Europe Industrial Water & Wastewater Pump Market Report: Trends, Growth and Forecast (2026-2032)
By Pump Type (Centrifugal Pumps (End Suction, Split Case, Vertical (Turbine, Axial Pump, Mixed Flow Pump), Submersible Pump), Positive Displacement Pumps (Progressing Cavity, Diaphragm, Gear Pump, Others)), By Application (Water, Wastewater), By Country (Germany, UK, France, Italy, Spain, Poland, Benelux, Rest of Europe)
- Energy & Power
- Feb 2026
- VI0922
- 150
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Europe Industrial Water & Wastewater Pump Market Statistics and Insights, 2026
- Market Size Statistics
- Europe industrial water & wastewater pump market is estimated at USD 1.22 billion in 2025.
- The market size is expected to grow to USD 1.48 billion by 2032.
- Market to register a cagr of around 2.8% during 2026-32.
- Pump Type Shares
- Centrifugal pumps grabbed market share of 85%.
- Competition
- More than 10 companies are actively engaged in producing industrial water & wastewater pump in Europe.
- Top 5 companies acquired around 70% of the market share.
- Ebara Corporation; Flowserve Corporation; Pentair plc; Grundfos Holding A/S; Wilo SE etc., are few of the top companies.
- Application
- Water grabbed 55% of the market.
- Country
- Germany leads with a 30% share of the Europe market.
Europe Industrial Water & Wastewater Pump Market Outlook
Industrial water & wastewater pump market revenue in Europe was valued at $1.22 billion in 2025 and will reach $1.48 billion by 2032, registering a CAGR of 2.8% between 2026 and 2032. The growth of the industry, to a great extent, depends upon effective regulatory support in Europe. In this context, a new version of the UWWTD, as of January 1, 2025, requires a greater level of compliance, such as compulsory tertiary treatment for large installations by 2039, as well as increased sanitation duties for smaller towns by 2035. Meanwhile, with collections and treatments of wastage at 82% and secondary treatments at 81% for the population, there is incessant pressure to develop existing infrastructure instead of extending reach, which essentially promotes demand for industrial water & wastewater pumps.
Additional regulatory requirements further improve the forecast. A mandatory monitoring requirement for microplastics and PFAS pollutants starting from December 16, 2025, boosts the demand for high-performance pumping technology for tertiary and advanced treatment processes. "The polluter pays principle requiring industries to pay for at least 80% of the cost for advanced treatment, and the long implementation period until 2039, ensure a multi-year upgrade and replacement cycle for Europe."
In addition, the expansion is tempered by the fact that it is constrained by funding limitations. It is projected that the European population faces a gap of 255 billion euros in the infrastructure for its water supplies by the year 2030. The regional population is under conditions of permanentwater scarcity, impacting 30% of the population of the entire European Union.
In terms of market structure, centrifugal pumps occupy a leading position with an 85% share because of their efficiency for continuous operation at a higher flow rate. Water applications occupy the next position with a 55% share due to applications in water supply, reuse schemes, and water level monitoring. The largest geographical share is from Germany with a 30% share because of higher industrialization, early adoption of EU law, and continuous infrastructure development, thereby making it an important factor in driving market growth through 2032.
Europe Industrial Water & Wastewater Pump Market Growth Driver
Regulatory Compliance Accelerates Infrastructure and Equipment Modernization
Regulatory enforcement in Europe represents one of the key drivers in determining investment in the European industrial water and wastewater pump market. The new Urban Wastewater Treatment Directive, which came into action on January 1, 2025, requires tougher standards, including tertiary treatment of large-scale wastewater treatment plants by 2039 and extended sanitation commitments for small-scale communities by 2035. Since only 82% of wastewater collection and treatment is in compliance, and only 81% of the population has access to secondary treatment, there is a constant need to upgrade rather than expand. This has a direct bearing on increased purchases of industrial pumps with higher hydraulic loading, tertiary levels, and continuous operation.
Other commitments required under the directive, like microplastic and PFAS substances monitoring, which became obligatory as from December 16, 2025, further accelerate the need for high-tech pumping technology. "The polluter pays" component of the directive requires industries to bear at least 80% of high-tech treatment technology, thus pushing industries, the ultimate consumers, to invest in high-tech centrifugal pumps involved in advanced tertiary or oxidative treatments. Another significant aspect of the directive is that the implementation period ends in 2039, thus providing an "implementation period with multiple years of replacement" for the necessary water and/or wastewater centrifugal pumps in Europe.
