PRESSURE RELIEF VALVE ENGINEERING HANDBOOK

1 PRESSURE RELIEF valveengineering handbookAnderson Greenwood, Crosby And VAreC produCts | Technical publicaTion no. Tp-V3002copyright 2012 emerson. all rights reserved. no part of this publication may be reproduced or distributed in any form or by any means, or stored in a database or retrieval system, without written permission. emerson provides the information herein in good faith but makes no representation as to its comprehensiveness or accuracy. individuals using this information in this publication must exercise their independent judgment in evaluating product selection and determining product appropriateness for their particular purpose and system requirements.

2 Emerson makes no representations or warranties, either express or implied, including without limitation any warranties of merchantability or fitness for a particular purpose with respect to the information set forth herein or the product(s) to which the information refers. accordingly, emerson will not be responsible for damages (of any kind or nature, including incidental, direct, indirect, or consequential damages) resulting from the use of or reliance upon this information. emerson reserves the right to change product designs and specifications without notice. all registered trademarks are the property of their respective owners.

3 Printed in the RELIEF VALVE ENGINEERING HANDBOOK of Contentschapter 1 - introduction .. 2 - Terminology .. i. general .. ii. Types of devices .. iii. parts of PRESSURE RELIEF devices .. iV. dimensional characteristics - PRESSURE RELIEF valves .. V. operational characteristics - PRESSURE RELIEF devices .. Vi. System characteristics .. 3 - codes and Standards .. i. introduction .. ii. american Society of Mechanical engineers (aSMe) boiler and PRESSURE Vessel code .. iii. international organization for Standardization (iSo) .. iV. european union directives .. V.

4 American petroleum institute (api) .. Vi. national fire protection agency (nfpa) .. Vii. national board of boiler and PRESSURE Vessel inspectors .. 4 - design fundamentals .. i. introduction .. ii. direct Spring operated PRESSURE RELIEF valves .. iii. pilot operated PRESSURE RELIEF valves .. iV. advantages and limitations of VALVE Types .. 5 - VALVE Sizing and Selection (uScS units) .. i. introduction .. ii. gas/Vapor Sizing - Sonic flow .. iii. gas/Vapor Sizing - Subsonic flow .. iV. Steam Sizing .. V. liquid Vi. fire Sizing .. Vii. Two-phase flow Sizing.

5 Viii. noise level calculations .. iX. reaction 6 - VALVE Sizing and Selection (Metric units) .. i. introduction .. ii. gas/Vapor Sizing - Sonic flow .. iii. gas/Vapor Sizing - Subsonic flow .. iV. Steam Sizing .. V. liquid Vi. fire Sizing .. Vii. Two-phase flow Sizing .. Viii. noise level calculations .. iX. reaction RELIEF VALVE ENGINEERING HANDBOOK RELIEF VALVE ENGINEERING HANDBOOK ContentstAble of Contents (Continued)chapter 7 - ENGINEERING Support information (uScS units) .. i. compressibility factor .. ii. capacity correction factor for back PRESSURE .

6 Iii. capacity correction factor for high PRESSURE Steam .. iV. capacity correction factor for V. capacity correction factor for Vi. ratio of Specific heats and coefficient c .. Vii. Typical fluid properties .. Viii. Saturated Steam PRESSURE Table .. iX. orifice area and coefficient of discharge for anderson greenwood and crosby PRESSURE RELIEF valves .. X. equivalents and conversion factors .. Xi. capacity correction factor for rupture disc/ PRESSURE RELIEF VALVE combination .. 8 - ENGINEERING Support information (Metric units) .. i. compressibility factor .. ii. capacity correction factor for back PRESSURE .

7 Iii. capacity correction factor for high PRESSURE Steam .. iV. capacity correction factor for V. capacity correction factor for Vi. ratio of Specific heats and coefficient c .. Vii. Typical fluid properties .. Viii. Saturated Steam PRESSURE Table .. iX. orifice area and coefficient of discharge for anderson greenwood and crosby PRESSURE RELIEF valves .. X. equivalents and conversion factors .. Xi. capacity correction factor for rupture disc/ PRESSURE RELIEF VALVE combination .. primary purpose of a PRESSURE or vacuum RELIEF VALVE is to protect life and property by venting process fluid from an overpressurized vessel or adding fluid (such as air) to prevent formation of a vacuum strong enough to cause a storage tank to collapse.

8 Proper sizing, selection, manufacture, assembly, testing, installation, and maintenance of a PRESSURE RELIEF VALVE are all critical for optimal protection of the vessel or note that the brand names of PRESSURE RELIEF devices covered (anderson greenwood, crosby, Whessoe and Varec) are of emerson manufacture. a specific VALVE brand is selected, according to PRESSURE range, temperature range, VALVE size, industry application and other applicable manual has been designed to provide a service to emerson customers by presenting reference data and technical recommendations based on over 125 years of pioneering research, development, design, manufacture and application of PRESSURE RELIEF valves .

9 Sufficient data is supplied so that an individual will be able to use this manual as an effective aid to properly size and select emerson-manufactured PRESSURE RELIEF devices for specific applications. information covering terminology, standards, codes, basic design, sizing and selection are presented in an easy to use information contained in this manual is offered as a guide. The actual selection of valves and VALVE products is dependent on numerous factors and should be made only after consultation with qualified emerson personnel. Those who utilize this information are reminded of the limitations of such publications and that there is no substitute for qualified ENGINEERING PRESSURE RELIEF devices are manufactured in accordance with a controlled quality assurance program which meets or exceeds aSMe code quality control requirements.

10 Capacities of valves with set pressures of 15 psig ( barg], or higher, are certified by the national board of boiler and PRESSURE Vessel inspectors. These attributes are assured by the presence of an aSMe code Symbol Stamp and the letters nb on each PRESSURE RELIEF VALVE nameplate. lower set pressures are not addressed by either the national board or aSMe; however, capacities at lower set pressures have been verified by actual testing at emerson s extensive flow lab facilities. emerson s range of PRESSURE RELIEF valves are designed, manufactured, and tested in strict accordance with a quality management system approved to the international Standard organization s iSo 9000 quality standard requirements.)