The Study Of Language By George Yule forth edition

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The Study Of Language 4th edition by GeorgeYule

مطالعه زبان نویسنده جورج یول ویرایش چهارم

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دانلود کتاب Companion Guide to the ASME BPVC 3rd Ed - Vol1

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کتاب نایاب و ارزشمند آموزش مشارکتی ASME BPVC  دوره 1

Companion Guide to the ASME Boiler & Pressure Vessel Code THIRD EDITION VOLUME 1

Criteria and Commentary on Select Aspects of the
Boiler & Pressure Vessel and Piping Codes

• Publisher: ASME
• Publish Date: 2009
• Pages: 887
• Language: English

ناشر : موسسه ASME

سال انتشار : 2009

فرمت کتاب: PDF

سرفصلهای آموزشی کتاب:

Dedication to the First Edition

Robert E. Nickell and William E. Cooper

Acknowledgements (to the First Edition)

K. R. Rao and Robert E. Nickell

Acknowledgements (to the Second Edition)

K. R. Rao

Acknowledgements (to the Third Edition)

K. R. Rao

Contributor Biographies

Preface to the First Edition

Preface to the Second Edition

Preface to the Third Edition

Introduction

Organization and Operation of the ASME

Boiler and Pressure Vessel Committee

PART 1: POWER BOILERS — SECTIONS I & VII

OF B&PV CODE

CHAPTER 1 Introduction to Power Boilers

Lloyd W.Yoder and John R. MacKay

1.1 Introduction

1.2 History and Philosophy of Section I

1.3 The Organization of Section I

1.4 Scope of Section I: Pressure Limits and

Exclusions

1.5 Distinction Between Boiler Proper Piping and

Boiler External Piping

1.6 How and Where Section I is Enforced and

Effective Dates

1.7 Fundamentals of Section I Construction
1.8 References

1.9 Design Exercises

CHAPTER 2 Section VII—Recommended

Guidelines for the Care of Power Boilers

Edmund W.K. Chang and Geoffrey M. Halley

2.1 Introduction

2.2 The Preamble

2.3 Fundamentals—Subsection C1

2.4 Boiler Operation—Subsection C2

2.5 Boiler Auxiliaries—Subsection C3

2.6 Appurtenances—Subsection C4

2.7 Instrumentation, Controls, and Interlocks—

Subsection C5

2.8 Inspection—Subsection C6

2.9 Repairs, Alterations, and Maintenance—

Subsection C7

2.10 Control of Internal Chemical Conditions—

Subsection C8

2.11 Preventing Boiler Failures—Subsection C9

2.12 Final Notes

2.13 References

PART 2: SECTION II OF B&PV CODE

CHAPTER 3 PART 2, Section II—Materials and

Specifications

Domenic A. Canonico, Elmar Upitis, Richard A. Moen,

Dennis Rahoi, and Marvin L. Carpenter

3.1 History of Materials in the ASME Boiler and

Pressure Vessel Code

3.2 Basis for Acceptance of Materials for Code

Construction— Section II, Part A: Ferrous

Material Specifications

3.3 Basis for Acceptance of Materials for Code

Construction—Section II, Part B: Nonferrous

Material Specifications

3.4 Section II, Part C: Specification for Welding

Rods, Electrodes, and Filler Metals

3.5 Basis for Acceptance of Materials for Code

Construction— Section II, Part D: Properties
PART 3: SECTION III — RULES FOR CONTRUCTION