Europe Industrial Water & Wastewater Pump Market Challenge
Capital Constraints and Water Stress Limit Infrastructure Upgrade Momentum
Capital availability still turns out as a vital restraining factor in the predictability of growth in the Europe industrial water & wastewater pump market despite high regulatory demands. Water Infrastructure Investment Challenge: An estimated fund gap of€255 billionfor Europe’s water infrastructure by 2030 is driven primarily by risks of water scarcity and the need for the modernization of existing infrastructure. In Europe, 29.4% of its population and 28% of its surface area are under chronic permanent water scarcity conditions on an average annual basis, thus putting at€192 billionthe continuity of Water-Intensive Sectors like semiconductors, Data Centers, Hydrogen production, and Electric Vehicle Battery Manufacturing.
The dearth of funding abilities compels utilities to focus mainly on regions that need timely compliance or high risk, thereby deferring purchases in areas of lesser stress. The scenario chips away at the need for heeding demands created by unexpected, emergency-based purchases rather than targeted upgrading initiatives. The lack of funding opportunities for pump makers translates into protracted project durations, patchy demand trends, and more competition among companies competing for infrastructure budgets within the forecasting period of 2026-2032.
Europe Industrial Water & Wastewater Pump Market Trend
Digital Transformation Reshapes Water Infrastructure Operations
Digitalization appears to be an emerging trend that is expected to have a definitive influence on the specification and procurement of equipment in the Europe Industrial Water & Wastewater Pumps market. The European Union’s Water Resilience Strategy approved in June 2025 recognizes digital infrastructure as a cornerstone of efficiency enhancements and non-revenue water loss reduction in deteriorating infrastructure. These actions are reinforced by initiatives laid down in the Action Plan on Digitalisation in the Water Sector that aims to improve the quality of fragmented data and water utility systems via interoperable platforms, Europe-wide digital procurement principles, and innovative financial arrangements that enable technology investment.
The importance of smart pumping solutions and a digital maturity tool is further recognized by the utilities regarding the potential for cost savings through the implementation of smart pumping solutions using real-time monitoring systems, variable frequency drives, and energy management platforms. The Water Resilience Dashboard is a standardized digital solution that sets organizational standards for digital adoption for the member countries. These trends trigger a constant demand for smart pumping solutions that can be used for predictive maintenance or performance analysis.
Europe Industrial Water & Wastewater Pump Market Opportunity
Advanced Treatment and Water Reuse Open New Growth Pathways
Rising demands for water reuse and new approaches related to water treatment technology provide substantial long-term potential for the Europe industrial water & wastewater pump market. The revised Urban Wastewater Treatment Directive focuses on the use of reuse technology in water-stressed areas, together with Microplastics and PFAS treatment technology as a mandatory requirement starting December 16, 2025. These demands create market potential for such specialized pump units, which can handle water depending on the varying chemical properties of the reused water.
The opportunity landscape is also supported by institutional investments. The European Investment Bank’s Water Resilience Programme has the goal of triggering the global investments of €40 billion for the treatment upgrade and reuse infrastructure for the period of 2025 to 2027. Apart from the usage of the treatment network for the purpose of urbanization, the new emerging industries of green hydrogen production are accompanied by the production of ultrapure water input that undergoes advanced processing. The trends establish the potential of the pump manufacturers to trigger the incremental demand for the products through the period of 2032.
Europe Industrial Water & Wastewater Pump Market Country Analysis
By Country
- Germany
- UK
- France
- Italy
- Spain
- Poland
- Benelux
- Rest of Europe
Germany holds approximately 30% share of the Europe industrial water & wastewater pump market, underpinned by its strong industrial base, advanced manufacturing capabilities, and stringent environmental regulations. Full compliance with the Urban Wastewater Treatment Directive positions Germany as a regulatory benchmark within Europe, strengthening domestic expertise in advanced treatment technologies and compliance driven equipment solutions. This mature ecosystem supports demand across chemicals, pharmaceuticals, and heavy manufacturing sectors that require reliable, high efficiency pumping systems.
