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An up-to-date and practical reference book on piping engineering and stress analysis, this book emphasizes three main concepts: using engineering common sense to foresee a potential piping stress problem, performing the stress analysis to confirm the problem, and lastly, optimizing the design to solve the problem. Systematically, the book proceeds from basic piping flexibility analyses, springer hanger selections, and expansion joint applications, to vibration stress evaluations and general dynamic analyses. Emphasis is placed on the interface with connecting equipment such as vessels, tanks, heaters, turbines, pumps and compressors. Chapters dealing with discontinuity stresses, special thermal problems and cross-country pipelines are also included. The book is ideal for piping engineers, piping designers, plant engineers, and mechanical engineers working in the power, petroleum refining, chemical, food processing, and pharmaceutical industries. It will also serve as a reference for engineers working in building and transportation services. It can be used as an advance text for graduate students in these fields.
Pipe Stress Analysis is analyzing the hot and large piping systems so that code stresses are not exceeded. Piping loads on equipment nozzles should be calculated and compared with vendor allowable nozzle loads. This book gives basic principles with examples for entry level and experienced engineers.
Taking a big-picture approach, Piping and Pipeline Engineering: Design, Construction, Maintenance, Integrity, and Repair elucidates the fundamental steps to any successful piping and pipeline engineering project, whether it is routine maintenance or a new multi-million dollar project. The author explores the qualitative details, calculations, and t
This title made available for the first time an adequately organized, comprehensive analytical method for evaluating the stresses, reactions and deflections in an irregular piping system in space, unlimited as to the character, location or number of concentrated loadings or restraints. Profusely illustrated and meticulously detailed. This title made available for the first time an adequately organized, comprehensive analytical method for evaluating the stresses, reactions and deflections in an irregular piping system in space, unlimited as to the character, location or number of concentrated loadings or restraints. Profusely illustrated and meticulously detailed.
Originating as a set of lecture notes for a piping design & analysis workshop, this comprehensive, state-of-the-art reference is the only guide of its kind in print today providing broad coverage of pipe stress & supports engineering. Full of practical 'how-to' information, the book is detailed enough for the seasoned professional, yet easy enough for the novice to understand. In it, the design criteria, codes, standards, & regulations are explained for power piping, fuel gas piping, chemical plant & refining piping, liquid petroleum transportation piping systems, refrigeration piping, gas transmission & distribution piping, building service piping, & nuclear power piping. Clear, thorough, & up-to-date, this text is required reading for all professionals & students in this rapidly changing field.
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
One of the most important components of the infrastructure is the vast network of pipelines and process piping-literally millions and millions of miles. The term "pipelines" generally refers to the network of pipelines that transport water, sewage, steam, and gaseous and liquid hydrocarbons from sources (e.g., reservoirs, steam plants, oil and gas wells, refineries) to local distribution centers ("transmission pipelines"), and to the network of pipelines that distribute such products to local markets and end users ("distribution" pipelines). The term "process piping" generally refers to the system of pipes that transport process fluids (e.g. industrial gases, fuels, chemicals etc.) around an industrial facility involved in the manufacture of products or in the generation of power. It also is used to describe utility piping systems (e.g., air, steam, water, compressed air, fuels etc.) that are used in, or in support of the industrial process. Also, certain drainage piping--where corrosive or toxic fluids are being transported and severe conditions may be present, or where it is simply outside the scope of plumbing codes--is also sometimes classified as process piping. Some places where process piping is used are obvious, such as chemical and petrochemical plants, petroleum refineries, pharmaceutical manufacturing facilities and pulp & paper plants. However, there are many other not so obvious places where process piping is commonplace, such as semiconductor facilities, automotive and aircraft plants, water treatment operations, waste treatment facilities and many others.This book comprises of 9 course modules, which cover all aspects of piping design in easy to learn format. All topics are introduced to readers with no or limited background on the subject. A multiple choice quiz (total 255 questions) is provided at the end of each module to test the readers' knowledge and enhance learning. The book is very comprehensive and refresher to engineers and designers working in the field of piping in Oil and Gas, Chemical and Industrial plants. It is also very useful to fresh engineers joining industries for improving their knowledge in the field of fluid transportation and pipework.
Instant answers to your toughest questions on piping components and systems! It's impossible to know all the answers when piping questions are on the table - the field is just too broad. That's why even the most experienced engineers turn to Piping Handbook, edited by Mohinder L. Nayyar, with contribution from top experts in the field. The Handbook's 43 chapters--14 of them new to this edition--and 9 new appendices provide, in one place, everything you need to work with any type of piping, in any type of piping system: design layout selection of materials fabrication and components operation installation maintenance This world-class reference is packed with a comprehensive array of analytical tools, and illustrated with fully-worked-out examples and case histories. Thoroughly updated, this seventh edition features revised and new information on design practices, materials, practical applications and industry codes and standards--plus every calculation you need to do the job.
This Piping Engineering Book is one-of-a-kind. This book is structured to raise the level of expertise in piping design and to improve the competitiveness in the global markets. This course provides various piping system designs, development skills and knowledge of current trends of plant layout. The students are given case studies to develop their professional approach. Piping Engineering is a specialized discipline of Mechanical Engineering which covers the design of piping and layout of equipment's and process units in chemical, petrochemical or hydrocarbon facilities. Piping Engineers are responsible for the layout of overall plant facilities, the location of equipment's and process units in the plot and the design of the connected piping as per the applicable codes and standards to ensure safe operation of the facilities for the design life. Piping can be defined as an assembly of piping components used to convey or distribute process fluid from one item of equipment to another in a process plant. The piping components that form a part of this assembly are pipes, fittings, flanges, valves, piping specials, bolts and gaskets. This definition also includes pipe-supporting elements such as pipe shoes but does not include support structures such as pipe racks, pipe sleepers and foundations. As per ASME B31.3, the piping designer is responsible to the owner for assurance that the engineering design of the piping complies with the requirements of this code and any additonal requirements established by the owner. Piping Engineering is a very important aspect of plant facility design and extends way beyond designing piping as per ASME Codes. There are various ASME codes used for piping. Most of the plant facilities in the petrochemical and hydrocarbon industry will use ASME B31.3 code for design of process piping. Every industrial plant has numerous piping systems that must function reliably and safely. Piping systems are often easy to ignore or take lightly. However, industry around the world continuously experiences pipe failures, sometimes with catastrophic results. Plant personnel expect piping systems that operate safely, and plant owners need piping systems that are reliable. This course introduces the engineers, to the fundamental considerations, the evaluation criteria and the primary solutions in the design of piping systems. The types of common failure modes are described, with the general approaches to determining if a piping system design is adequate for operation. Pipe support types are described, and their normal applications. This is not a pipe stress analysis course, but is much broader in context and only briefly introduces pipe stress analysis. This book is intended for those who interface with piping design, maintenance and operation, and those who may be starting to work in piping engineering.
Provides background information, historical perspective, and expert commentary on the ASME B31.3 Code requirements for process piping design and construction. It provides the most complete coverage of the Code that is available today and is packed with additional information useful to those responsible for the design and mechanical integrity of process piping.