OF NUCLEAR POWER PLANT COMPONENTS

CHAPTER 4 A commentary for understanding and

Applying the Principles of the ASME Boiler and

Pressure Vessel Code

Roger F. Reedy

4.1 Introduction

4.2 Design Factors Used in the ASME Code

4.3 Design Specifications and Design Reports

4.4 Section III Versus Section VIII

4.5 Design Life and Commutative-Usage Factors

4.6 Service-Level Loadings

4.7 Seismic Evaluations

4.8 Engineers, Design, and Computers

4.9 Containment Vessels

4.10 Tolerances, Significant Figures, and Nominal

Dimensions

4.11 Corrosion and Erosion

4.12 Forming Operations

4.13 Post–Weld Heat Treatment

4.14 Nondestructive Examination

4.15 Hydrostatic Test

4.16 Quality Assurance

4.17 Design Loadings and Stresses Compared to

Actual Conditions

4.18 Post-Construction Postulated Loadings and

Stresses

4.19 Maintenance of Design Margins

4.20 Thermal Relief Devices

4.21 Code Cases

4.22 ASME Interpretations

4.23 Code Simplification

4.24 Future Considerations for Cyclic Service

4.25 New ASME Code–2007 Edition of Section VIII,

Division 2

4.26 Summary

4.27 References

CHAPTER 5 Subsection NCA—General

Requirements for Division 1 and Division 2

Richard W. Swayne

5.1 Introduction

5.2 Article NCA-1000 Scope of Section III

5.3 Article NCA-2000 Classification of Components

and Supports

5.4 Article NCA-3000 Responsibilities and Duties

5.5 Article NCA-4000 Quality Assurance

5.6 Article NCA-5000 Authorized Inspection

5.7 Article NCA-8000 Certificates, Nameplates,

Code Symbol Stamping, and Data Reports

5.8 Article NCA-9000 Glossary

CHAPTER 6 Subsection NB—Class 1 Components

David P. Jones and Greg L. Hollinger

6.1 Introduction

6.2 Design

6.3 Analysis

6.4 Primary Stress Limits

6.5 Primary-Plus-Secondary Stress Limits
6.6 Fatigue

6.7 Special Procedures

6.8 Elastic-Plastic FEA

6.9 References

6.10 Summary of Changes

CHAPTER 7 Section III: Subsections NC and

ND—Class 2 and 3 Components

Marcus N. Bressler

7.0 Introduction to Chapter 7.0

7.1 Articles NC-1000 and ND-1000

7.2 Articles NC-2000 and ND-2000, Material

7.3 Articles NC-3000 and ND-3000 (Design)

7.4 Articles NC-4000 and ND-4000 (Fabrication and

Installation)

7.5 Articles NC-5000 and ND-5000 (Examination)

7.6 Articles NC-6000 and ND-6000 (Testing)

7.7 Articles NC-7000 and ND-7000 (Overpressure

Protection)

7.8 Articles NC-8000 and ND-8000 (Nameplate,

Stamping, and Reports)

7.9 Summary of Changes

7.10 Summary of Changes

7.11 References

CHAPTER 8 Subsection NB, NC, ND-3600 Piping

Donald F. Landers

8.1 Background

8.2 Nuclear Class 1, NB-3600

8.3 Nuclear Class 2 and 3 NC/ND-3600

8.4 Design Process

8.5 Design Specification Discussion

8.6 References

CHAPTER 9 Subsection NE—Class MC

Components

Kamran Mokhtarian and Roger F. Reddy

9.1 Introduction

9.2 Scope of Subsection NE

9.3 Boundaries of Jurisdiction of Subsection NE

9.4 General Material Requirements

9.5 Certified Material Test Reports

9.6 Material Toughness Requirements

9.7 General Design Requirements

9.8 Qualifications of Professional Engineers

9.9 Owner’s Design Specifications

9.10 Certified Design Report

9.11 Design by Analysis

9.12 Appendix F

9.13 Fatigue Analysis

9.14 Buckling

9.15 Reinforcement of Cone-to-Cylinder

Junction

9.16 Plastic Analysis

9.17 Design by Formula

9.18 Openings

9.19 Bolted Flange Connections

9.20 Welded Connections

9.21 General Fabrication Requirements

9.22 Tolerances
9.23 Requirements for Weld Joints

9.24 Welding Qualifications

9.25 Rules for Marking, Examining, and Repairing Welds

9.26 Heat Treatment

9.27 Examination

9.28 Qualifications and Certification of NDE Personnel

9.29 Testing

9.30 Overpressure Protection

9.31 Nameplates, Stamping, and Reports

9.32 Recommendations

9.33 References

9.34 Summary of Changes

CHAPTER 10 Subsection NF—Supports

Uma S. Bandyopadhyay

10.1 Executive Summary

10.2 NF-1000 Introduction

10.3 NF-2000 Materials

10.4 NF-3000 Design

10.5 NF-4000 Fabrication and Installation

10.6 NF-5000 Examination

10.7 NF-8000 Nameplates, Stamping, and Reports

10.8 NF Appendices

10.9 Code Cases and Interpretations

10.10 Summary of Changes

10.11 ASME B31.1 and B31.3 Supports

10.12 References

CHAPTER 11 Subsection NG—Core Support

Structures

John T. Land

11.1 Introduction

11.2 Jurisdictional Boundaries (NG-1130)

11.3 Distinctions Between Core Support Structures,

Internal Structures, Threaded Structural

Fasteners, and Temporary Attachments

11.4 Unique Conditions of Serivce

11.5 Materials of Construction (NG-2000)

11.6 Special Materials

11.7 Fabrication and Installation Rules and

Requirements (NG-4000)

