Description

AWWA Flange Standards differ from ANSI (American National Standards Institute) and ASME (American Society of Mechanical Engineers) certifications in a variety of ways, the most important being their specificity: AWWA standards evaluate properties that particularly affect potable water use, as opposed to broader industrial flange applications. Our company provides an array of AWWA flanges to meet your application’s specifications.

WHAT IS AWWA?

The American Water Works Association, formed in 1881, was developed to identify and unify major requirements for waterworks systems. Today, the international association serves non-profit, educational, and scientific roles to improve and support water quality and supply around the world.

Members of AWWA include water treatment plant management and operations teams, water utility organizations, manufacturers, scientists and environmentalists, regulators, academics, and researchers in the fields of water supply and public health. North America alone is home to 43 distinct AWWA Sections.

AWWA’s standards program began in 1908 with development and research to support regulatory standards for products, processes, and best practices. This invaluable reference is now recognized globally as a key source for scientific and management insight for water supply.

AWWA Standards

With over 150 Standards, AWWA supports a full range of water supply practices, equipment, and components. In addition to AWWA Flange Standards, waterworks specialists will find AWWA support covering:

• Water treatment chemicals
• Filtration materials
• Meters and measures
• Disinfection practices
• Valves
• Storage tanks of all sizes
• Utility management practices
• Pumps
• Pipe and Fittings

AWWA Certified Flange Types

Unlike ANSI and ASME standards, AWWA Flange Standards do not address welded auxiliary connections or tapping. They cover a very specific range of flange types, including:

• Slip-on Ring and Hub Type Flanges, fitted over a pipe
• Blind Flanges, to seal or close a pipe or vessel
• Threaded Iron Flanges, fitted to externally threaded pipes

Material Grades and Performance

The AWWA Standards program covers pipes, flanges, and fittings in all manner of materials, including:

• Plastic
• Ductile iron
• Steel and stainless steel
• Concrete
• Asbestos-cement

AWWA C207 does not require a specific grade of steel, so long as the flange meets minimum standards for physical and chemical properties. These properties include:

• .05% Sulfur (maximum)
• .04% Phosphorus (maximum)
• .29% Carbon (maximum)
• 50,000 psi Tensile (minimum)
• 32,000 psi Yield (minimum)

Industries and Applications

The waterworks-specific AWWA Standard Flanges have been developed to meet light duty applications, typically requiring performance at or below 300 psi. The most common pressure range is AWWA Class D, rated at 175 psi for sizes under 12 inches and 150 psi for larger sizes.

• Common applications of AWWA Flanges include:
• Waterworks
• Slurry
• Waste water
• Plant piping

AWWA Vs. ANSI Flange Standards

Both the AWWA and ANSI have thorough standards for flanges, and the two standards are different in several ways.

Both the AWWA and ANSI have thorough standards for flanges, and the two standards are different in several ways. AWWA standards provide flange properties intended for potable water use only. In contrast, ANSI standards are aimed at industrial flange applications.

For example, AWWA flange ratings are applicable only at atmospheric temperature, while ANSI ratings cover flange installations from -20°F to 1500°F. AWWA standards provide flange properties intended for potable water use only. In contrast, ANSI standards are aimed at industrial flange applications. For example, AWWA flange ratings are applicable only at atmospheric temperature, while ANSI ratings cover flange installations from -20°F to 1500°F.

ANSI covers numbered class flanges from 150 to 2500, and AWWA standards encompass lettered flange classes B, E, F, and the commonly used class D connection. AWWA provides ratings for a much broader range of nominal pipe sizes (3″-144″) than ANSI provides (1/2″-24″).

Finally, ANSI and AWWA flange standards differ in the breadth of applications discussed. ANSI includes information for welded auxiliary connections and tapping, while AWWA does not address those installations. Also, the AWWA standard only encompasses ring, hub type, blind flanges, and threaded iron flanges while the ANSI standard inlcudes all flange types.

This discussion on AWWA flange standards and ANSI flange standards is based on information from ANSI/AWWA C115/A21.15-99: “American National Standard for Flanged Ductile-Iron Pipe with Ductile-Iron or Gray-Iron Threaded Flanges”, ANSI/AWWA C207-94: “AWWA Standard for Steel Pipe Flanges for Waterworks Service-Sizes 4 In. Through 144 In.”, and ANSI B16.5-1981: “Pipe Flanges and Flanged Fittings”.

AWWA C207 Steel Pipe Flanges

AWWA C207 steel flanges are usually of a mild carbon steel or stainless variant and are most often either of the ring slip on or blind disc style. Due to their intended design, they do not have ring joint or raised faces, and are typically sealed with rubber gaskets. Due to their cost and weight compared to other flange types, they are also becoming more popular with project work for structural steel types which require mating or filling a gap between existing flanges.

More Specifically, the American Water Works Association has published specification C207 to provide a standard for carbon steel rings and blinds (and formerly, also hubs). The OD and bolt pattern matches that of B16.1 class 125 flanges. They will also match B16.5 class 150 flanges up to 24” nominal pipe size and B16.47 Series A up to 60” NPS. The main dimensional difference is thickness and the lack of a raised face or hub (except in legacy systems).

