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Water & Wastewater Treatment

Global Water Treatment Valves Market 2025–2035: USD 12.65B to USD 21.13B Growth

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Analyze the global water treatment valves market 2020–2035 by type, material, region, and growth opportunities driving industry trends.

SKU: 80005    Pages: 500   Format: PDF   Delivery: Upto 24 to 48 hrs

Introduction

  • The global Water Treatment Industry Valves Market is poised for significant expansion, with its valuation projected to reach USD 12,655.8 million in 2025, driven by rising demand for efficient fluid management solutions across municipal, industrial, and commercial water treatment facilities.
  • Over the forecast period, the market is expected to grow steadily and achieve a value of approximately USD 21,139.85 million by 2035, reflecting a sustained need for advanced valve technologies that enhance water quality, ensure operational reliability, and support large-scale infrastructure upgrades.
  • With a CAGR of about 5.45% from 2025 to 2035, the sector’s growth is being shaped by stricter environmental regulations, increasing urbanization, and the adoption of smart water management systems that integrate automation and digital monitoring.

SWOT Analsyis

1. Strengths
1.1. Growing adoption of advanced valve technologies for precision flow control in water treatment plants.
1.2. Strong demand from both municipal and industrial water management projects worldwide.
1.3. Continuous innovation in smart and automated valve systems improving efficiency and reliability.
1.4. Established global players with robust supply chains ensuring product availability.

2. Weaknesses
2.1. High installation and maintenance costs limiting adoption in price-sensitive regions.
2.2. Dependence on raw material price fluctuations affecting production margins.
2.3. Limited skilled workforce for operating and maintaining advanced valve systems.
2.4. Fragmentation in regional markets creating challenges for standardization.

3. Opportunities
3.1. Rising investments in sustainable water infrastructure and wastewater recycling projects.
3.2. Integration of IoT and digital monitoring solutions into valve systems.
3.3. Expansion in emerging economies with rapid urbanization and growing water demand.
3.4. Increasing government initiatives to ensure clean water access and stricter water quality regulations.

4. Threats
4.1. Intense competition from low-cost local manufacturers impacting pricing strategies.
4.2. Potential delays in large-scale infrastructure projects due to economic uncertainties.
4.3. Environmental and regulatory compliance challenges raising operational costs.
4.4. Risk of supply chain disruptions impacting timely availability of critical components.

Segment and Key players

1. By Valve Type
1.1. Gate Valves
1.2. Globe Valves
1.3. Ball Valves
1.4. Butterfly Valves
1.5. Check Valves
1.6. Diaphragm Valves
1.7. Pressure Relief Valves

2. By Material
2.1. Stainless Steel
2.2. Cast Iron
2.3. Bronze
2.4. Plastic
2.5. Alloy-Based

3. By Application
3.1. Municipal Water Treatment
3.2. Industrial Water & Wastewater Treatment
3.3. Desalination Plants
3.4. Power Generation Water Systems
3.5. Food & Beverage Processing
3.6. Pharmaceuticals & Chemicals

4. By End-User
4.1. Municipal & Utilities
4.2. Industrial Sector
4.3. Commercial Sector

5. By Region
5.1. North America
5.1.1. United States
5.1.2. Canada
5.1.3. Mexico
5.2. Europe
5.2.1. Germany
5.2.2. United Kingdom
5.2.3. France
5.2.4. Italy
5.2.5. Spain
5.2.6. Rest of Europe
5.3. Asia-Pacific
5.3.1. China
5.3.2. India
5.3.3. Japan
5.3.4. South Korea
5.3.5. Australia
5.3.6. Rest of Asia-Pacific
5.4. Middle East & Africa
5.4.1. Saudi Arabia
5.4.2. United Arab Emirates
5.4.3. South Africa
5.4.4. Rest of Middle East & Africa
5.5. Latin America
5.5.1. Brazil
5.5.2. Argentina
5.5.3. Rest of Latin America

6. Key Players
6.1. Emerson Electric Co.
6.2. Flowserve Corporation
6.3. AVK Holding A/S
6.4. KSB SE & Co. KGaA
6.5. Mueller Water Products, Inc.
6.6. Crane Co.
6.7. Schlumberger Limited (Cameron International)
6.8. ITT Inc.
6.9. Watts Water Technologies, Inc.
6.10. Weir Group PLC

 

 

 

1. Executive Summary

2. Research Methodology

3. Market Overview
3.1. Market Definition and Scope
3.2. Market Dynamics
3.2.1. Drivers
3.2.2. Restraints
3.2.3. Opportunities
3.2.4. Challenges
3.3. Industry Value Chain Analysis
3.4. Porter’s Five Forces Analysis
3.5. Regulatory Landscape

4. Market Size and Forecast (2025–2035)
4.1. Global Market Size
4.2. Regional Market Size Breakdown

5. Market Segmentation Analysis
5.1. By Valve Type
5.1.1. Gate Valves
5.1.2. Globe Valves
5.1.3. Ball Valves
5.1.4. Butterfly Valves
5.1.5. Check Valves
5.1.6. Diaphragm Valves
5.1.7. Pressure Relief Valves