Continued investment in water infrastructure and access to European Investment Bank financing reinforce Germany’s leadership role. The country’s early adoption of advanced treatment solutions, including water reuse and microplastics removal systems mandated under the revised directive effective 2025, enables domestic manufacturers to export proven technologies across Europe. As coordinated EU investment frameworks expand infrastructure development across member states, Germany’s technical expertise and compliance experience position it as a central driver of regional market growth through 2032.
Europe Industrial Water & Wastewater Pump Market Segmentation Analysis
By Pump Type
- Centrifugal Pumps
- End Suction
- Split Case
- Vertical
- Turbine
- Axial Pump
- Mixed Flow Pump
- Submersible Pump
- Positive Displacement Pumps
- Progressing Cavity
- Diaphragm
- Gear Pump
- Others
Centrifugal pumps dominate the Europe industrial water & wastewater pump market, accounting for approximately 85% of total market share due to their versatility, efficiency, and suitability for high flow applications. These pumps are integral to wastewater treatment operations, supporting sewage transfer, sludge handling, effluent circulation, and pressure boosting across secondary and tertiary treatment stages. Industrial end users rely heavily on centrifugal technology for standardized process fluid handling, heating and cooling circulation, and continuous operations where reliability and scalability are essential.
Regulatory emphasis on energy efficiency further reinforces centrifugal pump dominance. Standards such as EN 17038 defining Energy Efficiency Index calculation and long standing EU EcoDesign requirements drive manufacturers to develop high performance models meeting IE3 and IE4 efficiency classifications. As lifecycle cost considerations increasingly influence procurement decisions, centrifugal pumps offering superior efficiency ratings and reduced energy consumption are favored by utilities and industrial end users seeking compliance with sustainability targets under the European Green Deal.
By Application
- Water
- Wastewater
Water applications represent the leading application segment, holding approximately 55% market share within the Europe industrial water & wastewater pump market. This dominance reflects sustained demand from municipal water supply networks, industrial process cooling systems, and expanding water reuse infrastructure requiring consistent pressure management and circulation. Utilities across Europe operate extensive pipeline networks supporting millions of residents, necessitating continuous replacement and maintenance of pumping equipment to address leakage, pressure regulation, and service reliability across aging and upgraded systems.
Growth in water reuse initiatives further strengthens this segment’s position. In regions experiencing permanent water stress, reclaimed water systems require pumps capable of managing treated water with variable mineral and quality characteristics. Additionally, new monitoring obligations for microplastics and PFAS create incremental demand for sampling and circulation pumps supporting compliance testing and validation processes. These factors ensure water focused applications remain the primary demand driver through the 2026-2032 forecast period as end users prioritize water security and quality assurance.
Various Market Players in Europe Industrial Water & Wastewater Pump Market
The companies mentioned below are highly active in the Europe industrial water & wastewater pump market, occupying a considerable portion of the market and shaping industry progress.
- Ebara Corporation
- Flowserve Corporation
- Pentair plc
- Grundfos Holding A/S
- Wilo SE
- KSB SE & Co. KGaA
- Xylem Inc.
- Sulzer Ltd.
- ITT Inc.
- DAB PUMPS S.p.A.
Market News & Updates
- Grundfos Holding A/S, 2025:
Grundfos launched Smart Adapt circulator pumps with AI-assisted intelligent controls for variable load operations in HVAC networks and strengthened European market leadership through the strategic acquisition of Culligan's Commercial & Industrial operations in Italy, France, and the UK completed in September 2024. The acquisition of Culligan's business, which recorded turnover exceeding EUR 100 million in 2023, significantly broadens Grundfos' product and service portfolio for industrial and commercial clients, enabling expansion into pharmaceutical, food & beverage, and manufacturing sectors while reinforcing the company's commitment to IE4 and IE5 motor technologies and digital control systems driving energy efficiency.
