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24 Links and Articles to know

about Pressure Vessel Design

and Simulation

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PV links thematic collection

Type: Conference Paper

Keywords: Stress, Finite Element Analysis, Nozzles, WRC297

Finite Element Analysis for Nozzle With External Loads

Hak-Sung Lee, Chang-Hoon Ha, Tae-Jung Park

In this study, the nozzles in cylindrical vessel shells are developed

as three dimensional finite element models, which are loaded with

unit forces and moments. The stress intensities from finite element

models are investigated through a comparison of WRC Bulletin

297. In addition, a methodology to apply the stress intensity results

from WRC 297 to different lines is proposed.

http://proceedings.asmedigitalcollection.asme.org/proceeding.aspx

?articleid=1628004

Price: $25

Type: Article Keywords: Stress, Finite Element Analysis, Nozzles, WRC107

RESULTS OF FEA ANALYSES AT NOZZLE/SHELL JUNCTIONS

SUBJECTED TO EXTERNAL LOADS

This paper presents the results of several nozzle and shell

dimensional configuration analyses utilizing finite element (FE).

The authors utilized typical shell and nozzle dimensions with

typically allowed external nozzle loading . These FE results are

compared to WRC 107 results to determine if the FE results may

be used to establish the critical variables necessary to construct a

standard allowable piping load basis.

http://www.pm-engr.com/aboutpmi/pmipapers/pvp1999-vol388_4.pdf

Price: Free

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Type: Article JSA 251 Vol.42 (Journal of Strain Analysis for Engineering Design)

Keywords: Stress concentration factor, Thick pressure vessels, Crossholes

Elastic stress concentration at radial crossholes in

pressurized thick cylinders

T Comlekci*, D Mackenzie, R Hamilton, and J Wood

Results of a parametric finite element analysis investigation of

stress concentration at radial crossholes in pressurized cylinders

are presented in numerical and graphical form. The analysis

shows that the location of maximum stress does not generally

occur at the junction between the bores, as is commonly

supposed, but at some small distance up the crosshole from the

junction.

http://strathprints.strath.ac.uk/5068/1/Mackenzie_D_E_PRINTS_El

astic_stress_concentration_at_radial_crossholes_in_pressurized_t

hck_cylinders_Oct_07.pdf

Price: Free

Type: Article, Int. Journal of Engineering Research and Applications

Keywords: Stress, Strain, Finite Element Analysis, Pressure

Design and analysis of Stress on Thick Walled Cylinder with

and with out Holes

G.Raju, K. Hari Babu, N.Siva nagaraju, K.Kiran Chand

Stresses that remain in material even after removing applied loads

are known as residual stresses. These stresses occur only when

material begins to yield plastically. Residual stresses can be

present in any mechanical structure because of many causes.

Residual stresses may be due to the technological process used

to make the component. Manufacturing processes lead to plastic

deformation. Elasto-plastic analysis with bilinear kinematic

hardening material is performed to know the effect of hole sizes. It

is observed that there are several factors which influence stress

intensity factors. The Finite element analysis is conducted using

commercial solvers.

http://www.ijera.com/papers/Vol5_issue1/Part%20-%201/J501017583.pdf

Price: Free

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PV links thematic collection

Type: Book

Keywords: Manual, Piping and pressure vessels

J. Edward Pope - Rules of Thumb for Mechanical Engineers

Rules of Thumb for Mechanical Engineers assembles hundreds of

shortcuts, calculations, practical "how-to" methods, and concise

background reviews into one convenient volume.

Easy-to-read descriptions on fluids, heat transfer,

thermodynamics, seals, pumps and compressors, drivers, gears,

and bearings, as well as piping and pressure vessels.

Also covers tribology, vibrations, materials, stress and fatigue,

instrumentation, and engineering economics.

http://www.amazon.com/Rules-Thumb-Mechanical-Engineers-

Edward/dp/0884157903

http://www.sciencedirect.com/science/book/9780884157908

Price: $120

Type: ArticleKeywords: FE Analysis, Skirt to dished end junction, Stress linearization

Finite Element Analysis of Skirt to Dished junction in a

Pressure Vessel

Skirt to dished end junction in vertical pressure vessel is one of such critical junction which is often subjected to different loads. These loadings include internal pressure inside vessel, wind & seismic shear force and moments, operating weight of vessel& thermal stresses in the welds near the junction. This paper re-presents guidelines in structural analysis for skirt to dished end junction. Analysis is carried out in compliance with ASME Section VII Division 2.

http://www.ijmer.com/papers/Vol3_Issue4/CG3422152218.pdf

Price: Free

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Type: WEB Article

Keywords: Pressure Vessel Design basic theory summary

Introduction to PV Design by Analysis

Background and Introduction to Design by Analysis

Some Definitions

Linear Elastic Analysis

Linear-elastic Plastic Analysis

Yield Criteria

Limit and Plastic Collapse loads

http://personal.strath.ac.uk/j.wood/CCOPPS_DBA/Notes/dba_intro

_content_1.htm

Price: Free

Type: Bulletin,

Keywords: Stress Linearization

WRC 429 - 3D Stress Criteria Guidelines for Application

This work is an outgrowth of previous PVRC work, which defines

the problems and issues involved in assessing stress results from

three-dimensional (3-D) finite element analyses (FEA) in terms of

the ASME Boiler and Pressure Vessel Code stress limits in the

design by analysis Section III (Class 1, NB) and Section VIII,

Division 2. The current project addresses four areas of

consideration: (1) the relation between failure mechanisms and

the ASME Code stress categories, (2) the appropriate stresses for

each category, (3) the appropriate locations for assessing each

stress category, and (4) the appropriate stresses for obtaining the

membrane plus bending stresses. Although the relationships are

interrelated, they are developed individually and then

synthesized. To enhance understanding of the four areas of

consideration, 11 geometries are defined and evaluated through

discussion and finite element results. Each of the four areas of

consideration is discussed in detail and two-dimensional (2-D)

axisymmetric and 3-D example geometries are presented.

https://forengineers.org/bulletin/wrc-429

Price: $162

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Type: Book

Keywords: Pressure, Fatigue, Stress, Expansion joints, Thermal stresses, Stress analysis

(Engineering),Design, Computer software, Fatigue life, Junctions

Guidebook for the Design of ASME Section VIII Pressure

Vessels, Fourth Edition, Chapter 8

Section VIII-2 requires stress analysis of vessel components when

explicit design formulas are not given. This includes flued-in heads,

head-to-shell junctions, expansion joints, thermal stresses, and

stresses in components due to loads other than pressure. In

performing the stress evaluation, the designer must determine the

maximum stress at a given point or location. When computer

programs such as ANSYS and NASTRAN are used to determine

the stress, the output usually consists of the total combined stress

at a given point. This stress must then be separated into its

components of membrane, bending, and peak stresses.

http://ebooks.asmedigitalcollection.asme.org/content.aspx?bookid

=256&sectionid=38775756

Price: $25

Type: Master Thesis

Keywords: Automation, Pressure vessel design, Stress categorization, ASME, EN

Parameterized model for stress analysis of nozzles

The design of pressure vessels is often strictly regulated by codes

in order to ensure that the products are safe and functional. Two

commonly used codes for pressure vessels operating in the

process industry are the American ASME VIII Division 2 and its

European counterpart EN 13445-3. For common product

configuration, such as when a nozzle intersects a larger cylindrical

shell, specialized software based on Finite Element Analysis (FEA)

are available. Yet, problems occur when the designer wants to use

product configurations that are not covered by these software.

Therefore, there is a need for a calculation tool that covers such

product configurations.

http://publications.lib.chalmers.se/records/fulltext/142656.pdf

Price: Free

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PV links thematic collection

Type: Conference Paper

Keywords: Pressure Vessel Design

MATERIAL SELECTION FOR A PRESSURE VESSEL

Pressure vessels are designed to contain pressure and withstand

the operating mechanical and thermal transients for a specified

design life. In addition they are designed to safety to leak before

break (LBB). LBB describes the situation in which a leak occurs

before a complete double-ended break of a component. Ductile and

tough materials are widely used in nuclear pressure vessels,

because of their high resistance to catastrophic rupture. The design

process involves fatigue analysis to demonstrate that there is

insignificant crack growth a postulated surface crack during the

entire design life. However in terms of LBB the significant parameter

is the elastic-plastic fracture toughness, and the material strength.

http://search.asee.org/search/fetch;jsessionid=b3icci60dbj2?url=fil

e%3A%2F%2Flocalhost%2FE%3A%2Fsearch%2Fconference%2

F17%2FAC%25202008Full2887.pdf&index=conference_papers&s

pace=129746797203605791716676178&type=application%2Fpdf

&charset=

Price: Free

Type: Handbook

Keywords: Corrosion and Cracking of PV, Fatigue Failure, Hydrotest failure and other

Handbook of Case Histories in Failure Analysis Volume 1 and

2, ASM INTERNATIONAL

How others have solved failures in various industries such as

automotive, aerospace, utilities, oil and gas, petrochemical,

biomedical, ground transportation, off-highway vehicles, and more.

Each case history adheres to a standard format starting with

background information and guides you step by step through the

failure investigation.

http://www.amazon.com/Handbook-Histories-Failure-Analysis-Volume/dp/0871704536

Price: $446 for two volumes, two chapters are related with PV failures

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PV links thematic collection

Type: Guide, Handbook

Keywords: Pressure vessels, Surface acoustic waves, Boilers, Design, Teams, Tensile

strength, Leadership, Pressure vessel construction, Technical writing

Companion Guide to the ASME Boiler and Pressure Vessel

Code, Volume 2, Fourth Edition

K. R. Rao

This fourth edition of the Companion Guide of ASME Pressure Vessel & Piping Codes has been updated to the current (2010)

Code Edition and (2011) Addenda. This edition has 38 chapters

authored by 49 experts who have considerably updated and

extensively re-written chapters, as well as provided entirely new

chapters.

Chapter 22 Section VIII: Division 2Alternative Rules22.5 Part 3 Materials Requirements22.6 Part 4 Design-By-Rule22.7 Part 5 Design-By-Analysis

http://ebooks.asmedigitalcollection.asme.org/book.aspx?bookid=4

04

Price: $359

Type: Guide, Handbook

Keywords: Finite Element Analysis, Pressure Vessel, Design Codes

The Application of Finite Element Modelling to Pressure

Vessel Design Codes

Contents:

Pressure Vessel Design codes

Case Study: GD Engineering Bandlock closure

Finite Element Modelling

Application of Design Code Criteria

Review of Results of Bandlock Closure Analyses

Discussions on the Application of the Finite Element Method to

Pressure Vessel Design Codes

http://www.nafems.org/publications/browse_buy/browse_by_topic/reviews/r0071/

Price: $297 non members, $38 members

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Type: Lecture, University

Keywords: Pressure vessels, Design Rules, Component Design Rules

Pressurized Systems - Lectures

Aim of this class is to provide an overview of the background to

pressurized systems in modern Codes and Standards. Fundamental

shell analysis and plastic design concepts pave the way for

component design for vessels and piping systems.

http://homepages.strath.ac.uk/~clas16/16426mas.htm

Price: Free

Type: Guide, Handbook

Keywords: Finite Element Analysis, Pressure Vessel, Design Codes

Finite Element Analysis (FEA) Requirements Regarding the

Use of FEA to Support a Pressure Equipment Design

Submission

The introduction shall describe the scope of the FEA analysis

relating to the design, the justification for using FEA to support the

design calculations, the FEA software used for the analysis, the

type of FEA analysis (i.e. static, dynamic, elastic, plastic, small

deformations, large deformations, etc.), and a complete

description of the material properties used in the analysis

http://www.absa.ca/Forms/AB-520%20Finite%20Element%20Analysis%20(FEA)%20Requirements.pdf

Price: Free

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PV links thematic collection

Type: Book

Keywords: Pressure vessels, Design Rules, Component Design Rules

Pressure Vessels: Design and Practice

Somnath Chattopadhyay

Pressure Vessels: Design and Practice covers the basic theories

and principles behind the stress limiting conditions in the codes. It is

also a practical guide for designing and building pressure vessels of

all types. Not just a 'cookbook,' this volume allows you to trace the

origin of the design equations used in the construction codes,

offering a valuable, physical insight into the design process.

http://www.amazon.com/Pressure-Vessels-Mechanical-Aerospace-

Engineering/dp/0849313694

Price: $217

Type: Book

Keywords: Finite Element Analysis, Pressure Vessel, Design Codes

Understanding How Components Fail

Donald J. Wulpi

One of the first books new engineers and technicians should read.

This new third edition of the perennial best seller preserves the

core of the previous editions, focusing on the metallurgical and

materials evaluation for failure mode identification. Comprehensive

information covering the basic principles and practices are clearly

explained. Explanations of recent technical advances and new

analysis tools have been added:

- Fatigue striation counting, modeling, and crack rate prediction

- Failures caused by microbiologically influenced corrosion (MIC)

- Failures in elevated temperature environments

http://www.asminternational.org/home/-/journal_content/56/10192/05363G/PUBLICATION

Price: $169

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PV links thematic collection

Type: Book

Keywords: Pressure vessel, piping, reliability, risk, probabilistic risk assessment, fracture

mechanics

PRESSURE VESSELS AND PIPING SYSTEMS: RELIABILITY,

RISK AND SAFETY ASSESSMENT

F.A. Simonen

Topics covered include: 1) probabilistic structural mechanics and

fracture mechanics, 2) the role of probabilistic risk assessment

evaluations, 3) application of failure event data from operating

experience, 4) risk-informed in-service inspection, and 5)

probabilistic design methods

http://www.desware.net/DESWARE-SampleAllChapter.aspx

http://www.desware.net/sample-chapters/d09/e6-165-07-00.pdf

Price: Membership required

Type: Book

Keywords: Finite Element Analysis, Pressure Vessel, Design Codes

Pressure Vessel Design Manual, Fourth Edition

Dennis R. Moss

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.

http://www.amazon.com/Pressure-Vessel-Design-Manual-Edition/dp/0123870003/ref=pd_sim_sbs_b_2?ie=UTF8&refRID=0NNDG3W2ED8NBBW6QYPV

Price: $136

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Type: Web Forum

Keywords: Finite Element Analysis, Pressure Vessel, Design Codes

Boiler and Pressure Vessel engineering Forum

http://www.eng-tips.com/threadminder.cfm?pid=794

Price: Free

Type: Web Service

Keywords: Finite Element Analysis, Pressure Vessel, Design Codes

CSB U.S. CHEMICAL SAFETY BOARD

The U.S. Chemical Safety and Hazard Investigation Board,

also known as the Chemical Safety Board or CSB, is an

independent U.S. federal agency charged with investigating

industrial chemical accidents. Headquartered in Washington, D.C.,

the agency's board members are appointed by the president and

confirmed by the United States Senate. The CSB conducts root

cause investigations of chemical accidents at fixed industrial

facilities.

http://www.csb.gov/investigations/current-investigations/?Type=1

Price: Free

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PV links thematic collection

Type: Linkedin Group

Keywords: Pressure Vessel, Discussion Group

ASME PVP - Pressure Vessel and piping division

Linkedin group about pressure vessel design

https://www.linkedin.com/groups?home=&gid=1794527&trk=anet_ug_hm

Price: Free

Type: Linkedin Group

Keywords: Pressure Vessel, Discussion Group

ASME(American society of mechanical engineers)

Linkedin group about pressure vessel design

https://www.linkedin.com/groups?home=&gid=36972&trk=anet_ug_hm

Price: Free