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市场调查报告书
商品编码
1359893
高压帮浦市场 - 全球产业规模、份额、趋势、机会和预测。 2018-2028F 按类型、压力、最终用户、地区、竞争。High-Pressure Pumps Market - Global Industry Size, Share, Trends, Opportunity, and Forecast. 2018-2028F By Type, By Pressure, By End-User By Region, Competition. |
预计全球高压帮浦市场在 2024-2028 年预测期内将稳定成长。石油和天然气、製造、采矿和化学等多个行业不断发展的工业化推动了对高压泵的需求。在工业环境中,这些泵浦对于涉及流体输送、清洁、材料去除和液压应用的操作至关重要。高压泵用于控制液压机械、透过管道泵送流体以及为各种工业操作提供压力。石油和天然气领域的钻井作业、油井增产和提高采收率 (EOR) 方法都需要它们。此外,石油和天然气的需求快速增长,因此在预测期内对高压泵的需求不断增加。
此外,由于车辆製造的需求不断增长,预计高压泵市场将在预测期内迅速扩大。此外,泵浦的製造已经将3D列印技术与机器仿真相结合,带动了泵浦设计、更换和维修的发展,进而增加了对高压泵浦的需求,为该领域带来了市场机会。未来几年。
高压帮浦的工作压力范围为 20 bar 至 3000 bar。高压柱塞泵可用于多种任务,包括海水淡化、逆渗透、工业清洗、锅炉给水泵、水力采矿站、管道压力测试、燃气涡轮机细水雾喷射、汽车燃油喷射、消防系统和水雾喷射。由于高压帮浦的性能范围如此广泛,因此可以为任何应用设计理想的帮浦解决方案。
市场概况 | |
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预测期 | 2024-2028 |
2022 年市场规模 | 215.4亿美元 |
2028 年市场规模 | 284.9亿美元 |
2023-2028 年复合年增长率 | 4.83% |
成长最快的细分市场 | 石油和天然气 |
最大的市场 | 北美洲 |
钻井作业需要高压帮浦。它们提供使钻井液(泥浆)循环通过钻头、环空并返回钻桿所需的压力,从而冷却钻头、将钻屑输送到地面并稳定井眼。高压泵用于保持井孔稳定性、提高钻井速度并确保有效的钻井作业。
城市化、人口成长和环境问题推动了水和废水处理需求的成长。逆渗透、超滤和海水淡化都严重依赖高压泵,导致水处理产业的成长。例如,2021 年 11 月,凯米拉提高了在英国生产水处理化学品的能力。由于这项发展,古尔的铁基水处理化学品的年产量增加了约 100 千吨。 2021年1月,该公司还增加了3万吨化学处理产能,这是埃尔斯米尔港生产的铝基水处理化学品的数量。由于对水和废水处理的需求不断增长,在预测期内对高压帮浦的需求也在增加。
现代工业流程需要高压帮浦来进行精确的清洁、切割和表面处理。这些操作变得更加自动化并依赖技术。这些泵浦对于汽车、航空航太和电子等行业的有效和可靠运作至关重要。此外,高压帮浦的开发重点是能源效率,从而降低功耗和营运成本。随着节能和永续发展成为越来越重要的关注点,对节能高压帮浦的需求不断增长。
此外,公路、火车和建筑物等基础设施开发案的混凝土喷射、灌浆和压力测试等职位也需要高压帮浦。随着全球建筑活动的成长,预计对高压帮浦的需求将会增加。例如,在未来几年中,由于新兴经济体建筑活动的增加,建筑业预计将扩大。中国、巴西、印度、沙乌地阿拉伯和印尼是建筑业活跃的新兴经济体。例如,国家统计局报告称,建筑业对中国GDP的贡献从2019年的6.2%上升到2020年的25.9%。建筑活动的快速增加导致高压泵市场成长。此外,水力拆除越来越受欢迎,因为它是一种从建筑和维护项目中拆除混凝土的非破坏性方法。为了去除退化或损坏的混凝土而不造成额外损坏,它采用高压水柱。此外,随着水力拆除需求的增加,高压帮浦变得越来越重要。
高压帮浦市场正受到工业环境中工业物联网实施的影响。 IIoT 使泵浦和其他系统能够通讯和交换资料,从而改善监控、性能优化和预防性维护。停机时间和运作效率均得到改善。由于材料和涂层的发展,高压帮浦的耐用性和可靠性得到了改善。耐腐蚀材料、耐磨涂层和高强度零件的使用都是创新的例子。这些进步延长了泵浦的使用寿命,并且需要更少的维护。
全球高压帮浦市场报告以及给定的市场资料,技术科学研究根据公司的具体需求提供客製化服务。该报告可以使用以下自订选项:
Global High-Pressure Pumps Market is anticipated to grow at a steady pace in the forecast period 2024-2028. The demand for high-pressure pumps is being driven by the growing industrialization across several industries, including oil and gas, manufacturing, mining, and chemicals. In industrial environments, these pumps are essential for operations involving fluid transfer, cleaning, material removal, and hydraulic applications. High pressure pumps are utilized to control hydraulic machinery, pump fluids through pipelines, and supply pressure for a variety of industrial operations. They are required for drilling operations, well stimulation, and enhanced oil recovery (EOR) methods in the oil and gas sector. Additionally, the demand for oil and gas is growing rapidly, due to which the requirement for High-Pressure Pumps is increasing in the forecast period.
