Advanced Piping Design


Book Description

Advanced Piping Design is an intermediate-level handbook covering guidelines and procedures on process plants and interconnecting piping systems. As a follow up with Smith's best-selling work published in 2007 by Gulf Publishing Company, The Fundamentals of Piping Design, this handbook contributes more customized information on the necessary process equipment required for a suitable plant layout, such as pumps, compressors, heat exchangers, tanks, cooling towers and more! While integrating equipment with all critical design considerations, these two volumes together are must-haves for any engineer continuing to learn about piping design and process equipment.




Advanced Piping Design


Book Description

The Fundamentals of Piping Design, the objective was to arm the reader with the basic "rules" for the design, fabrication, installation, and testing of process and utility piping systems for oil and gas refineries, chemical complexes, and production facilities at both offshore and onshore locations. The objective of Volume 2, "Advanced Piping Design" on the same subject, is to look into more detail at the design of process piping systems in specific locations around the various items of process equipment that would be typically found in a petrochemical or oil and gas processing facility. The publisher enlisted the direction and support of Rutger Botermans, from Delft in The Netherlands, who is the author of this title. He wrote the text in a very direct style to avoid any misinterpretation. The bullet point/checklist format allows the reader so see quickly if he or she has considered the point when laying out the piping system. Rutger and his company Red-Bag, have a great deal to offer the industry; and I look forward to working with him again on other projects.




Pipe Drafting and Design


Book Description

Pipe designers and drafters provide thousands of piping drawings used in the layout of industrial and other facilities. The layouts must comply with safety codes, government standards, client specifications, budget, and start-up date. Pipe Drafting and Design, Second Edition provides step-by-step instructions to walk pipe designers and drafters and students in Engineering Design Graphics and Engineering Technology through the creation of piping arrangement and isometric drawings using symbols for fittings, flanges, valves, and mechanical equipment. The book is appropriate primarily for pipe design in the petrochemical industry. More than 350 illustrations and photographs provide examples and visual instructions. A unique feature is the systematic arrangement of drawings that begins with the layout of the structural foundations of a facility and continues through to the development of a 3-D model. Advanced chapters discuss the customization of AutoCAD, AutoLISP and details on the use of third-party software to create 3-D models from which elevation, section and isometric drawings are extracted including bills of material. - Covers drafting and design fundamentals to detailed advice on the development of piping drawings using manual and AutoCAD techniques - 3-D model images provide an uncommon opportunity to visualize an entire piping facility - Each chapter includes exercises and questions designed for review and practice




The Planning Guide to Piping Design


Book Description

The Planning Guide to Piping Design, Second Edition, covers the entire process of managing and executing project piping designs, from conceptual to mechanical completion, also explaining what roles and responsibilities are required of the piping lead during the process. The book explains proven piping design methods in step-by-step processes that cover the increasing use of new technologies and software. Extended coverage is provided for the piping lead to manage piping design activities, which include supervising, planning, scheduling, evaluating manpower, monitoring progress and communicating the piping design. With newly revised chapters and the addition of a chapter on CAD software, the book provides the mentorship for piping leads, engineers and designers to grasp the requirements of piping supervision in the modern age. - Provides essential standards, specifications and checklists and their importance in the initial set-up phase of piping project's execution - Explains and provides real-world examples of key procedures that the piping lead can use to monitor progress - Describes project deliverables for both small and complex size projects - Offers newly revised chapters including a new chapter on CAD software




Process Piping Design Handbook: The fundamentals of piping design


Book Description

Annotation Written for the piper and engineer in the field, this volume fills a huge void in piping literature since the Rip Weaver books of the 90s were taken out of print. Focussing not only on Auto CAD, but also on other computer-aided design programmes as well and manual techniques not found anywhere else, the book covers the entire spectrum of needs for the piping engineer. Covering general piping systems, this basic guide for the piping engineer offers standards in practices for covered in the original Rip Weaver series. It is the perfect introduction to the design of piping systems, various processes and the layout of pipe work connecting the major items of equipment for the new hire, the engineering student and the veteran engineer needing a reference.




PIPING ENGINEERING


Book Description

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.




The Planning Guide to Piping Design


Book Description

Fresh off of volume two of his piping series, Advanced Piping Design, Peter Smith has joined forces with skilled consultants to take his piping series to the next level. The Planning Guide to Piping Design covers the entire process of planning a plant model project from conceptual to mechanical completion, and explains where the piping lead falls in the process along with his roles and responsibilities. Piping Engineering Leads (or PEL's) used to only receive on-the-job training to learn the operation of producing a process plant. Over time, more schools and programs have developed a more advanced curriculum for piping engineers and designers. However, younger generations of engineers and designers are growing up with a much more technological view of piping design and are in need of a handbook that will explain the proven methods of planning and monitoring the piping design in step-by-step processes. This handbook will provide mentors in the process piping industries the bridge needed for the upcoming engineer and designer to grasp the requirements of piping supervision in the modern age.




The Fundamentals of Piping Design


Book Description

Written for the piping engineer and designer in the field, this two-part series helps to fill a void in piping literature, since the Rip Weaver books of the '90s were taken out of print at the advent of the Computer Aid Design (CAD) era. Technology may have changed, however the fundamentals of piping rules still apply in the digital representation of process piping systems. The Fundamentals of Piping Design is an introduction to the design of piping systems, various processes and the layout of pipe work connecting the major items of equipment for the new hire, the engineering student and the veteran engineer needing a reference.




Process Plant Layout and Piping Design


Book Description

For mechanical and chemical engineers working for engineering construction as well as process manufacturing companies with responsibility for plant layout, piping, and construction; and for engineering students. Based on the authors' collective 65 years of experience in the engineering construction industry, this profusely illustrated, comprehensive guidebook presents tried-and-true workable methods and rules of thumb for plant layout and piping design for the process industries. Content is organized and presented for quick-reference on- the-job or for systematic study of specific topics. KEY TOPICS: Presents general concepts and principles of plant layout -- from basic terminology and input requirements to deliverables; deals with specific pieces of equipment and their most efficient layout in the overall plant design configuration; addresses the plant layout requirements for the most common process unit equipment; and considers the computerized tools that are now available to help plant layout and piping designers.




Methodologies for Assessing Pipe Failure Rates in Advanced Water Cooled Reactors


Book Description

This publication, which draws upon the outcome of an IAEA coordinated research project, presents methodologies for assessing pipe failure rates in advanced water cooled reactors (WCRs), including a comprehensive review of good practices for the assessment of piping reliability parameters for advanced WCRs. Good practices are those processes and analytical tasks that would be expected in piping reliability analysis in order for the results to be realistic representations of piping structural integrity. This publication builds on technical insights that have been obtained using different methodologies when applied in multiple analytical contexts and responding to the requirements of different national codes and standards. It provides Member States with a strong technical basis for establishing design and plant centric piping reliability parameters for input into probabilistic safety assessment studies, in-service inspection programme development, and operational support. Additionally, an objective evaluation and inter-comparison of methods used in participating Member States is outlined leading to a harmonization of the practices relevant to newly deployable advanced WCRs.