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AWWA M49

Quarter-Turn Valves: Head Loss, Torque, and Cavitation Analysis

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Organization: AWWA
Publication Date: 1 January 2017
Status: active
Page Count: 147
scope:

The fluid flow and torque calculations are based on water or wastewater flow and do not specifically relate to other liquids or gases. The adjustments for application to other fluids can be found in other texts on fluid mechanics. This manual of standard practice covers round or circular BVs and BFVs within the scopes of AWWA and American National Standards Institute (ANSI) standards ANSI/AWWA C504-15, ANSI/AWWA C507-15, and ANSI/AWWA C516-14 with essentially full-ported designs in which the port diameter and closure member diameter are close to the nominal pipe size (NPS) or nominal diameter (in inches or millimeters). This includes BFVs in sizes 3 in. (75 mm) and larger and BVs in sizes 6 in. (150 mm) through 60 in. (1,500 mm).

This manual of standard practice also covers PVs that have round or oblong ports and are available with either full or reduced port areas within the scope of ANSI/AWWA C517-09. Reduced port areas are generally greater than 75 percent of full pipe area.

Rotary cone valves in sizes 6 in. thru 84 in. and pressure ratings of 125 cold working pressure (CWP) or 275 CWP in cast- or ductile-iron construction or ANSI Classes 150 and 300 in steel construction are often used in this industry and referenced in other AWWA manuals of standard practices, such as M44. This valve type does not have an AWWA standard devoted to design and construction. This type of valve is also included in this manual of standard practice.

Some manufacturers produce valves that are configured as three-way and/or fourway valves, which have three or four connection ports and require special considerations not included in this manual of standard practice. The valves covered are of the two-way (two end connections, on-off or throttling) configuration. For all of these valves, it is important to use the matching data for the valve design of interest.

Document History

AWWA M49
January 1, 2017
Quarter-Turn Valves: Head Loss, Torque, and Cavitation Analysis
The fluid flow and torque calculations are based on water or wastewater flow and do not specifically relate to other liquids or gases. The adjustments for application to other fluids can be found in...
January 1, 2012
Butterfly Valves: Torque, Head Loss, and Cavitation Analysis
Preface The purpose of this manual is to present a recommended method for calculating operating torque, head loss, and cavitation for butterfly valves typically used in water works service. It is a...
January 1, 2001
Butterfly Valves: Torque, Head Loss, and Cavitation Analysis
Introduction Torque, head loss, and cavitation are important considerations in the selection and sizing of butterfly valves in water systems. Butterfly valve components must be able to withstand the...

References

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