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Also included within the scope of this Code are:. This Code prescribes requirements for the materials, design, fabrication, assembly, erection, test, and inspection of refrigerant, heat transfer components, and secondary coolant piping for temperatures as low as deg F deg C , whether erected on the premises or factory assembled, except as specifically excluded in the following paragraphs.

Users are advised that other piping Code Sections may provide requirements for refrigeration piping in their respective jurisdictions. This Code covers the design, fabrication, installation, inspection, and testing of pipeline facilities used for the transportation of gas. This Code also covers safety aspects of the operation and maintenance of those facilities. This Standard applies to on-shore pipeline systems constructed with ferrous materials and that transport gas. Pipeline system means all parts of physical facilities through which gas is transported, including pipe, valves, appurtenances attached to pipe, compressor units, metering stations, regulator stations, delivery stations, holders and fabricated assemblies.

The principles and processes embodied in integrity management are applicable to all pipeline systems. This Standard is specifically designed to provide the operator as defined in section 13 with the information necessary to develop and implement an effective integrity management program utilizing proven industry practices and processes. While these Cases do not constitute formal revisions of the Code, they may be used inspecifications, or otherwise, as representing considered opinions of the Committee. TheCases are published in a separate supplement. In this edition of the Code, U.

Values in U. Customary units are to be regarded as the standard, unlessotherwise agreed between the contracting parties. Instructions are given in those tablesthat have not been convertedfor convertingtabular data in U. This code or standard was developed under procedures accredited es meeting the criteria for AmericanNational Standards. The Standards Committee that approved the code or standard was balanced to assure thatindividuais from competent and concerned interests have had an opportunity to participate. The proposed codeor standard was made available for public review and comment that provides an opportunity for additionalpublic input from industry, academia, regulatory agencies, and the public-at-large.

ASME does not take any position with respect to the validity of any patent rights asserted in connection withany items mentioned in this document, and does not undertake to insure anyone utilizing a standard againstliability for infringement of any applicable letters patent, nor assume any such liability. Users of a code orstandard are expressly advised that determination of the validity of any such patent rights, and the risk ofinfringement of such rights, is entirely their own responsibility. Participation by federal agency representative s or person s affiliated with industry is not to be interpretedas government or industry endorsement of this code or standard.

ASME accepts responsibility for only those interpretations of this document issued in accordance with theestablished ASME procedures and policies, which precludes the issuance of interpretations by individuals. No part of this document may be reproduced in any form, in an electronic retrieval system or otherwise, without the prior written permission of the publisher.

Summary of Changes Nonferrous Pipe or Tube Fittings, Bends, and Intersections Bends and Intersections Limitation on Materials for Fittings Flange Facings. Brazed and. Soldered Joints Design Details Chapter III Materials Brazed Sleeve Joints Chapter VI Examination. Nonmandatory Appendices 73 76 A Referenced Standards B Preparation of Technical Inquiries Figures Stress Range Reduction Factors Formed-Tee Connections -in-.

I-B Branch Connections Unacceptable Welds for Flat Plate Closures Tables Refrigerant Classification Heat Treatment of Welds In , after a review by B31 ExecutiveCommittee later changed to American Standards Asso- and Sectional Committees, a decision was made tociation, then changed to United States of America develop and publish other industry sections as separateStandards Institute, and now known as the American code documents of the American Standard Code forNational Standards Institute initiated project B31 in Pressure Piping.

March , at the request of the American Societyof Mechanical Engineers and with that Society the The first edition of Refrigeration Piping was publishedsole administrative sponsor.


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Because of the wide field as ASA B This Section was revised in FollowingStandards Committee, was composed of representatives approval by the Sectional Committee and the sponsor,of some 40 different engineering societies, industries, this revision was approved by the United States ofgovernment bureaus, institutes, and trade associations. In order to keep the Code abreast of current-develop- - - In December ,. Committee under procedurestions, and increases in the severity of service conditions, developed by the American Society of Mechanicalrevisions, supplements, and new editions of the Code Engineers and accredited by the American Nationalwere published as follows: Standards Institute.