AWWA is slightly more lenient in what kind of steel can be used as well. C207 limits Carbon, Phosphorus, and Sulfur contents to 0.35%, 0.04%, and 0.05%, respectively. The lower minimum yield and tensile strength requirements (32ksi and 50ksi, respectively) allows several commercially abundant grades of carbon steel such as A36, A516-70, A181-60, A105. All AWWA flanges that Texas Flange supplies will have MTRs showing actual physical and chemical properties for each heat lot. When you do not have to meet ASME code, but need a large flange, send us your requirement for AWWA Ring or Blind flanges!

The AWWA C207 is an American National Standard for steel pipe flanges for waterworks service, sizes 4″ through 144″ (100 mm through 3600 mm). The AWWA is the abbreviation of “American Water Works Association”. The origin of AWWA C207 can be dated back to year 1942 when a paper proposing standards for slip-on steel-ring flanges for welding to steel water pipes. This standard was necessary because the lowest pressure ratings for steel flanges at that time were those having cold-water pressure ratings of 275 psi (1896 KPa). The ratings are far higher than those ordinarily needed for water service (150 psi / 1034 KPa) primary pressure rating.

The AWWA C207 flanges are intended for attachment to steel pipes, fittings, valves or other appurtenances in water utility service. The standard has specified two general types of flange: (1) ring-type slip-on flanges, also known as ring flanges or plate flanges; (2) blind flanges. Both the ring flange and blind flange are steel flanges without hub. Besides, in Appendix B, it also provides additional information for dimensions of steel-hub flanges. The AWWA C207 flange can be further classified into four classes according to its working pressure limit: Class B (86 psi), Class D (175-150 psi), Class E (275 psi), Class F (300 psi). The pressure limits are for conditions and temperatures customary in water utility service.

Materials & Manufacture

The AWWA C207 steel pipe flanges shall be made from materials complying with the requirements of the Safe Drinking Water Act. Basically, the AWWA C207 flange shall be made from steel plate, bar or forgings conforming to the following requirements: (1) Specified minimum tensile strength = 50,000 psi [345 MPa]; (2) Specified minimum yield strength = 32,000 psi [221 MPa]; (3) Elongation, 2″ [50 mm] gauge length (minimum) = 18%, or 8″ [200 mm] gauge length (minimum) = 14%; (4) Carbon (maximum) = 0.35%; (5) Phosphorus (maximum) = 0.04%; (6) Sulfur (maximum) = 0.05%. The AWWA C207 flanges shall be furnished with bolts & studs made to ASTM A193 B7 and ASTM A194 2H heavy hex nuts or ASTM A563 heavy hex nuts for 1″ and smaller. Washers, when used, shall meet the requirements of ASTM F436. The flange gasket shall be furnished in full face type or ring type, made from rubber, compressed fiber, or PTFE, respectively.

Referring to manufacturing methods, AWWA C207 steel flanges may be made from seamless forgings, cut from plate as a single piece, welded bar rings, or segmented and welded plates. Small & medium size flanges are usually manufactured integrally by a forging or integral cutting process. When the O.D of a flange exceeds the width of available plate material (approx. 78″ [1950 mm] ID and larger), it shall be manufactured by welding maximum four segments and all welds shall be 100% X-ray inspected.

Dimensional Tolerances

Inside diameter of flange: +1/16″ [1.6 mm], -0; Outside diameter of flange: ±1/8″ [3.2 mm]; Thickness of flange 18″ [450 mm] and smaller: +1/8″ [3.2 mm], -0; Thickness of flange 20″ [500 mm] and larger: +3/16″ [4.8 mm], -0; Bolt circle diameter: ±1/16″ [1.6 mm]; Bolt hole spacing: ±1/32 [0.79 mm].

Facing and Drilling

AWWA C207 flanges of all classes and types shall be flat faced (FF) – that is without projection or raised face. Either a serrated concentric or serrated spiral finish having 24~55 grooves per inch (0.94~2.17 grooves per mm) shall be used. The cutting tool employed shall have a radius of 0.06 inch (1.52 mm) or larger. The resultant surface finish shall have a 125 to 500 μinch (3.2 to 12.7 μm) roughness average (Ra), as defined in B46.1. Flange faces shall be free of lining and coating materials, except that a removable corrosion inhibitor is permitted until installation. The gasket seating surface shall not have protrusions.

For flanges up to 84″ (2,100 mm) in diameter, bolt holes shall be drilled 1/8″ (3.2 mm) larger in diameter than the nominal diameter of the bolt. For flanges larger than 84″ (2,100 mm) in diameter, bolt holes shall be drilled 3/16″ (4.8 mm) larger than the nominal bolt diameter. Bolt holes may be over-sized by an additional 1/8″ (3.2 mm) to accommodate insulators or to facilitate alignment with the mating flange. If bolt holes are over-sized, washers shall be used.