Additionally, due to the rising need for the manufacturing of vehicles, the high-pressure pump market is anticipated to expand rapidly over the course of the projected period. Furthermore, the manufacturing of pumps has seen the integration of 3D printing technology with machine simulation, leading to the development in pump design, replacement, and repair which, in turn, increases the demand for high-pressure pumps, presenting a market opportunity in the years to come.
High-pressure pumps work in the 20 bars to 3000 bar pressure range. High-pressure plunger pumps can be used for a wide range of tasks, including desalination, reverse osmosis, industrial cleaning, boiler feed pumps, hydraulic mining stations, stress tests for pipelines, water mist injection for gas turbines, automobile fuel injection, firefighting systems, and water mist injection. Since high-pressure pumps' performance range is so wide-ranging, the ideal pump solution may be devised for any application.
Market Overview | |
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Forecast Period | 2024-2028 |
Market Size 2022 | USD 21.54 Billion |
Market Size 2028 | USD 28.49 Billion |
CAGR 2023-2028 | 4.83% |
Fastest Growing Segment | Oil & Gas |
Largest Market | North America |
Drilling operations require high-pressure pumps. They supply the pressure needed to circulate drilling fluids (mud) through the bit, through the annulus, and back down the drill pipe, which cools the drill bit, transports cuttings to the surface, and stabilizes the wellbore. High-pressure pumps are used to maintain wellbore stability, increase drilling rates, and assure effective drilling operations.
Additionally, techniques like hydraulic fracturing (fracking) that stimulate wells use high-pressure pumps. Fracking is the process of creating cracks in a reservoir formation by pumping fluids under high pressure. Pumps that can produce the necessary pressure and flow rates are purchased in order to stimulate the reservoir and boost output. As oil and gas demand is growing rapidly, the Global High-Pressure Pumps Market is expected to grow in the future. For instance, to a record 101.7 mb/d in 2023, the world's oil consumption is anticipated to increase by 1.9 mb/d.
A rise in demand for water and wastewater treatment is being driven by urbanization, population growth, and environmental concerns. Reverse osmosis, ultrafiltration, and desalination, all depend heavily on high-pressure pumps, leading to the growth of water treatment sector. For instance, in November 2021, Kemira increased its ability to produce chemicals for water treatment in the United Kingdom. The yearly output of ferric-based water treatment chemicals in Goole has risen by approximately 100 kilotonnes because of this development. In January 2021, the company was also raised by 30,000 tones chemical treatment capacity, which is the amount of aluminum-based water treatment chemicals produced at Ellesmere Port. Due to rising demand for water and wastewater treatment, the requirement for high-pressure pumps is also growing in the forecast period.
Modern industrial processes require high-pressure pumps for precise cleaning, cutting, and surface preparation. These operations have become more automated and reliant on technology. These pumps are essential to the effective and dependable functioning of sectors, including automotive, aerospace, and electronics. Moreover, high-pressure pumps are being developed with an emphasis on energy efficiency, which lowers power consumption and operating costs. The demand for energy-efficient high-pressure pumps is rising as energy conservation and sustainability become more and more significant concerns.
Additionally, high-pressure pumps are necessary for positions like concrete spraying, grouting, and pressure testing on infrastructure development projects like the building of roads, trains, and buildings. The demand for high-pressure pumps is anticipated to increase as growth in building activities spread around the globe. For instance, over the next several years, the construction industry is anticipated to expand due to the rising building activity in emerging economies. China, Brazil, India, Saudi Arabia, and Indonesia were among the emerging economies with active building sectors. For instance, the National Bureau of Statistics reported that the contribution of the construction industry to China's GDP increased from 6.2% in 2019 to 25.9% in 2020. The high-pressure pump market grew as a result of the quick increase in construction activities. Moreover, Hydro demolition has been in rising popularity since it is a non-destructive approach to removing concrete from building and maintenance projects. To remove degraded or damaged concrete without causing additional damage, it employs high-pressure water jets. Also, high-pressure pumps are becoming more and more essential as the demand for hydro demolition rises.
The market for high-pressure pumps is being impacted by the implementation of IIoT in industrial settings. IIoT makes it possible for pumps and other systems to communicate and exchange data, improving monitoring, performance optimization, and preventative maintenance. Both downtime and operating efficiency are improved. The durability and dependability of high-pressure pumps have improved because of developments in materials and coatings. The use of corrosion-resistant materials, wear-protective coatings, and high-strength components are examples of innovations. These advancements lengthen the useful life of pumps and require less maintenance.
The Global High-Pressure Pumps Market is divided into type, pressure, end-user, and region. Based on type, the market is segmented into Dynamic High-Pressure Pump and Positive Displacement High Pressure Pump. Based on pressure, the market is segmented into 30 Bar-100 Bar, 101-500 Bar, And Above 500 Bar. Based on end-user, the market is segmented into Oil & Gas, Power Generation, Chemical & Pharmaceuticals, and Manufacturing Industries. Based on region, the market is divided in North America, Asia-Pacific, Europe, South America, Middle East & Africa
Major market players in the Global High-Pressure Pumps Market are Grundfos, Andritz AG, GEA Group AG, Comet S.p.A, Danfoss Group, Sulzer Ltd., The Weir Group PLC., CAT Pumps, Teledyne Isco, Zhejiang Danau Industries Co., Ltd, Udor S.P.A.
In this report, the Global High-Pressure Pumps Market has been segmented into following categories, in addition to the industry trends which have also been detailed below:
Company Profiles: Detailed analysis of the major companies present in the Global High-Pressure Pumps Market.
Global High-Pressure Pumps Market report with the given market data, Tech Sci Research offers customizations according to a company's specific needs. The following customization options are available for the report: