An Evaluation of Nickel‐rich Alloys In Wet Process Phosphoric Acid

Abstract: IntroductionPhosphoric acid is an important chemical intermediate and is used primarily in fertilizer production. It is;lso used extensively as an intermediate in the production of detergents, water treatment, chemicals and leavening agents.Phosphoric acid is produced by two basic methods: the wet process involving reaction of phosphate rock with an acid (sulfuric, nitric, hydrochloric) and the furnace process in which phosphorous is burned with air to produce PzO5 gas which is then hydrated to form phosphoric… Show more

“…The concentration of each species in this solution is almost similar to that observed in WPA. The major impurities responsible for higher corrosivity of WPA are fluoride, chloride and sulphate [1][2][3][4]14,18,[26][27][28][29][30][31] and therefore these were added to 37% phosphoric acid to prepare reagent grade solution in which corrosion resistance of these three alloys was examined. Both the base material and the weld of SSs exhibit a similar trend (Figure 11 and Table 6).…”

“…Phosphoric acid is used in various industries such as chemical, fertilisers, mineral leaching, water purification, petroleum refining, food and metal production [1,2]. One of its major use is in fertiliser industries for manufacturing phosphate fertilisers.…”

“…Two main processes are used to produce phosphoric acid: (a) the wet-process phosphoric acid (WPA) by leaching phosphate rocks rich in calcium phosphate minerals such as apatite, Ca 10 (PO 4 ) 6 (F,OH) 2 with H 2 SO 4 and (b) a relatively novel process by treatment with HCl followed by separation of phosphoric acid applying solvent extraction technique [2,3]. But more than 95% of phosphoric acid is obtained by the WPA route [4].…”

Comparative corrosion behaviour of stainless steels and their welds in wet-process phosphoric acid

“…The concentration of each species in this solution is almost similar to that observed in WPA. The major impurities responsible for higher corrosivity of WPA are fluoride, chloride and sulphate [1][2][3][4]14,18,[26][27][28][29][30][31] and therefore these were added to 37% phosphoric acid to prepare reagent grade solution in which corrosion resistance of these three alloys was examined. Both the base material and the weld of SSs exhibit a similar trend (Figure 11 and Table 6).…”

“…Phosphoric acid is used in various industries such as chemical, fertilisers, mineral leaching, water purification, petroleum refining, food and metal production [1,2]. One of its major use is in fertiliser industries for manufacturing phosphate fertilisers.…”

“…Two main processes are used to produce phosphoric acid: (a) the wet-process phosphoric acid (WPA) by leaching phosphate rocks rich in calcium phosphate minerals such as apatite, Ca 10 (PO 4 ) 6 (F,OH) 2 with H 2 SO 4 and (b) a relatively novel process by treatment with HCl followed by separation of phosphoric acid applying solvent extraction technique [2,3]. But more than 95% of phosphoric acid is obtained by the WPA route [4].…”

Comparative corrosion behaviour of stainless steels and their welds in wet-process phosphoric acid

Untersuchungen zum Korrosionsverhalten nichtrostender Stähle in Phosphorsäure in Abhängigkeit von dem Chlorid‐ und Fluoridgehalt und einer Wärmebehandlung beim Schweißen

Die Bedeutung der Werkstoffauswahl für die Gebrauchstauglichkeit von Chemieapparaten Auswahlkriterien und Prüfverfahren