Buch, Englisch, 576 Seiten, Format (B × H): 152 mm x 229 mm
Terminology, Applications, and Insights for Oil, Gas, and Renewable Energy
Buch, Englisch, 576 Seiten, Format (B × H): 152 mm x 229 mm
ISBN: 978-1-041-07378-9
Verlag: CRC Press
The Comprehensive Valve Dictionary is an authoritative and practical reference that demystifies the technical language surrounding industrial valves. The dictionary provides detailed definitions for hundreds of valve-related terms, including valve types, components, materials, standards, testing methods, and failure mechanisms. In addition to traditional applications, this dictionary places significant emphasis on valves used in renewable energy systems, including those for hydrogen production, hydropower, carbon capture and storage (CCS), geothermal energy, and offshore wind power. Moreover, it explores the definitions and real-world applications of cutting-edge technologies such as smart valves, condition monitoring, digital twin technology, and additive manufacturing. It also includes cross-references to relevant international standards (e.g., API, ASME, ISO), troubleshooting guides, and operational insights. By bridging gaps in understanding, this resource will support professionals in making informed decisions, improving system reliability, and ensuring compliance with industry best practices.
This work is specifically tailored for engineers, designers, manufacturers, and researchers working in oil and gas, petrochemicals, power generation, and renewable energy industries.
Zielgruppe
Academic and Professional Reference
Autoren/Hrsg.
Fachgebiete
Weitere Infos & Material
1.Introduction to Valves. Introduction. Part 1: Overview of Valve Functions and Applications. Part 2: Historical Development of Industrial valves. Part 3: Importance of Valves. 2.Types of Valves. Introduction. Part 1: Classification of the Valves. Part 2: Detail Description of Valves. Part 3: Valve Comparative Analysis. Part 4: Valve Selection Criteria. 3.Valve Components. 4.Materials of Construction. 5.Valve Design and Standards. 6.Valve Manufacturing, Testing, and Quality Assurance. Introduction. Part 1: Valve Manufacturing. Part 2: Valve Testing. Part 3: Quality Assurance. 7.Valve Installation and Commissioning. Introduction. Part 1: Preparation and Pre-installation. Part 2: Valve Installation. Part 3: System Integration. Part 4: Testing and Verification. Part 5: Documentations and Records. Part 6: Packing and Preservation. 8. Valve Operation and Performance. 9. Valve Inspection, Maintenance, and Troubleshooting. Introduction. Part 1: Common Valves Failure Mode. Part 2: Inspection. Part 3: Maintenance Practices. Part 4: Troubleshooting. Part 5: Reliability Practices. Part 6: Operational Challenges. Part 7: Best Maintenance Practices. 10. Valve Safety, Reliability, and Compliance (SIL, SAR). 11. Actuators and Valve Automation. 12. Valves in the Energy Industry: From Conventional to Emerging Applications (Hydrogen, Carbon Capture). 13. Valve Lifecycle and Cost of Ownership. Part 1: Valve Lifecycle Stages. Part 2: Cost Analysis. Part 3: Maintenance and Reliability. Part 4: Materials Technology & Valve Lifecycle. Part 5: Energy Related Terms and Valve Cost. 14. Environmental Impact and Sustainability of Valves
