Hydro Turbine Market By Type of Turbine (Impulse Turbines, Reaction Turbines), Capacity (Small Hydro Turbines, Medium Hydro Turbines, Large Hydro Turbines), Application (Hydropower Generation, Industrial Applications, Marine and Naval Applications), & Region for 2024-2031
Published on: 2024-08-03 | No of Pages : 320 | Industry : latest updates trending Report
Publisher : MIR | Format : PDF&Excel
Hydro Turbine Market By Type of Turbine (Impulse Turbines, Reaction Turbines), Capacity (Small Hydro Turbines, Medium Hydro Turbines, Large Hydro Turbines), Application (Hydropower Generation, Industrial Applications, Marine and Naval Applications), & Region for 2024-2031
Hydro Turbine Market Valuation – 2024-2031
The rising energy demands, environmental concerns, and technological breakthroughs are driving up the demand for hydro turbines. Hydro turbines are a vital component of the renewable energy industry since they are essential in utilizing the tremendous power of water to produce electricity by enabling the market to surpass a revenue of USD 1935.49 Million valued in 2024 and reach a valuation of around USD 2353.57 Million by 2031.
The demand for hydro turbines stems from the necessity to switch to renewable energy sources to slow down global warming. In contrast to fossil fuels which have a major negative impact on the environment and greenhouse gas emissions, the production of hydroelectric power generates zero carbon emissions. Because of its benefits to the environment, hydroelectricity is now the go-to choice in the global search for sustainable energy sources by enabling the market to grow at a CAGR of 2.73% from 2024 to 2031.
Hydro Turbine MarketDefinition/ Overview
Hydro Turbine is an electrical source that can be produced to convert the kinetic energy of flowing water into mechanical energy. It is an essential part of hydroelectric power plants which use the force of moving water to generate clean energy. Hydro turbines are designed and operate differently depending on the available head (the vertical distance between the turbine and the water source), flow rate, and type of water source (river, dam, or tidal). Hydro turbines typically consist of the runner, shaft, blades, and casing, among other important parts.
Hydro powers are the power generators to generate electricity. Hydro turbines come in a variety of forms each appropriate for a particular set of circumstances and power generation needs. Francis, Pelton, and Kaplan turbines are the most popular varieties. Francis turbines are frequently utilized in medium to high-head installations because of their adaptability and capacity to run under various water flow and head conditions. Conversely, Pelton turbines work best in high-head, low-flow scenarios where water jets are directed onto buckets shaped like spoons that are fixed to a revolving wheel. Kaplan turbines which are frequently employed in river and tidal power generation perform well in low head situations with high flow rates.
Technological developments aiming at maximizing the efficiency of hydro turbines are what will determine their future. Scientists and engineers are investigating new materials and design ideas to create turbines that can capture energy more effectively in a wider variety of flow circumstances. Refinements in material science and fluid dynamics along with sophisticated computational modeling methods are propelling efforts to reduce energy losses and optimize power production in turbine blades and other components.
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How will Increasing Demand for Cheap Electricity Produced by Hydro Turbines Drive the Hydro Turbine Market?
As the epitome of renewable energy, hydropower has numerous advantages that make it a more and more desirable option for producing electricity on a global scale. One of the main benefits of hydropower is that it is a clean and sustainable fuel substitute since it doesn’t release greenhouse gases or other air pollutants. The emergence of hydropower projects is a major step towards attaining carbon neutrality and minimizing environmental effects as society struggles with the pressing need to counteract climate change.
Developments in technology have been crucial in bringing down the price of producing hydropower. Improvements in turbine designs and advanced monitoring and control systems have simplified the procedure and raised overall efficiency. Because of this, the cost of producing hydroelectricity has dropped dramatically making it more and more competitive with conventional methods that use fossil fuels. According to studies, the cost of producing hydropower can be up to 40% lower than that of comparable fossil fuel-based alternatives making it a financially feasible way to satisfy the world’s expanding energy needs.
