FOOT CHECK VALVES
WATER TECHNOLOGIES – IN HOUSE MANUFACTURING
Are used to strain the liquids that flow into the aspiration, and therefore avoid entrée of too big elements that can damage the pipeline. Are mainly connected to the check valves for application as foot valve.
Water treatment and supply.
Networks for clean water distribution, irrigation (filtered water).
Centred check disc valve
RANGE: DN 50 TO DN 900
Dual Plate check disc valve
RANGE: DN 50 TO DN 1400
Ball check disc valve
RANGE: FLANGED ENDS FROM DN 40 to DN 600
Design: Available from all our type of check valve in combination with strainers.
Strainers can be sold individual
Materials: galvanized steel,stainless AISI304 and AISI316.
Standard: Galvanized steel with stainless steel bolting A2*.
Opcional: Stainless steel AISI304/AISI316 with stainless steel bolting A2*
Over the years the most frequent used materials on the desalination market have been the so called “Superstainless” or “ superaustenitic”, which anti corrosive properties are superior to austenitic steels.
Due to the price increment on the prime materials and as an alternative more competitive for these materials, Duplex and Superduplex of second generation have been introduced in the market of desalination.
The family of Duplex and Super duplex Stainless steels offer a significant advantage over Standard austinic steels.
The 50/50 ferrite /austenite structure gives improved corrosion and abrasion resistance together with improved tensile and yield properties.
Duplex Composition range is obtained by a complex structure, and therefore requires a much greater degree of technology, melting and process control compared with austenitic stainless steel constructions.
CASTFLOW VALVES S.L. has been experiencing the production of check valves in Duplex stainless steel for the last years, increasing our knowledge on the complex casting technology.
PITTING RESISTANCE EQUIVALENT NUMBER (PREN)
The resistance to pitting of an alloy is of vital importance , particularly so in handling seawater.
Assessment of resistance to pitting is often made by use of a pitting resistance equivalent number which, when this takes account of Cr Mo and N is referred to as a PREn Number.
Calculation is made on the basis of the following.