The Edition of the CodeB Supplement 2B Supplement 1 to B Hayden, Jr. Holbrook, Vice Chair P. Ainsworth, Consultant, Sudbury, MassachusettsR. Flenner, Consumers Energy Co. Frey, Reliant Energy Co. Frikken, Solutia, Inc. Gardner, Consultant, Wilmington, DelawareR. Holbrook, D. Riley Inc. Jolly, Vogt Valve Co. Meyer, Middough Association Inc. Nance, A. Nance Associates, Inc. Houston, TexasW. Richards, Consultant, Lincolnshire, IllinoisE. Rinaca, Virginia Power Co. Sperko, Sperko Engineering Services Inc. Straiton, Consultant, Spring, TexasP.

A survey of one of the most important pressure pipe codes – ASME B31, earlier known as ANSI B31

Kyser, Jr. Appleton, Refrigeration Systems Co. Briggs, Jr. DuPernell, Joseph Davis Inc. Gruber, Wheatland Tube Co. Memll, Evapco Inc. Miller, Eastman Kodak Co. Momson, Baltimore Aircoil CO. Schmidt, Imeco Inc. Walter, Vilter Manufacturing Corp. Holbrook, Vice Chair, D.

Articles and Tools for The Piping Folks :-)

Jolly, Edward Vogt Valve Co. Richards, Consultant, Lincolnshire, IllinoisG. Fetzner, Arco Alaska Inc. Scniggs, Dupont, Wilmington. Sperko, Sperko Engineering Services Inc..

How to DESIGN and ANALYSE a refrigeration system

Greensboro, North CarolinaE. Breen, Pressure Sciences Inc. Ellenberger, WFl International Inc. F e b e r , Arco Alaska Inc. Hart,SSD Inc. Minichiello, J. Minichiello Consulting Inc. Rodabaugh, Consultant, Dublin, OhioM. Wais, Wais and Associates Inc.

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A New Age for Oil and Gas Piping Systems

Greenawalt, Jr. Anderson, Parker-Hannifin Corp. Fletcher, Peabody Engineering Corp. Fnkken, Solutia, Inc.

ASME B31.5

Holieran, Consultant, Westlake, Ohio L. Melchioris, Praxair Inc. Thielsch, Thielsch Engineering Inc.


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White, Richard E. Williams, Duke Power Co. Herein- agreement is specifically made between contractingafter in this Introduction and in the text of this Code parties to use other issues, or the regulatory bodySection B While safety is the basic consideration the completion of the work and initial operation. The designer is cautioned that the Code is not former requirements without having assurance that theya design handbook.

The Code does not do away with have been accepted by the proper authorities in thethe need for the designer or competent engineering jurisdiction where the piping is to be installed. Users of this Code are advised that in some locationsThe Code contains basic reference data and formulas legislation may establish jurisdiction over the subjectnecessary for design.

It is intended to state these matter of this Code. New Releases. Notify me. Description This Code prescribes requirements for the materials, design, fabrication, assembly, erection, test, and inspection of refrigerant, heat transfer components, and secondary coolant piping for temperatures as low as F C , whether erected on the premises or factory assembled, except as specifically excluded in the following paragraphs.

Re: ASME B31.5-2016 Refrigeration Piping and Heat Transfer Components

Users are advised that other piping Code Sections may provide requirements for refrigeration piping in their respective jurisdictions. This Code shall not apply to: a any self- contained or unit systems subject to the requirements of Underwriters Laboratories or other nationally recognized testing laboratory: b water piping; c piping designed for external or internal gage pressure not exceeding 15 psi kPa regardless of size; or d pressure vessels, compressors, or pumps, but does include all connecting refrigerant and secondary coolant piping starting at the first joint adjacent to such apparatus.