The dual problems of energy security and climate change can be effectively addressed by hydropower. It is positioned as a key renewable energy source in the shift to a sustainable energy future because of its high efficiency, low cost, and capacity to produce electricity without emitting greenhouse gases. Hydropower has the potential to be a key component of the global energy solution while preserving the environment for coming generations provided that it is developed strategically and continues to make technological improvements.
How will Costly Installation and Other Charges Hamper the Hydro Turbine Market?
Hydropower turbines which provide a dependable and continuous source of electricity with a high capacity factor have been addressed as the cornerstone of renewable energy. However several obstacles prevent them from being widely used, the most significant of which being the extremely expensive installation costs and the complex infrastructure needed to support them. These obstacles not only impede the initial installation of hydropower turbines but also make it more difficult to correct any technological errors which drives up maintenance costs and significantly restrains the expansion of the market globally.
The complex and sometimes remote settings of many hydroelectric installations make maintenance of hydropower turbines an additional expensive challenge. Not only are routine maintenance and repairs logistically difficult but they also call for specific knowledge and tools which greatly increases operating expenses. Moreover, maintenance teams have a harder time accessing many hydropower plants because of their distant location which causes longer downtime and higher mobilization and logistical costs. The economic feasibility of hydroelectric projects is further strained by these high maintenance costs which discourage private and governmental investment and impede market growth.
Therefore, hydropower turbines offer a high capacity factor and a reliable source of renewable energy, their widespread adoption is hindered by a host of challenges including high installation costs, complex infrastructure requirements, and elevated maintenance expenses. These barriers not only deter investment and development but also amplify the financial risks associated with hydropower projects stalling market growth on a global scale. However, with continued advancements in technology, project management, and financing coupled with strategic integration with other renewable energy sources, the hydropower turbine market holds promise for overcoming these challenges and emerging as a cornerstone of the transition to a sustainable energy future.
Category-Wise Acumens
How will the Fueling Demand for Innovative Designs for Turbines Drive the Type Segment?
The impulse turbine segment gained significant traction securing a strong 63% revenue share. Unlike other turbine types, these turbines function based on the basic principle of impulse. Impulse turbines are made specifically for high-head applications and are capable of effectively capturing the kinetic energy of rapidly flowing water. They can perform exceptionally well in situations where the water flow has a significant velocity and energy potential because of their design.
The unique benefit of impulse turbines is that they may be easily modified for use in high-head hydropower projects especially in areas with rough terrain and an abundance of water resources. Because of their intricate designs and high operational efficiency, they are the best option for utilizing the enormous energy potential found in rapidly moving water bodies. Impulse turbines are particularly effective at capturing the most energy possible from the kinetic force of the water streams in these types of settings where water falls quickly over sharp gradients.
Therefore, the hydro turbine market is supported by the impulse turbine sector which generates a substantial portion of revenue and propels the global expansion of renewable energy generation. Because of its distinct working principles and adaptability for high-head hydropower projects, it is the best option for capturing the energy of swiftly flowing water in areas with rough terrain. Impulse turbines are positioned to play an increasingly important role in addressing the world’s expanding energy needs while mitigating environmental effects as the worldwide shift towards renewable energy increases.
Will the Increasing Deployment of Small Hydropower Projects Drive the Capacity Segment?
Low-head turbine adoption in the hydro turbine market saw a notable uptick accounting for a dominant 42% of the market share. These turbines, which are designed to specifically serve locations with low hydraulic head conditions typically up to 30 meters represent a significant breakthrough in hydroelectric technology. The unique design elements and increased operational efficiency that low-head turbines provide in situations where conventional hydro turbines find it difficult to function at their best are the driving forces behind this rapid uptake.