5.2. By Material
5.2.1. Stainless Steel
5.2.2. Cast Iron
5.2.3. Bronze
5.2.4. Plastic
5.2.5. Alloy-Based

5.3. By Application
5.3.1. Municipal Water Treatment
5.3.2. Industrial Water & Wastewater Treatment
5.3.3. Desalination Plants
5.3.4. Power Generation Water Systems
5.3.5. Food & Beverage Processing
5.3.6. Pharmaceuticals & Chemicals

5.4. By End-User
5.4.1. Municipal & Utilities
5.4.2. Industrial Sector
5.4.3. Commercial Sector

6. Regional Analysis
6.1. North America
6.1.1. United States
6.1.2. Canada
6.1.3. Mexico
6.2. Europe
6.2.1. Germany
6.2.2. United Kingdom
6.2.3. France
6.2.4. Italy
6.2.5. Spain
6.2.6. Rest of Europe
6.3. Asia-Pacific
6.3.1. China
6.3.2. India
6.3.3. Japan
6.3.4. South Korea
6.3.5. Australia
6.3.6. Rest of Asia-Pacific
6.4. Middle East & Africa
6.4.1. Saudi Arabia
6.4.2. United Arab Emirates
6.4.3. South Africa
6.4.4. Rest of Middle East & Africa
6.5. Latin America
6.5.1. Brazil
6.5.2. Argentina
6.5.3. Rest of Latin America

7. Competitive Landscape
7.1. Market Share Analysis of Key Players
7.2. Company Profiles
7.2.1. Emerson Electric Co.
7.2.2. Flowserve Corporation
7.2.3. AVK Holding A/S
7.2.4. KSB SE & Co. KGaA
7.2.5. Mueller Water Products, Inc.
7.2.6. Crane Co.
7.2.7. Schlumberger Limited (Cameron International)
7.2.8. ITT Inc.
7.2.9. Watts Water Technologies, Inc.
7.2.10. Weir Group PLC

8. Future Outlook and Market Forecast (2025–2035)

9. Conclusion and Strategic Recommendations

Segment and Key players

1. By Valve Type
1.1. Gate Valves
1.2. Globe Valves
1.3. Ball Valves
1.4. Butterfly Valves
1.5. Check Valves
1.6. Diaphragm Valves
1.7. Pressure Relief Valves

2. By Material
2.1. Stainless Steel
2.2. Cast Iron
2.3. Bronze
2.4. Plastic
2.5. Alloy-Based

3. By Application
3.1. Municipal Water Treatment
3.2. Industrial Water & Wastewater Treatment
3.3. Desalination Plants
3.4. Power Generation Water Systems
3.5. Food & Beverage Processing
3.6. Pharmaceuticals & Chemicals

4. By End-User
4.1. Municipal & Utilities
4.2. Industrial Sector
4.3. Commercial Sector

5. By Region
5.1. North America
5.1.1. United States
5.1.2. Canada
5.1.3. Mexico
5.2. Europe
5.2.1. Germany
5.2.2. United Kingdom
5.2.3. France
5.2.4. Italy
5.2.5. Spain
5.2.6. Rest of Europe
5.3. Asia-Pacific
5.3.1. China
5.3.2. India
5.3.3. Japan
5.3.4. South Korea
5.3.5. Australia
5.3.6. Rest of Asia-Pacific
5.4. Middle East & Africa
5.4.1. Saudi Arabia
5.4.2. United Arab Emirates
5.4.3. South Africa
5.4.4. Rest of Middle East & Africa
5.5. Latin America
5.5.1. Brazil
5.5.2. Argentina
5.5.3. Rest of Latin America

6. Key Players
6.1. Emerson Electric Co.
6.2. Flowserve Corporation
6.3. AVK Holding A/S
6.4. KSB SE & Co. KGaA
6.5. Mueller Water Products, Inc.
6.6. Crane Co.
6.7. Schlumberger Limited (Cameron International)
6.8. ITT Inc.
6.9. Watts Water Technologies, Inc.
6.10. Weir Group PLC

 

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Frequently Asked Questions

Frequently Asked Questions

Why are advanced valve technologies becoming critical in the water treatment industry today?

With growing demand for clean water and stricter global environmental regulations, advanced valve technologies are essential for ensuring precise flow control, reducing energy losses, and improving overall plant efficiency. Their role in smart, automated systems makes them a core component of modern water treatment facilities.

Which sectors are driving the strongest demand for water treatment valves?

Beyond municipal utilities, industries such as pharmaceuticals, food & beverage, power generation, and chemical processing are significantly increasing demand, as these sectors require highly reliable valves to maintain water purity, meet compliance standards, and support sustainable production processes.

How is digitalization transforming the water treatment valves market?

The integration of IoT-enabled monitoring, predictive maintenance, and remote control features is revolutionizing valve operations. Digitalization not only enhances performance tracking but also reduces downtime and extends valve lifespan, making it a major growth catalyst in this market.

Which regions are emerging as the most dynamic markets for water treatment valves?

Asia-Pacific is witnessing the fastest growth, driven by urbanization, industrial expansion, and large-scale government projects for water security. Meanwhile, North America and Europe remain strong due to modernization of aging infrastructure and adoption of smart water management systems.

What challenges could slow down the growth of the water treatment valves market?

High upfront costs, raw material price volatility, and competition from low-cost local manufacturers pose challenges. Additionally, the lack of skilled workforce for managing advanced valve systems may slow adoption in certain regions.

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