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This book covers the life cycle of pipeline valves, the largest and most essential valves in offshore pipeline engineering. Discussing the design process, testing, production, transportation, installation, and maintenance, the book also covers the risk analysis required to assess the reliability of these valves. Pipeline valves require particular attention to ensure they are safely designed, installed, and maintained, due to the high stakes. Failure would result in environmental pollution, the destruction of expensive assets, and potential loss of life. Proper installation and upkeep require specialist processes throughout the life cycle of the valve. This book is a key guide to these processes. Beginning by looking at the design of pipeline valves, this book details how conserving weight and space is prioritized, how materials are chosen, how thickness is calculated, and how leakage is minimized. It then discusses production and specific welding techniques to bond dissimilar materials, alongside casting and machining. Building on other discussions in the text with case studies and questions and answers for self-study, this book is the ideal guide to pipeline valves. This book will be of interest to professionals in the industries of offshore oil and gas, material engineering, coatings, mechanical engineering, and piping. It will also be relevant to students studying coating and welding, or mechanical, piping, or petroleum engineering.
This book covers the life cycle of pipeline valves, the largest and most essential valves in offshore pipeline engineering. Discussing the design process, testing, production, transportation, installation, and maintenance, the book also covers the risk analysis required to assess the reliability of these valves. Pipeline valves require particular attention to ensure they are safely designed, installed, and maintained, due to the high stakes. Failure would result in environmental pollution, the destruction of expensive assets, and potential loss of life. Proper installation and upkeep require specialist processes throughout the life cycle of the valve. This book is a key guide to these processes. Beginning by looking at the design of pipeline valves, this book details how conserving weight and space is prioritized, how materials are chosen, how thickness is calculated, and how leakage is minimized. It then discusses production and specific welding techniques to bond dissimilar materials, alongside casting and machining. Building on other discussions in the text with case studies and questions and answers for self-study, this book is the ideal guide to pipeline valves. This book will be of interest to professionals in the industries of offshore oil and gas, material engineering, coatings, mechanical engineering, and piping. It will also be relevant to students studying coating and welding, or mechanical, piping, or petroleum engineering.
Hardbound. Over recent years, a number of significant developments in the application of valves have taken place: the increasing use of actuator devices, the introduction of more valve designs capable of reliable operation in difficult fluid handling situations; low noise technology and most importantly, the increasing attention being paid to product safety and reliability. Digital technology is making an impact on this market with manufacturers developing intelligent (smart) control valves incorporating control functions and interfaces. New metallic materials and coatings available make it possible to improve application ranges and reliability. New and improved polymers, plastic composite materials and ceramics are all playing their part. Fibre-reinforced plastic pipe systems, glass-reinforced epoxy pipe systems and the traditional low-cost polyester pipe systems have all undergone sophisticated design and manufacturing technology changes. The pote
A Practical Guide to Piping and Valves for the Oil and Gas Industry covers how to select, test and maintain the right oil and gas valve. Each chapter focuses on a specific type of valve with a built-in structured table on valve selection. Covering both onshore and offshore projects, the book also gives an introduction to the most common types of corrosion in the oil and gas industry, including CO2, H2S, pitting, crevice, and more. A model to evaluate CO2 corrosion rate on carbon steel piping is introduced, along with discussions on bulk piping components, including fittings, gaskets, piping and flanges. Rounding out with chapters devoted to valve preservation to protect against harmful environments and factory acceptance testing, this book gives engineers and managers a much-needed tool to better understand today's valve technology. - Presents oil and gas examples and challenges relating to valves, including many illustrations from valves in different stages of projects - Helps readers understand valve materials, testing, actuation, packing and preservation, also including a new model to evaluate CO2 corrosion rates on carbon steel piping - Presents structured valve selection tables in each chapter to help readers pick the right valve for the right project
This comprehensive text/reference addresses all hydraulic aspects of pipeline design. Incorporates many real-life examples from the author's experience in the design and operation of pipelines. Topics covered include basic equations necessary to pipeline design, how to conduct a feasibility study and perform economic analysis, design considerations for pumps and valves, how to suppress cavitation, hydraulic transients, trapped air, and methods of numerical solution of governing equations (including applications to complex piping systems). Includes twenty-five tables for easy reference. Extensively illustrated.
Piping and valve engineers rely on common industrial standards for selecting and maintaining valves, but these standards are not specific to the subsea oil and gas industry. Subsea Valves and Actuators for the Oil and Gas Industry delivers a needed reference to go beyond the standard to specify how to select, test, and maintain the right subsea oil and gas valve for the project. Each chapter focuses on a specific type of valve with a built-in structured table on valve selection, helping guide the engineer to the most efficient valve. Covering subsea-specific protection, the reference also gives information on high pressure protection systems (HIPPS) and discusses corrosion management within the subsea sector, such as Hydrogen Induced Stress Cracking Corrosion (HISC). Additional benefits include understanding the concept of different safety valves in subsea, selecting different valves and actuators located on subsea structures such as Christmas trees, manifolds, and HIPPS modules, with a full detail review including sensors, logic solver, and solenoid which is designed to save cost and improve the reliability in the subsea system. Rounding out with chapters on factory acceptance testing (FAT) and High Integrity Pressure Protection Systems (HIPPS), Subsea Valves and Actuators for the Oil and Gas Industry gives subsea engineers and managers a much-needed tool to better understand today's subsea technology. - Understand practical information about all types of subsea valves and actuators with over 600 visuals and several case studies - Learn and review the applicable standards and specifications from API and ISO in one convenient location - Protect your assets with a high-pressure protection system (HIPPS) and subsea-specific corrosion management including Hydrogen Induced Stress Cracking Corrosion (HISC)

Valve Technology

United States. National Aeronautics and Space Administration. Technology Utilization Office

Published: 1971

Total Pages: 32


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Ball cocks, Check valves, Gate valves, Plug valves, Valves, Gas pipelines, Oil pipelines, Pipelines, Fluid equipment, Pipework systems, Pipeline transportation, Petroleum technology, Natural gas, Gas technology, Design, Test methods, Technical documents
This collection contains 200 papers presented at the ASCE International Conference on Pipeline Engineering and Construction, held in Baltimore, Maryland, July 13-16, 2003.