11.8 Examination and Repair (NG-5000)

11.9 Design

11.10 Testing

11.11 Overpressure Protection

11.12 Nameplates/Stamping Effects (NG-8000)

11.13 Environmental Effects (NG-3124)

11.14 Special Bolting Requirements (NG-3230)

11.15 Code Cases (NCA-1140)

11.16 Interpretations for Subsection NG

11.17 Elevated Temperature Applications

11.18 Additional Considerations

11.19 Beyond the State-of-the-Art

11.20 References

11.21 Abbreviations and Nomenclature

11.22 Summary of Revisions

CHAPTER 12 Subsection NH—Class 1

Components in Elevated Temperature Service

Robert I. Jetter

12.0 Introduction and Scope
12.1 Article NH-1000, Introduction

12.2 Article NH-2000, Materials

12.3 Article NH-3000, Design

12.4 Article NH-4000, Fabrication and Installation

12.5 Article NH-5000, Examination

12.6 Article NH-6000, Testing

12.7 Article NH-7000, Overpressure Protection

12.8 Other Component Classes, Components,

and Materials

12.9 Current and Emerging Issues for Nuclear

Components in Elevated Temperature Service

12.10 Future ASME Code Considerations for Nuclear

Components in Elevated Temperature Service

12.11 References

12.12 Summary of Changes

CHAPTER 13 Nuclear Pumps and Valves

Marcus N. Bressler

13.1 Introduction

13.2 General Section III Requirements

13.3 Specific Pump Requirements

13.4 General Requirements for Class 1 Pumps

13.5 NC-3400 Class 2 Pumps

13.6 ND-3400 Class 3 Pumps

13.7 General Requirements for Class 2 and 3 Pumps

13.8 Specific Valve Requirements

13.9 NC-3500 and ND-3500, Class 2 and 3 Valves

13.10 Changes in the 2004 and 2007 Editions

13.11 References

13.12 Additional Documents of Interest

SECTION III DIVISION 2

CHAPTER 14 Code for Concrete Reactor

Vessels and Containments

Hansraj Ashar, Barry Scott, Joseph F.

Artuso and John D. Stevenson

14.1 Introduction

14.2 Future Containment Development

14.3 Background Development of Concrete

Containment Construction Code Requirements

14.4 Reinforced-Concrete Containment Behavior

14.5 Concrete Reactor Containment Design

Analysis and Related Testing

14.6 Code Design Loads

14.7 Allowable Behavior Criteria

14.8 Analytical Models and Design Procedures

14.9 Special Design Features

14.10 Current Organization of the Code

14.11 Article CC-4000: Fabrication and Construction

14.12 Article CC-5000: Construction Testing and

Examination

14.13 Article CC-6000: Structural Integrity Test of

Concrete Containments

14.14 Article CC-7000: Overpressure Protection

14.15 Article CC-8000: Nameplates, Stamping,

and Reports

14.16 Practical Nuclear Power Plant Containment

Designed to Resist Large Commercial Aircraft

Crash and Postulated Reactor Core Melt
14.17 Items Which Should be Considered in Future