Low-head turbines are perfect for a variety of applications because they are carefully designed to perform well in low-head, high-flow situations. Because of the intricate design, they may effectively extract energy from sources of water with a low vertical drop, opening up new areas for power generation that were previously thought to be unsuitable for conventional hydroelectric plants. Because of their versatility, low-head turbines are now regarded as a key component of run-of-river hydropower projects. In these projects, the kinetic energy of flowing water is harnessed to produce electricity without the need for sizable reservoirs or significant alterations to natural watercourses.
Low-head turbine sales in the hydro turbine industry seem to be headed toward more expansion and innovation. Low-head turbines will become more and more important in the renewable energy landscape as the world moves faster toward renewable energy due to the need to mitigate climate change and provide energy security. Their capacity to capture the potential energy of water flowing in low-head settings represents a paradigm change toward decentralized, ecologically friendly energy production, promoting resilience and self-sufficiency in energy systems across the globe. Essentially, the rise of low-head turbines signals the beginning of a new chapter in hydroelectric innovation, one in which the power of water is responsibly and effectively utilized to power a sustainable future.
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Country/Region-wise Acumens
How will the Emergence of Small And Mini Hydropower Installations Drive the Asia Pacific Region?
The Asia-Pacific hydro turbine industry is expanding rapidly driven mostly by the rapid development of China and India. Both countries are systematically dedicating large sums of money to hydroelectric projects to meet their constantly increasing energy needs. This coordinated effort shows a strong dedication to maximizing the possibilities of renewable energy sources especially hydropower which provides a dependable and long-term energy solution for the area. Across the region, there is a noticeable trend toward the construction of tiny and mini hydropower installations.
Tiny hydropower plants are becoming more common which is a deliberate shift from traditional large-scale hydroelectric operations. These smaller-scale projects are designed to meet local energy needs especially in isolated and rural locations with possible poor grid connectivity. These installations provide a decentralized method of energy generation by utilizing smaller water sources like rivers, streams, and irrigation canals promoting resilience and energy independence among nearby communities. Furthermore, small hydropower projects are a desirable alternative for ecologically sensitive areas where ecosystem preservation is of utmost importance due to their comparatively minimal environmental impact.
Therefore, the Asia-Pacific hydro turbine market is expanding remarkably at the moment largely due to significant investments made in hydropower projects by nations like China and India. Small and micro hydropower projects are starting to appear which indicates a trend toward decentralized and ecologically friendly energy sources. At the same time, as digitization spreads quickly, hydropower generation’s operating environment is changing. In the future, sustained investment in digitalization technologies and hydropower infrastructure will be essential to supply the region’s growing energy needs sustainably while minimizing environmental effects.
Will the Increasing Demand For Specialized Turbines Drive the Region of Europe?
Due to its continuous commitment to renewable energy sources, Europe is currently leading the way in a stunning comeback in the hydro turbine sector. The continent’s growing focus on offshore hydropower projects especially in the vast seas of the North Sea is a clear indicator of this revival. These projects are acting as major catalysts driving a spike in demand for turbines designed specifically to meet the opportunities and problems that come with offshore installations.
The European hydro turbine industry is changing thanks to the incorporation of digital technologies. Technological developments in automation, control systems, and data analytics are empowering operators to improve the hydropower facilities, dependability, safety, and operational efficiency. Digital solutions are enabling stakeholders to preventively address possible concerns through real-time monitoring and predictive maintenance capabilities ultimately avoiding downtime and optimizing asset performance. Furthermore, digitalization is making it easier for hydropower to be seamlessly integrated into the larger energy system improving grid stability and enabling greater coordination with variable renewable energy sources.
Therefore, Europe’s hydro turbine market is experiencing a remarkable resurgence driven by a combination of factors including the continent’s commitment to renewable energy, the proliferation of offshore hydropower projects, the transition to high-efficiency turbines, and the integration of digital technologies. As European nations strive to achieve their ambitious renewable energy targets and combat climate change, hydropower emerges as a pivotal component of the energy transition. The emphasis on sustainability, grid integration, and technological innovation continues to shape the evolution of the hydro turbine market paving the way for a cleaner, more resilient, and sustainable energy future for Europe and beyond.