- Wilo SE, 2025:
Wilo introduced the advanced Wilo-Rexa SOLID-Q with Nexos Intelligence, an intelligent submersible sewage pump deployed successfully in Hamburg, Germany, achieving 90%+ system efficiency through automatic clogging detection, remote monitoring, and IE5 motor technology with intelligent speed control. This innovative solution addresses the growing challenges in European wastewater management posed by increasing solids and fibrous material retention, combining high-efficiency hydraulic design with digital connectivity and autonomous adaptation to changing operational conditions, significantly reducing maintenance requirements and energy consumption for municipal and industrial wastewater treatment applications.
Frequently Asked Questions
Related Report
1. Market Segmentation
1.1. Research Scope
1.2. Research Methodology
1.3. Definitions and Assumptions
2. Executive Summary
3. Europe Industrial Water & Wastewater Pump Market Policies, Regulations, and Standards
4. Europe Industrial Water & Wastewater Pump Market Dynamics
4.1. Growth Factors
4.2. Challenges
4.3. Trends
4.4. Opportunities
5. Europe Industrial Water & Wastewater Pump Market Statistics, 2022-2032F
5.1. Market Size & Growth Outlook
5.1.1.By Revenues in USD Million
5.1.2.By Units Sold (Million Units)
5.2. Market Segmentation & Growth Outlook
5.2.1.By Pump Type
5.2.1.1. Centrifugal Pumps- Market Insights and Forecast 2022-2032, USD Million
5.2.1.1.1. End Suction- Market Insights and Forecast 2022-2032, USD Million
5.2.1.1.2. Split Case- Market Insights and Forecast 2022-2032, USD Million
5.2.1.1.3. Vertical- Market Insights and Forecast 2022-2032, USD Million
5.2.1.1.3.1. Turbine- Market Insights and Forecast 2022-2032, USD Million
5.2.1.1.3.2. Axial Pump- Market Insights and Forecast 2022-2032, USD Million
5.2.1.1.3.3. Mixed Flow Pump- Market Insights and Forecast 2022-2032, USD Million
5.2.1.1.4. Submersible Pump- Market Insights and Forecast 2022-2032, USD Million
5.2.1.2. Positive Displacement Pumps- Market Insights and Forecast 2022-2032, USD Million
5.2.1.2.1. Progressing Cavity- Market Insights and Forecast 2022-2032, USD Million
5.2.1.2.2. Diaphragm- Market Insights and Forecast 2022-2032, USD Million
5.2.1.2.3. Gear Pump- Market Insights and Forecast 2022-2032, USD Million
5.2.1.2.4. Others- Market Insights and Forecast 2022-2032, USD Million
5.2.2.By Application
5.2.2.1. Water- Market Insights and Forecast 2022-2032, USD Million
5.2.2.2. Wastewater- Market Insights and Forecast 2022-2032, USD Million
5.2.3.By Country
5.2.3.1. Germany
5.2.3.2. UK
5.2.3.3. France
5.2.3.4. Italy
5.2.3.5. Spain
5.2.3.6. Poland
5.2.3.7. Benelux
5.2.3.8. Rest of Europe
5.2.4.By Competitors
5.2.4.1. Competition Characteristics
5.2.4.2. Market Share & Analysis
6. Germany Industrial Water & Wastewater Pump Market Statistics, 2022-2032F
6.1. Market Size & Growth Outlook
6.1.1.By Revenues in USD Million
6.1.2.By Units Sold (Million Units)
6.2. Market Segmentation & Growth Outlook
6.2.1.By Pump Type- Market Insights and Forecast 2022-2032, USD Million
6.2.2.By Application - Market Insights and Forecast 2022-2032, USD Million
7. UK Industrial Water & Wastewater Pump Market Statistics, 2022-2032F
7.1. Market Size & Growth Outlook
7.1.1.By Revenues in USD Million
7.1.2.By Units Sold (Million Units)
7.2. Market Segmentation & Growth Outlook
7.2.1.By Pump Type- Market Insights and Forecast 2022-2032, USD Million
7.2.2.By Application - Market Insights and Forecast 2022-2032, USD Million
8. France Industrial Water & Wastewater Pump Market Statistics, 2022-2032F
8.1. Market Size & Growth Outlook
8.1.1.By Revenues in USD Million
8.1.2.By Units Sold (Million Units)
8.2. Market Segmentation & Growth Outlook
8.2.1.By Pump Type- Market Insights and Forecast 2022-2032, USD Million
8.2.2.By Application - Market Insights and Forecast 2022-2032, USD Million
9. Italy Industrial Water & Wastewater Pump Market Statistics, 2022-2032F
9.1. Market Size & Growth Outlook
9.1.1.By Revenues in USD Million
9.1.2.By Units Sold (Million Units)
