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Pressure vessels, heat exchangers and components -- Piping and components -- Limit load analysis -- Fatique and fracture -- Fitness for service, life extension, remediation and repair -- Student papers.
A complete overview and considerations in process equipment design Handling and storage of large quantities of materials is crucial to the chemical engineering of a wide variety of products. Process Equipment Design explores in great detail the design and construction of the containers – or vessels – required to perform any given task within this field. The book provides an introduction to the factors that influence the design of vessels and the various types of vessels, which are typically classified according to their geometry. The text then delves into design and other considerations for the construction of each type of vessel, providing in the process a complete overview of process equipment design.
Pressure vessels are closed containers designed to hold gases or liquids at a pressure substantially different from the ambient pressure. They have a variety of applications in industry, including in oil refineries, nuclear reactors, vehicle airbrake reservoirs, and more. The pressure differential with such vessels is dangerous, and due to the risk of accident and fatality around their use, the design, manufacture, operation and inspection of pressure vessels is regulated by engineering authorities and guided by legal codes and standards. Pressure Vessel Design Manual is a solutions-focused guide to the many problems and technical challenges involved in the design of pressure vessels to match stringent standards and codes. It brings together otherwise scattered information and explanations into one easy-to-use resource to minimize research and take readers from problem to solution in the most direct manner possible. - Covers almost all problems that a working pressure vessel designer can expect to face, with 50+ step-by-step design procedures including a wealth of equations, explanations and data - Internationally recognized, widely referenced and trusted, with 20+ years of use in over 30 countries making it an accepted industry standard guide - Now revised with up-to-date ASME, ASCE and API regulatory code information, and dual unit coverage for increased ease of international use
Simplifies pressure vessels design based on the current ASME codes Explains design topics of non-coded parts to calculate the stresses for any type of arrangement Covers failure analysis related to elements of pressure vessels Provides backend of design software and codes useful to designers Describes the equations by simple fundamental design methods and calculations required for preparing manufacturing drawings
The Engineer's Guide to Plant Layout and Piping Design for the Oil and Gas Industries gives pipeline engineers and plant managers a critical real-world reference to design, manage, and implement safe and effective plants and piping systems for today's operations. This book fills a training void with complete and practical understanding of the requirements and procedures for producing a safe, economical, operable and maintainable process facility. Easy to understand for the novice, this guide includes critical standards, newer designs, practical checklists and rules of thumb. Due to a lack of structured training in academic and technical institutions, engineers and pipe designers today may understand various computer software programs but lack the fundamental understanding and implementation of how to lay out process plants and run piping correctly in the oil and gas industry. Starting with basic terms, codes and basis for selection, the book focuses on each piece of equipment, such as pumps, towers, underground piping, pipe sizes and supports, then goes on to cover piping stress analysis and the daily needed calculations to use on the job. - Delivers a practical guide to pipe supports, structures and hangers available in one go-to source - Includes information on stress analysis basics, quick checks, pipe sizing and pressure drop - Ensures compliance with the latest piping and plant layout codes and complies with worldwide risk management legislation and HSE - Focuses on each piece of equipment, such as pumps, towers, underground piping, pipe sizes and supports - Covers piping stress analysis and the daily needed calculations to use on the job
Technical contributions by authors from the US and seven other countries are arranged in sections on power plant piping and suppports, applied dynamic response analysis, and severe accident analysis; a final section contains four student papers selected for their quality of content and presentation.
Pressure Vessel Technology, Volume 1: Design and Analysis is a collection of papers presented at the Sixth International Conference on Pressure Vessel Technology, held in Beijing, People's Republic of China on September 11-15, 1988. This conference presents the practical applications in pressure vessel technology, specifically the developments and research, as well as contributions from prominent specialists from many different countries related to their design, materials, fabrication, and methods of inspection. This volume is divided into 61 chapters and begins with a presentation of guidelines and design criteria for various pressure vessel components, such as the nuclear, piping, and boiler components. The succeeding chapters deal with the features and practical application of the seismic design criteria, the issues of vibration, instabilities, damping, and flows. These topics are followed by discussions of the application of the discrete vortex method to flow over structures; tests and analysis of sealing characteristics; the properties of flange, gaskets, and heat exchangers; and stress analysis experiments. This work also includes papers on thermal stress tests, elastoplastic and deformation analysis, crack stability, and the application of computer for automation in analysis. The remaining chapters survey some international design standards of pressure vessels. This book will prove useful to mechanical and design engineers.