Phosphoric acid, H3PO4, is produced from phosphate rock by wet process or thermal process. 80% of the world’s phosphoric acid is obtained by the wet process. The wet process consists of reaction, filtration and concentration steps. The phosphate rock is ground and acidified with sulfuric acid in the reactor vessel. In the reaction, the tricalcium phosphate in the phosphate rock is converted to phosphoric acid and to the insoluble salt calcium sulfate (CaSO4), also known as gypsum.
The concentration of sulfuric acid must be maintained at 93-98% as it affects the acidulation reaction rate and crystallization of gypsum. In addition, control of the sulfuric acid concentration ensures the production of the strongest
possible acid which reduces the energy requirement at the evaporators.
The next step is the filtration where the solids are separated and washed and the phosphoric acid of 32% P2O5 (about 50% H3PO4) is received. Finally, the acid is evaporated to obtain the commercial grade acid of 54% P2O5 (70% H3PO4). Further purification is required for higher grade of phosphoric acid for use in food, pharmaceutical and cosmetics industries.
Vaisala K-PATENTS® Process Refractometer helps to
Learn more details about the unique digital sensing technology and the the phosphoric acid wet process optimization from the application note.
Download the application note in PDF by filling the form.
Go back to all Chemicals & Allied Products applications