutions are commonly used in agriculture, irrigation and drinking water applications, enabling water managers to address decarbonization goals while reducing operating costs.
In December 2022, GE Renewable Energy and Hyundai Electric announced that they have signed a strategic partnership agreement as the next step in their efforts to work together to serve the South Korean offshore wind market. Under the terms of the agreement, Hyundai Electric will serve as a manufacturing associate to help localize assembly of the Haliade-X offshore wind turbines and generators in South Korea.