Revisions of the Code

14.18 Summary

14.19 References

SECTION III DIVISION 3

CHAPTER 15 Containments for Transportation

and Storage of Spent Nuclear Fuel and High-level

Radioactive Material and Waste*

D. Keith Morton and D.Wayne Lewis

15.1 Introduction

15.2 Historical Development

15.3 Scope of Subgroup Nupack

15.4 Code Development

15.5 General Provisions

15.6 Specified Loading Categories

15.7 Allowable Stress

15.8 Materials, Fabrication, Installation, Examination,

and Testing

15.9 Code Text Organization

15.10 Current Activities in Division 3

15.11 Suggested Enhancements for the Future

15.12 References

15.13 Summary of Changes

PART 4: CODES FOR B31.1 & B31.3 PIPING

CHAPTER 16 B31.1, Power Piping

Charles Becht IV

16.1 Background and General Information

16.2 Organization of B31.1

16.3 Design Conditions and Criteria

16.4 Pressure Design

16.5 Limitations on Components and Joints

16.6 Design Requirements for Specific Systems

16.7 Design for Sustained and Occasional Loads

16.8 Design Criteria for Thermal Expansion

16.9 Flexibility Analysis

16.10 Supports and Restraints

16.11 Requirements for Materials

16.12 Fabrication, Assembly, and Erection

16.13Examination

16.14 Pressure Testing

16.15 Nonmetallic Piping

16.16 Operation and Maintenance

CHAPTER 17 B31.3 Process Piping

Charles Becht IV

17.1 Background and General Information

17.2 Organization of ASME B31.3

17.3 Design Conditions and Criteria

17.4 Pressure Design

17.5 Limitations on Components and Joints

17.6 Design for Sustained and Occasional Loads

17.7 Design Criteria for Thermal Expansion

17.8 Flexibility Analysis

17.9 Supports

17.10 Requirements for Materials

17.11 Fabrication, Assembly, and Erection
17.12 Examination

17.13 Pressure Testing

17.14 Nonmetallic Piping Systems

17.15 Category M Piping

17.16 High-Pressure Piping

17.17 What’s Being Considered for Future Editions

of ASME B31.3

PART 5: HEATING BOILERS - SECTION IV

& VI OF B&PV CODE

CHAPTER 18 ASME Section IV: Rules for the

Construction of Heating Boilers

Geoffrey M. Halley and Edwin A. Nordstrom

18.1 Introduction

18.2 Part HG: General Requirements for all

Materials of Construction

18.3 Part HF: Requirements for Boilers Constructed

of Wrought Materials

18.4 Part HF, Subpart HW: Requirements for Boilers

Fabricated by Welding

18.5 Part HF, Subpart HB: Requirements for Boilers

Fabricated by Brazing

18.6 Part HC: Requirements for Boilers Constructed

of Cast Iron

18.7 Rules of Part HA: Hot Water Heating Boilers

Constructed Primarily of Cast Aluminum

18.8 Part HLW: Requirements for Potable-Water

Heaters

18.9 Considerations Likely to be in Future Code

Editions

18.10 What Should the ASME Code Committees and

Regulators Consider, Recognizing the Intent

of the ASME B&PV Code?

18.11 Summary of Changes

18.12 References

CHAPTER 19 ASME Section VI: Recommended

دانلود کتاب Power Piping: The Complete Guide to ASME B31.1 3rd Ed

اختصاصی از نیک فایل دانلود کتاب Power Piping: The Complete Guide to ASME B31.1 3rd Ed دانلود با لینک مستقیم و پر سرعت .

آخرین ویرایش کتاب ارزشمند آموزش کامل  ASME B31.1

Power Piping: The Complete Guide to ASME B31.1

• Publisher: ASME
• Publish Date: 2013
• Pages: 260
• Language: English
• ISBN: 9780791860144

 

سال انتشار : 2013

فرمت کتاب : PDF

سرفصلهای آموزشی کتاب:

