Global Power Plant Valves Market

Name: Global Power Plant Valves Market
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Table of Content

1. Executive Summary

2. Market Research Methodology
2.1. Research methodology and design
2.2. Sample selection
2.3. Reliability and validity

3. Market Breakdown by Valve Type (2022-2032)
3.1. Introduction
3.2. Gas-Steam Combined Power Plant
3.2.1. Control Valves
3.2.1.1. Sliding pressure control valves
3.2.1.2. Feedwater control valves
3.2.1.3. HP/LP turbine bypass control valves
3.2.1.4. Boiler recirculation control valves
3.2.1.5. Spray valves (superheater and reheater)
3.2.1.6. Seal steam control valves
3.2.2. Isolation Valves
3.2.2.1. Gate valves
3.2.2.2. Globe valves
3.2.2.3. Butterfly valves
3.2.2.4. Ball valves
3.2.3. Safety and Relief Valves
3.2.3.1. MSSVs
3.2.3.2. Reheat safety valves
3.2.3.3. Power-operated relief valves (PORVs)
3.2.3.4. Blowdown valves
3.2.4. Drain and Vent Valves
3.2.4.1. High-temperature drain valves
3.2.4.2. Condensate drain valves
3.2.4.3. Air vent valves
3.2.5. Pressure-Reducing Valves
3.2.5.1. Start-up bypass valves
3.2.5.2. Turbine bypass valves
3.2.6. Non-Return Valves
3.2.6.1. Check valves
3.3. Coal-Fired Power Plant
3.3.1. Control Valves
3.3.1.1. Sliding pressure control valves
3.3.1.2. Feedwater control valves
3.3.1.3. HP/LP turbine bypass control valves
3.3.1.4. Boiler recirculation control valves
3.3.1.5. Spray valves (superheater and reheater)
3.3.2. Isolation Valves
3.3.2.1. Gate valves
3.3.2.2. Globe valves
3.3.2.3. Butterfly valves
3.3.2.4. Ball valves
3.3.3. Safety and Relief Valves
3.3.3.1. MSSVs
3.3.3.2. Reheat safety valves
3.3.3.3. Power-operated relief valves (PORVs)
3.3.3.4. Blowdown valves
3.3.4. Drain and Vent Valves
3.3.4.1. High-temperature drain valves
3.3.4.2. Condensate drain valves
3.3.5. Pressure-Reducing Valves
3.3.5.1. Start-up bypass valves
3.3.5.2. Turbine bypass valves
3.3.6. Non-Return Valves
3.3.6.1. Check valves
3.4. Geothermal Power Plant
3.4.1. Control Valves
3.4.1.1. Feedwater control valves
3.4.1.2. Boiler recirculation control valves
3.4.2. Isolation Valves
3.4.2.1. Gate valves
3.4.2.2. Globe valves
3.4.3. Safety and Relief Valves
3.4.3.1. MSSVs
3.4.4. Drain and Vent Valves
3.4.4.1. High-temperature drain valves
3.4.5. Pressure-Reducing Valves
3.4.5.1. Start-up bypass valves
3.4.6. Non-Return Valves
3.4.6.1. Check valves
3.5. Biomass Power Plant
3.5.1. Control Valves
3.5.1.1. Sliding pressure control valves
3.5.1.2. Feedwater control valves
3.5.1.3. Boiler recirculation control valves
3.5.2. Isolation Valves
3.5.2.1. Gate valves
3.5.2.2. Globe valves
3.5.2.3. Ball valves
3.5.3. Safety and Relief Valves
3.5.3.1. Reheat safety valves
3.5.4. Drain and Vent Valves
3.5.4.1. High-temperature drain valves
3.5.5. Pressure-Reducing Valves
3.5.5.1. Turbine bypass valves
3.6. Waste-to-Energy Power Plant
3.6.1. Control Valves
3.6.1.1. Sliding pressure control valves
3.6.1.2. Feedwater control valves
3.6.1.3. Boiler recirculation control valves
3.6.2. Isolation Valves
3.6.2.1. Gate valves
3.6.2.2. Globe valves
3.6.3. Safety and Relief Valves
3.6.3.1. MSSVs
3.6.4. Drain and Vent Valves
3.6.4.1. Condensate drain valves
3.6.5. Non-Return Valves
3.6.5.1. Check valves
3.7. Nuclear Power Plant
3.7.1. Control Valves
3.7.1.1. Sliding pressure control valves
3.7.1.2. Feedwater control valves
3.7.1.3. Boiler recirculation control valves
3.7.1.4. Seal steam control valves
3.7.2. Isolation Valves
3.7.2.1. Gate valves
3.7.2.2. Globe valves
3.7.2.3. Butterfly valves
3.7.3. Safety and Relief Valves
3.7.3.1. MSSVs
3.7.3.2. Reheat safety valves
3.7.3.3. Power-operated relief valves (PORVs)
3.7.3.4. Blowdown valves
3.7.4. Drain and Vent Valves
3.7.4.1. High-temperature drain valves
3.7.4.2. Air vent valves
3.7.5. Pressure-Reducing Valves
3.7.5.1. Turbine bypass valves

