Range of lugged and wafer type butterfly valves with blue epoxy coated bodies, incorporating EPDM rubber ‘O’-rings and seat, and either a bronze (AB2), stainless steel (CF8 & CF8M) or blue epoxy coated or nickel plated, ductile iron (DI) disc. Maximum working pressure 25.0 bar. Maximum operating temperature 85°C.
Range of wafer, lugged and flanged type butterfly valves with bronze, stainless steel or ductile iron bodies (orange epoxy coated) with bronze, stainless steel or ductile iron disc materials and EPDM seats. Maximum working pressure 16.0 Bar
Non-metallic materials and components comply with BS6920 at 50°C
Range of wafer and lug type butterfly valves incorporating blue epoxy coated ductile iron bodies, either stainless steel (SS316/SS304) or epoxy coated ductile iron discs and EPDM seat. Maximum working pressure 16.0 bar Maximum operating temperature 85°C.
Range of lugged and wafer type butterfly valves with blue epoxy coated bodies, incorporating EPDM rubber ‘O’-rings and seat, and either a bronze (AB2), stainless steel (CF8 & CF8M) or blue epoxy coated or nickel plated, ductile iron (DI) disc. Maximum working pressure 25.0 bar. Maximum operating temperature 85°C.
Range of butterfly valves with ductile iron bodies (blue epoxy coating), stainless steel disc and EPDM seat. The valves are operated by a lever mechanism. Maximum working pressure 20.0 bar. Cold water use only.
Range of flanged butterfly valves incorporating blue epoxy coated ductile iron bodies and discs with EPDM rubber seats. Models incorporate hand wheel operating members. Maximum working pressure 16.0 Bar.
Non-metallic materials and components comply with BS6920 at 85°C
Range of butterfly valves with ductile iron bodies and discs (blue epoxy coated), Stainless Steel retaining ring, Bronze bushes and EPDM sealing ring. Hand wheel operated. Maximum working pressure 16.0 bar.
Non-metallic materials and components comply with BS6920 at 80°C
Range of handwheel & gear operated butterfly valves with blue epoxy coated ductile iron bodies and discs and EPDM rubber seat. Maximum working pressure 16.0 bar. Cold water use only. Maximum operating temperature 85°C (from Sept 2021)
Range of wafer or lugged butterfly valves with blue epoxy coated ductile iron bodies, stainless steel discs and EPDM seats. The valves can either be lever or gear oprated via a hndwheel. Maximum working pressure 16.0 bar. Maximum operating temperature 85°C.
Range of wafer or lugged butterfly valves with blue epoxy coated ductile iron bodies, stainless steel discs and EPDM seats. The valves can either be lever or gear operated via a handwheel. Maximum working pressure 16.0 bar. Maximum operating temperature 85°C.
Range of wafer and lug type butterfly valves incorporating blue epoxy coated ductile iron bodies, either stainless steel (SS316/SS304) or epoxy coated ductile iron discs and EPDM seat. The valves are either handwheel and gear operated (Models D371X and DL371X) or lever operated (Models D71X and DL71X). Maximum working pressure 16.0 bar Maximum operating temperature 85°C.
Range of manually operated double regulation and commissioning valves with gunmetal bodies, incorporating a PTFE sealing ring and EPDM ‘O’- rings. Flow is controlled via a non-rising spindle headwork. Maximum working pressure 25.0 bar. Maximum operating temperature 90°C.
Range of spring-loaded resilient trim, non-return valves with blue epoxy coated ductile iron bodies, stainless steel discs and EPDM seals. Maximum working pressure 16.0 bar. Maximum operating temperature 80°C.
Range of swing gate non-return valves (resilient trim) with blue epoxy coating ductile iron bodies, epoxy coated ductile iron gate with EPDM valve seat and hydraulic damper. Maximum working pressure 16.0 bar.
Non-metallic materials and components comply with BS6920 at 80°C
Range of non return valves with bronze bodies and discs, and an EPDM washer. Maximum working pressure 20.0 bar. Maximum operating temperature 85°C.
Range of in-line adjustable pressure reducing valves, with DZR brass bodies and EPDM membrane. Maximum inlet supply pressure 16.0 bar. Outlet pressure 1.5 bar to 6.0 bar.
Non-metallic materials and components comply with BS6920 at 80°C
`535` range of adjustable, in-line pressure reducing valves with DZR brass bodies, incorporating a spring loaded EPDM diaphragm and a gauge port. The 535022 compression model is for use with copper pipe (manufactured to EN1057). The product incorporates an intergal stainless steel strainer. Models can be supplied with or without a pressure gauge (see model), which inserts in the test port location. The outlet pressure range is adjustable between 1.0 and 6.0 bar. Maximum inlet supply pressure 16.0 bar.
Non-metallic materials and components comply with BS6920 at 40°C
Range of normally closed, normally open or latching inline solenoid valves with brass bodies and EPDM ‘O’-rings and diaphragms. Maximum working pressure: PU225DN-03, PU225DN-04, PU225DN-08, PU225DN-12, PU225DN-14, LPU225D-03, LPU225D-04, LPU225D-08, LPU225D-12 & LPU225D-14 models - 7.0 bar. All other models - 10.0 bar. Cold water use only.
Range of normally open solenoid valves with brass bodies, EPDM ‘O’-rings and diaphragm. The inlet incorporates a stainless-steel strainer. Maximum working pressure 10.0 bar. Maximum operating temperature, EV220BW 50BE G2E NO000 model: Cold water use only, all other models: 85°C. From November 2023 onwards all models: 85°C.
Range of solenoid valves with a brass body and an EPDM diaphragm and gasket. For use with copper pipe (manufacture to EN1057). Maximum working pressures: X210525720001aa, X210525720002aa, X210525720101aa and X210525720102aa models 10.0 bar. X210525720011aa and X2105257201111aa models: 3.0 bar.
Non-metallic materials and components comply with BS6920 at 85°C
Page 55 of 112
We use cookies to give you the best possible experience with WRAS. Some are essential to provide website functions and ensure the website is secure. We also use cookies to help us understand how people use the site and to make improvements. Click "Accept All" to enable recommended settings or click "Manage cookies" to adjust your settings. For more details, see our Cookie Policy.