About the Author

List of Figures

List of Tables

Chapter 1

Background and General Information

1.1 History of B31.1

1.2 Scope of B31.1

1.3 What is Piping?

1.4 Intent

1.5 Responsibilities

1.5.1 Owner

1.5.2 Designer

1.5.3 Manufacturer, Fabricator, and Erector

1.5.4 Inspector

1.6 How is B31.1 Developed and Maintained

1.7 Code Editions and Addenda

1.8 How Do I Get Answers to Questions About the Code?

1.9 How can I Change the Code?

Chapter 2

Organization of B31.1

2.1 Boiler External Piping and Non-Boiler External Piping

2.2 Code Organization

2.3 Non-Mandatory Appendices

Chapter 3

Design Conditions and Criteria

3.1 Design Conditions

3.1.1 Design Pressure

3.1.2 Design Temperature

3.2 Allowable Stress

3.3 Weld Joint Efficiency and Casting Quality Factors

3.4 Weld Joint Strength Reduction Factors

3.5 Allowances for Temperature and Pressure Variations

3.6 Overpressure Protection

Chapter 4

Pressure Design

4.1 Methods for Internal Pressure Design

4.2 Pressure Design of Straight Pipe for Internal Pressure

Insert 4.1 Sample Wall Thickness Calculation

Insert 4.2 Basic Stress Calculations for Cylinders Under Pressure

4.3 Pressure Design for Straight Pipe Under
4.4 Pressure Design of Welded Branch Connections

4.5 Pressure Design of Extruded Outlet Header

4.6 Additional Considerations for Branch Connections Under External Pressure

4.7 Branch Connections that are Assumed to be Acceptable

4.8 Pressure Design of Bends and Elbows

4.9 Pressure Design of Miters

4.10 Pressure Design of Closures

4.11 Pressure Design of Flanges

4.12 Pressure Design of Blind Flanges

4.13 Pressure Design of Blanks

4.14 Pressure Design of Reducers

4.15 Specially Designed Components

Chapter 5

Limitations on Components and Joints

5.1 Overview

5.2 Valves

5.3 Flanges

5.4 Fittings, Bends, Miters, and Branch Connections

5.5 Bolting

5.6 Welded Joints

5.7 Threaded Joints

5.8 Tubing Joints

5.9 Miscellaneous Joints

Design Requirements for Specific Systems

6.1 Overview

6.2 Boiler External Piping

6.3 Other System Requirements

Chapter 7

Design for Sustained and Occasional Loads

7.1 Primary Longitudinal Stresses

Insert 7.1 Span Limits for Elevated Temperature Piping

7.2 Sustained Longitudinal Stress

7.3 Limits of Calculated Stress from Occasional Loads

Chapter 8

Design Criteria for Thermal Expansion

8.1 Allowable Stress for Thermal Expansion

Insert 8.1 What About Vibration

8.2 How to Combine Different Displacement Cycle Conditions

Chapter 9

Flexibility Analysis

9.1 Flexibility Analysis

9.2 When Formal Flexibility Analysis is Required

9.3 When Computer Stress Analysis is Typically Used

9.4 Stress Intensification Factors
9.5 Flexibility Analysis Equations

Insert 9.1 How to Increase Piping Flexibility

9.6 Cold Spring

9.7 Elastic Follow-Up/Strain Concentration

9.8 Effect of Elastic Modulus Variations from Temperature

Chapter 10

Supports and Restraints

10.1 Overview of Supports

10.2 Materials and Allowable Stress

10.3 Design of Supports

Insert 10.1 Spring Design

Insert 10.2 Stress Classification

10.4 Spring and Hanger Supports

10.5 Fabrication of Supports

Chapter 11

Load Limits for Attached Equipment

11.1 Overview of Equipment Load Limits

11.2 Pressure Vessels

11.3 Other Equipment Load Limits

11.4 Means of Reducing Loads on Equipment

Chapter 12

Requirements for Materials

12.1 Overview of Material Requirements

12.2 Temperature Limits

12.3 Material Limitations

12.4 How to Use the Allowable Stress Tables in Appendix A

Chapter 13

Fabrication, Assembly, and Erection

13.1 Overview of Chapter V

13.2 General Welding Requirements

Insert 13.1 Arc Welding Processes

Insert 13.2 Brazing Process

13.3 Welding Procedure Specification

13.4 Welding Procedure Qualification Record

13.5 Welder Performance Qualification

13.6 Pre-heating

13.7 Heat Treatment

13.8 Governing Thickness for Heat Treatment

13.9 Pipe Bends

13.10 Brazing

13.11 Bolted Joints

13.12 Welded Joint Details

13.13 Miscellaneous Assembly Requirements

Chapter 14

Examination

14.1 Overview of Examination Requirements
14.2 Required Examination

14.3 Visual Examination

14.4 Radiographic Examination

14.5 Ultrasonic Examination

14.6 Liquid-Penetrant Examination

14.7 Magnetic-Particle Examination

Chapter 15

Pressure Testing

15.1 Overview of Pressure Test Requirements

15.2 Hydrostatic Testing

15.3 Pneumatic Testing

15.4 Mass-Spectrometer Testing

15.5 Initial Service Testing

15.6 Re-testing After Repair or Additions

Chapter 16

Non-metallic Piping

16.1 Organization and Scope

16.2 Design Conditions

16.3 Allowable Stress

16.4 Pressure Design

16.5 Limitations on Components and Joints

16.6 Flexibility and Support

16.7 Materials

16.8 Fabrication, Assembly, and Erection

Insert 16.1 Bonding Processes

16.9 Examination and Testing

Chapter 17

Post-Construction

Appendix I

Properties of Pipe and Pressure Ratings of Listed Piping Components

Appendix II

Guidelines for Computer Flexibility Analysis

Appendix III

Useful Information for Flexibility Analysis

Appendix IV

A Practical Guide to Expansion Joints

Appendix V

Conversion Factors

References

Index

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