4. Market Breakdown by Function (2022-2032)
4.1. Introduction
4.2. Gas-Steam Combined Power Plant
4.2.1. Boiler Systems
4.2.2. Steam Systems
4.2.3. Turbine Systems
4.2.4. Condenser Systems
4.2.5. Feedwater Systems
4.2.6. Deaerator Systems
4.3. Coal-Fired Power Plant
4.3.1. Boiler Systems
4.3.2. Steam Systems
4.3.3. Turbine Systems
4.3.4. Condenser Systems
4.3.5. Feedwater Systems
4.3.6. Deaerator Systems
4.4. Geothermal Power Plant
4.4.1. Boiler Systems
4.4.2. Steam Systems
4.4.3. Turbine Systems
4.4.4. Condenser Systems
4.4.5. Feedwater Systems
4.4.6. Deaerator Systems
4.5. Biomass Power Plant
4.5.1. Boiler Systems
4.5.2. Steam Systems
4.5.3. Condenser Systems
4.5.4. Feedwater Systems
4.6. Waste-to-Energy Power Plant
4.6.1. Boiler Systems
4.6.2. Steam Systems
4.6.3. Condenser Systems
4.6.4. Feedwater Systems
4.7. Nuclear Power Plant
4.7.1. Boiler Systems
4.7.2. Steam Systems
4.7.3. Turbine Systems
4.7.4. Condenser Systems
4.7.5. Feedwater Systems
4.7.6. Deaerator Systems

5. Market Breakdown by Valve Material (2022-2032)
5.1. Introduction
5.2. High-Performance Alloys
5.3. Stainless Steel
5.4. Cast Iron and Carbon Steel
5.5. Composite and Coated Materials
5.6. Others

6. Market Breakdown by End-User (2022-2032)
6.1. Introduction
6.2. Utilities
6.3. Independent Power Producers (IPPs)
6.4. Industrial End-Users

7. Market Breakdown by Standards and Certifications (2022-2032)
7.1. Introduction
7.2. ASME
7.3. DIN
7.4. Other Certifications
7.5. Non-Code

8. Market Breakdown by Geography (2022-2032)
8.1. North America
8.1.1. U.S.
8.1.2. Canada
8.1.3. Mexico
8.2. South America
8.2.1. Brazil
8.2.2. Argentina
8.2.3. Others
8.3. Europe
8.3.1. Germany
8.3.2. France
8.3.3. U.K.
8.3.4. Russia
8.3.5. Italy
8.3.6. Spain
8.3.7. Sweden
8.3.8. Belgium
8.3.9. Austria
8.3.10. Denmark
8.3.11. Switzerland
8.3.12. Netherlands
8.3.13. Others
8.4. Asia-Pacific
8.4.1. China
8.4.2. Japan
8.4.3. South Korea
8.4.4. India
8.4.5. Australia
8.4.6. Others
8.5.Middle East & Africa
8.5.1. South Africa
8.5.2. Saudi Arabia
8.5.3. UAE
8.5.4. Israel
8.5.5. Others