9.2. Market Segmentation & Growth Outlook
9.2.1.By Pump Type- Market Insights and Forecast 2022-2032, USD Million
9.2.2.By Application - Market Insights and Forecast 2022-2032, USD Million
10. Spain Industrial Water & Wastewater Pump Market Statistics, 2022-2032F
10.1. Market Size & Growth Outlook
10.1.1. By Revenues in USD Million
10.1.2. By Units Sold (Million Units)
10.2. Market Segmentation & Growth Outlook
10.2.1. By Pump Type- Market Insights and Forecast 2022-2032, USD Million
10.2.2. By Application - Market Insights and Forecast 2022-2032, USD Million
11. Poland Industrial Water & Wastewater Pump Market Statistics, 2022-2032F
11.1. Market Size & Growth Outlook
11.1.1. By Revenues in USD Million
11.1.2. By Units Sold (Million Units)
11.2. Market Segmentation & Growth Outlook
11.2.1. By Pump Type- Market Insights and Forecast 2022-2032, USD Million
11.2.2. By Application - Market Insights and Forecast 2022-2032, USD Million
12. Benelux Industrial Water & Wastewater Pump Market Statistics, 2022-2032F
12.1. Market Size & Growth Outlook
12.1.1. By Revenues in USD Million
12.1.2. By Units Sold (Million Units)
12.2. Market Segmentation & Growth Outlook
12.2.1. By Pump Type- Market Insights and Forecast 2022-2032, USD Million
12.2.2. By Application - Market Insights and Forecast 2022-2032, USD Million
13. Competitive Outlook
13.1. Company Profiles
13.1.1. Grundfos Holding A/S
13.1.1.1. Business Description
13.1.1.2. Product Portfolio
13.1.1.3. Collaborations & Alliances
13.1.1.4. Recent Developments
13.1.1.5. Financial Details
13.1.1.6. Others
13.1.2. Wilo SE
13.1.2.1. Business Description
13.1.2.2. Product Portfolio
13.1.2.3. Collaborations & Alliances
13.1.2.4. Recent Developments
13.1.2.5. Financial Details
13.1.2.6. Others
13.1.3. KSB SE & Co. KGaA
13.1.3.1. Business Description
13.1.3.2. Product Portfolio
13.1.3.3. Collaborations & Alliances
13.1.3.4. Recent Developments
13.1.3.5. Financial Details
13.1.3.6. Others
13.1.4. Xylem Inc.
13.1.4.1. Business Description
13.1.4.2. Product Portfolio
13.1.4.3. Collaborations & Alliances
13.1.4.4. Recent Developments
13.1.4.5. Financial Details
13.1.4.6. Others
13.1.5. Sulzer Ltd.
13.1.5.1. Business Description
13.1.5.2. Product Portfolio
13.1.5.3. Collaborations & Alliances
13.1.5.4. Recent Developments
13.1.5.5. Financial Details
13.1.5.6. Others
13.1.6. Ebara Corporation
13.1.6.1. Business Description
13.1.6.2. Product Portfolio
13.1.6.3. Collaborations & Alliances
13.1.6.4. Recent Developments
13.1.6.5. Financial Details
13.1.6.6. Others
13.1.7. Flowserve Corporation
13.1.7.1. Business Description
13.1.7.2. Product Portfolio
13.1.7.3. Collaborations & Alliances
13.1.7.4. Recent Developments
13.1.7.5. Financial Details
13.1.7.6. Others
13.1.8. Pentair plc
13.1.8.1. Business Description
13.1.8.2. Product Portfolio
13.1.8.3. Collaborations & Alliances
13.1.8.4. Recent Developments
13.1.8.5. Financial Details
13.1.8.6. Others
13.1.9. ITT Inc.
13.1.9.1. Business Description
13.1.9.2. Product Portfolio
13.1.9.3. Collaborations & Alliances
13.1.9.4. Recent Developments
13.1.9.5. Financial Details
13.1.9.6. Others
13.1.10. DAB PUMPS S.p.A.
13.1.10.1.Business Description
13.1.10.2.Product Portfolio
13.1.10.3.Collaborations & Alliances
13.1.10.4.Recent Developments
13.1.10.5.Financial Details
13.1.10.6.Others
14. Disclaimer
| Segment | Sub-Segment |
|---|---|
| By Pump Type |
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| By Application |
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| By Country |
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Research Methodology
This study followed a structured approach comprising four key phases to assess the size and scope of the electro-oxidation market. The process began with thorough secondary research to collect data on the target market, related markets, and broader industry context. These findings, along with preliminary assumptions and estimates, were then validated through extensive primary research involving industry experts from across the value chain. To calculate the overall market size, both top-down and bottom-up methodologies were employed. Finally, market segmentation and data triangulation techniques were applied to refine and validate segment-level estimations.
Secondary Research