Competitive Landscape
The hydro turbine market is a dynamic and competitive space characterized by diverse players vying for market share. These players are on the run for solidifying their presence through the adoption of strategic plans such as collaborations, mergers, acquisitions, and political support. The organizations are focusing on innovating their product line to serve the vast population in diverse regions.
Some of the prominent players operating in the hydro turbine market include
- General Electric Company
- Siemens AG
- Andritz AG
- Voith Group
- Toshiba Corporation
- Bharat Heavy Electricals Limited (BHEL)
- Mitsubishi Heavy Industries, Ltd.
- Harbin Electric Company Limited
- Alstom Hydro
- The Columbia Machine Works, Inc.
- Flovel Energy Private Limited
- Canyon Hydro
- CKD Blansko Engineering, a.s.
- Toshiba Hydro Power (Hangzhou) Co., Ltd.
- WWS Wasserkraft GmbH
Hydro Turbine Market Latest Developments
- In October 2021, Siemens Energy and Voith Hydro, a German technology business of the Voith Group with a focus on hydropower, formed a joint venture. Siemens Energy is expected to be able to concentrate mostly on energy storage and transportation, decarbonizing industrial processes, and producing electricity with negligible or no CO2 emissions as a result.
- In May 2022, As a support service for renewable energy power providers, Toshiba Energy Systems & Solutions introduced the “Renewable Energy Aggregation Service.” Toshiba Group wants the entire VPP division to generate revenues of about 21 billion yen by FY 2025.
Report Scope
REPORT ATTRIBUTES | DETAILS |
---|---|
Study Period | 2021-2031 |
Growth Rate | CAGR of ~2.73% from 2024 to 2031 |
Base Year for Valuation | 2024 |
Historical Period | 2021-2023 |
Forecast Period | 2024-2031 |
Quantitative Units | Value in USD Million |
Report Coverage | Historical and Forecast Revenue Forecast, Historical and Forecast Volume, Growth Factors, Trends, Competitive Landscape, Key Players, Segmentation Analysis |
Segments Covered |
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Regions Covered |
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Key Players | General Electric Company, Siemens AG, Andritz AG, Voith Group, Toshiba Corporation, Bharat Heavy Electricals Limited (BHEL), Mitsubishi Heavy Industries, Ltd., Harbin Electric Company Limited, Alstom Hydro, The Columbia Machine Works, Inc., Flovel Energy Private Limited, Canyon Hydro, CKD Blansko Engineering, a.s., Toshiba Hydro Power (Hangzhou) Co., Ltd., WWS Wasserkraft GmbH |
Customization | Report customization along with purchase available upon request |
Hydro Turbine Market, By Category
Type of Turbine
- Impulse Turbines
- Reaction Turbines
Capacity
- Small Hydro Turbines
- Medium Hydro Turbines
- Large Hydro Turbines
Application
- Hydropower Generation
- Industrial Applications
- Marine and Naval Applications
Region
- North America
- Europe
- Asia-Pacific
- South America
- Middle East & Africa
Research Methodology of Market Research
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Reasons to Purchase this Report
• Qualitative and quantitative analysis of the market based on segmentation involving both economic as well as non-economic factors• Provision of market value (USD Billion) data for each segment and sub-segment• Indicates the region and segment that is expected to witness the fastest growth as well as to dominate the market• Analysis by geography highlighting the consumption of the product/service in the region as well as indicating the factors that are affecting the market within each region• Competitive landscape which incorporates the market ranking of the major players, along with new service/product launches, partnerships, business expansions, and acquisitions in the past five years of companies profiled• Extensive company profiles comprising of company overview, company insights, product benchmarking, and SWOT analysis for the major market players• The current as well as