9. Market Breakdown by Valve Cost % in Power Plant
9.1. Introduction
9.2. Gas-Steam Combined Power Plant
9.2.1. Control Valves
9.2.2. Isolation Valves
9.2.3. Safety and Relief Valves
9.2.4. Drain and Vent Valves
9.2.5. Pressure-Reducing Valves
9.2.6. Non-Return Valves
9.3. Coal-Fired Power Plant
9.3.1. Control Valves
9.3.2. Isolation Valves
9.3.3. Safety and Relief Valves
9.3.4. Drain and Vent Valves
9.3.5. Pressure-Reducing Valves
9.3.6. Non-Return Valves/Check valves
9.4. Geothermal Power Plant
9.4.1. Control Valves
9.4.2. Isolation Valves
9.4.3. Safety and Relief Valves/MSSVs
9.4.4. Drain and Vent Valves/High-temperature drain valves
9.4.5. Pressure-Reducing Valves/Start-up bypass valves
9.4.6. Non-Return Valves/Check valves
9.5. Biomass Power Plant
9.5.1. Control Valves
9.5.2. Isolation Valves
9.5.3. Safety and Relief Valves/Reheat safety valves
9.5.4. Drain and Vent Valves/High-temperature drain valves
9.5.5. Pressure-Reducing Valves/Turbine bypass valves
9.6. Waste-to-Energy Power Plant
9.6.1. Control Valves
9.6.2. Isolation Valves
9.6.3. Safety and Relief Valves/MSSVs
9.6.4. Drain and Vent Valves/Condensate drain valves
9.6.5. Non-Return Valves/Check valves
9.7. Nuclear Power Plant
9.7.1. Control Valves
9.7.2. Isolation Valves
9.7.3. Safety and Relief Valves
9.7.4. Drain and Vent Valves
9.7.5. Pressure-Reducing Valves/Turbine bypass valves

10. Competitive Landscape
10.1. Low-cost position
10.2. Competitive situation and trends
10.3. Maintaining current market share
10.4. Expansion path
10.5. Recent market and industry developments
10.5.1. New product developments and announcements
10.5.2. Agreements, partnerships, joint ventures, and collaborations
10.5.3. Mergers and acquisitions and major PE deals

11. Companies Profiled
11.1. ADAMS Armaturen
11.2. ARCA Regler GmbH
11.3. BMAFA Armaturen GmbH
11.4. BVALVE
11.5. Conval, Inc.
11.6. CRANE ChemPharma & Energy
11.7. Crane Nuclear
11.8. Curtiss Wright
11.9. DelVal Flow Controls
11.10. Hartmann Valves GMBH
11.11. HORA Holter Regelarmaturen GmbH & Co. KG
11.12. HP Valves
11.13. IMI Process Automation
11.14. JC VALVES
11.15. Koso Parcol S.r.l.
11.16. KSB
11.17. KÜHME Armaturen GmbH
11.18. Manekenberg GmbH
11.19. MIR VALVE
11.20. MOGAS (Flowserve)
11.21. Mokveld Valves
11.22. Neway Valve
11.23. PBI VIVIESSE
11.24. PERSTA GmbH
11.25. Powell Valves
11.26. PRUSS Industriearmaturen
11.27. SAMSON Controls
11.28. Schley Armaturen GmbH
11.29. Shanghai Yongsheng Valve
11.30. Spirax Sarco
11.31. steel fittings
11.32. Sufa Technology Industry Co., Ltd., CNNC
11.33. Tomoe Valve Ltd
11.34. VAG-Group
11.35. VALITALIA GROUP
11.36. Valmax Valve
11.37. Valmet
11.38. Velan
11.39. Vexve Armatury
11.40. Welland & Tuxhorn
11.41. Zwick Armaturen GmbH

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