1) Provides an explanation of the basic concept of corrosion and types of external corrosion in offshore oil and gas industry 2) Offers a comprehensive guide on the valve and actuators, and criteria for valve selection 3) Includes over 25 case studies of coating and valves in international companies 4) Reviews coating defects and failures, alongside a guide to coating inspection

Uses simple language easy to be understood even by non-engineers Based on practical and real-life industrial experiences Offers comprehensive discussion of safety in various disciplines within the oil and gas industry Provides multiple choice questions at the end of each chapter Covers international standards that can be used anywhere in the world

1) Details the entire lifecycle of a pipeline valve, including design, manufacture, installation and maintenance 2) Explains how to ensure pipeline valves are safe, cost effective and reliable 3) Includes case studies on welding, operation and material selection 4) Explains how to prevent environmental damage and minimise risk

Eliminate or reduce unwanted emissions with the piping engineering techniques and strategies contained in this book Piping Engineering: Preventing Fugitive Emission in the Oil and Gas Industry is a practical and comprehensive examination of strategies for the reduction or avoidance of fugitive emissions in the oil and gas industry. The book covers key considerations and calculations for piping and fitting design and selection, maintenance, and troubleshooting to eliminate or reduce emissions, as well as the various components that can allow for or cause them, including piping flange joints. The author explores leak detection and repair (LDAR), a key technique for managing fugitive emissions. He also discusses piping stresses, like principal, displacement, sustained, occasional, and reaction loads, and how to calculate these loads and acceptable limits. Various devices to tighten the bolts for flanges are described, as are essential flange fabrications and installation tolerances. The book also includes: Various methods and calculations for corrosion rate calculation, flange leakage analysis, and different piping load measurements Industry case studies that include calculations, codes, and references Focuses on critical areas related to piping engineering to prevent emission, including material and corrosion, stress analysis, flange joints, and weld joints Coverage of piping material selection for offshore oil and gas and onshore refineries and petrochemical plants Ideal for professionals in the oil and gas industry and mechanical and piping engineers, Piping Engineering: Preventing Fugitive Emission in the Oil and Gas Industry is also a must-read resource for environmental engineers in the public and private sectors.

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.

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.

Emission prevention and environmental protection are hot topics in the oil and gas industry and many countries, especially in the United States. Among sources of pollution in the oil and gas industry, storage tanks used to store products such as oil or liquefied natural gas (LNG) are considered the second most significant source of emissions after industrial valves. Storage Tanks Selection, Design, Testing, Inspection, and Maintenance: Emission Management and Environmental Protection provides the latest research and technological advancements in storage tank design including materials selection, welding, and techniques used order to reduce or prevent emissions. This book will detail essential information regarding inspections, testing, and maintenance that are performed to prevent the failure of storage tanks and will also explore the different types of storage tank emissions and provide recommendations for the preventive, as well as safety systems that are critical to minimize the failure of storage tanks. Researchers, engineers, industry professionals, and students in the environmental safety field will find this book to be a welcomed resource to learning about and working on storage tank emissions in the oil and gas industries.

Case Studies of Material Corrosion Prevention for Oil and Gas Valves delivers a critical reference for engineers and corrosion researchers. Packed with nearly 30 real-world case studies, this reference gives engineers standardized knowledge on how to maintain, select and prevent typical corrosion problems in a variety of oil and gas settings. Subsea, offshore, refineries and processing plants are all included, covering a variety of challenges such as chloride stress cracking, how to use Teflon powder to prevent cross contamination, and carbon dioxide corrosion. Organized for quick discovery, this book gives engineers a much-needed tool to safely protect their assets and the environment. Engineers working in oil and gas operations understand that corrosion is a costly expense that increases emissions and damages the environment, but many standards do not provide practical examples with solutions, leaving engineers to learn through experience. This resource provides comprehensive information on topics of interest.

Natural gas and liquefied natural gas (LNG) continue to grow as a part of the sustainable energy mix. While oil and gas companies look to lower emissions, one key refinery component that contributes up to 60% of emissions are valves, mainly due to poor design, sealing, and testing. Cryogenic Valves for Liquefied Natural Gas Plants delivers a much-needed reference that focuses on the design, testing, maintenance, material selection, and standards needed to stay environmentally compliant at natural gas refineries. Covering technical definitions, case studies, and Q&A, the reference includes all ranges of natural gas compounds, including LPG, CNG, NGL, and PNG. Key design considerations are included that are specific for cryogenic services, including a case study on cryogenic butterfly valves. The material selection process can be more complex for cryogenic services, so the author goes into more detail about materials that adhere to cryogenic temperature resistance. Most importantly, testing of valves is covered in depth, including shell test, closure or seat test, and thermal shock tests, along with tactics on how to prevent dangerous cryogenic leaks, which are very harmful to the environment. The book is a vital resource for today's natural gas engineers.

Prevention of Actuator Emissions in the Oil and Gas Industry delivers a critical reference for oil and gas engineers and managers to get up-to-speed on all the factors in actuator fugitive emissions. Packed with a selection process, the benefits of switching to an electric system, and the technology around open and closed loop hydraulic systems helps today's engineer understand all their options. Rounding with a detailed explanation around High Integrity Pressure Protection Systems (HIPPS), this book gives provides the knowledge necessary to lower emissions on today's equipment.

Prevention of Valve Fugitive Emissions in the Oil and Gas Industry delivers a critical reference for oil and gas engineers and managers to get up-to-speed on all factors surrounding valve fugitive emissions. New technology is included on monitoring, with special attention given to valve seals which are typically the biggest emitting factor on the valve. Proper testing requirements to mitigate future leaks are also covered. Rounding out with international standards, laws and specifications to apply to projects around the world, this book gives today's engineers updated knowledge on how to lower emissions on today's equipment.

INDUSTRIAL VALVES Improve the design and safety of your industrial valves with this comprehensive guide Industrial valves are used to regulate the flow of liquids, gases, or slurries. They are fundamental to multiple industries, including marine shipping, in which valves regulate power supply, wastewater, water for fire-fighting, and other shipboard essentials. They are also critical to the oil and gas industry, where valves are used to control the flow of oil or gas out of deposits, direct the crude oil refining process, protect key areas and equipment from spillage and overflow, and more. Without the safety and regulating power provided by industrial valves these industries could not proceed. This book provides a thorough introduction to the modeling and calculation of key challenges related to valve design, manufacturing, and operation. It focuses particularly on solving problems of material failure due to corrosion and cavitation, allowing readers to construct valve designs that will maximize safety and reliability. It is a critical resource in helping protect workplaces, industrial sites, and valuable equipment from the externalities of these fundamental industrial resources. Readers will also find: Applied calculations based on real-life cases from industry Information based on international standards including NORSOK (Norwegian standard) and IECs (European standards) Based on decades of experience in the relevant industries Industrial Valves is a useful reference for engineers and practitioners in the oil and gas and marine industries, piping engineers, valve manufacturers, and more.