The secondary research phase involved gathering data from a wide range of credible and published sources. This step helped in identifying industry trends, defining market segmentation, and understanding the market landscape and value chain.
Sources consulted during this phase included:
- Company annual reports, investor presentations, and press releases
- Industry white papers and certified publications
- Trade directories and market-recognized databases
- Articles from authoritative authors and reputable journals
- Gold and silver standard websites
Secondary research was critical in mapping out the industry's value chain and monetary flow, identifying key market segments, understanding regional variations, and tracking significant industry developments.
Other key sources:
- Financial disclosures
- Industry associations and trade bodies
- News outlets and business magazines
- Academic journals and research studies
- Paid industry databases
Primary Research
To validate secondary data and gain deeper market insights, primary research was conducted with key stakeholders across both the supply and demand sides of the market.
On the demand side, participants included decision-makers and influencers from end-user industries—such as CIOs, CTOs, and CSOs—who provided first-hand perspectives on market needs, product usage, and future expectations.
On the supply side, interviews were conducted with manufacturers, industry associations, and institutional participants to gather insights into current offerings, product pipelines, and market challenges.
Primary interviews provided critical inputs such as:
- Market size and revenue data
- Product and service breakdowns
- Market forecasts
- Regional and application-specific trends
Stakeholders consulted included:
- Leading OEM and solution providers
- Channel and distribution partners
- End users across various applications
- Independent consultants and industry specialists
Market Size Estimation and Data Triangulation
- Identifying Key Market Participants (Secondary Research)
- Goal: To identify the major players or companies in the target market. This typically involves using publicly available data sources such as industry reports, market research publications, and financial statements of companies.
- Tools: Reports from firms like Gartner, Forrester, Euromonitor, Statista, IBISWorld, and others. Public financial statements, news articles, and press releases from top market players.
- Extracting Earnings of Key Market Participants
- Goal: To estimate the earnings generated from the product or service being analyzed. This step helps in understanding the revenue potential of each market player in a specific geography.
- Methods: Earnings data can be gathered from:
- Publicly available financial reports (for listed companies).
- Interviews and primary data sources from professionals, such as Directors, VPs, SVPs, etc. This is especially useful for understanding more nuanced, internal data that isn't publicly disclosed.
- Annual reports and investor presentations of key players.
- Data Collation and Development of a Relevant Data Model
- Goal: To collate inputs from both primary and secondary sources into a structured, data-driven model for market estimation. This model will incorporate key market KPIs and any independent variables relevant to the market.
- Key KPIs: These could include:
- Market size, growth rate, and demand drivers.
- Industry-specific metrics like market share, average revenue per customer (ARPC), or average deal size.
- External variables, such as economic growth rates, inflation rates, or commodity prices, that could affect the market.
- Data Modeling: Based on this data, the market forecasts are developed for the next 5 years. A combination of trend analysis, scenario modeling, and statistical regression might be used to generate projections.
- Scenario Analysis
- Goal: To test different assumptions and validate how sensitive the market is to changes in key variables (e.g., market demand, regulatory changes, technological disruptions).
- Types of Scenarios:
- Base Case: Based on current assumptions and historical data.
- Best-Case Scenario: Assuming favorable market conditions, regulatory environments, and technological advancements.
- Worst-Case Scenario: Accounting for adverse factors, such as economic downturns, stricter regulations, or unexpected disruptions.
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