+ Site Statistics
References:
54,258,434
Abstracts:
29,560,870
PMIDs:
28,072,757
+ Search Articles
+ PDF Full Text Service
How our service works
Request PDF Full Text
+ Follow Us
Follow on Facebook
Follow on Twitter
Follow on LinkedIn
+ Subscribe to Site Feeds
Most Shared
PDF Full Text
+ Translate
+ Recently Requested

Calculations in the dihydrate phosphoric acid process. Part 1. Material and heat balance



Calculations in the dihydrate phosphoric acid process. Part 1. Material and heat balance



Fertilizer Technology, UK 1(1): 135-159



A model and a computer program have been developed in BASIC for heat and material balance calculations in the dihydrate phosphoric acid process. The data inputs required are the chemical analyses of the rock, the process conditions used, and some process assumptions. The number of independent variables used in the model is 34.

Please choose payment method:






(PDF emailed within 1 workday: $29.90)

Accession: 001311703

Download citation: RISBibTeXText


Related references

Calculations in the dihydrate phosphoric acid process. Part 2. Variable costs of phosphate rocks. Fertilizer Technology, UK 1(2): 235-248, 1985

Computer program for the mass and heat balance calculations for the wet process phosphoric acid (hemi-hydrate) and its applications to Saudi phosphate rock. Fertilizer Research 35(3): 169-175, 1993

Dihydrate-hemihydrate method of production of wet-process phosphoric acid from magnesium-containing raw material. Soviet Chemical Industry 20(12): 37-40, 1988

Simulation of the dihydrate process for the production of phosphoric acid. Korean Journal of Chemical Engineering 8(1): 23-32, 1991

Filtration characteristics of phosphoric acid magmas in the dihydrate process. Luma (Leeds) 1988: 27-37, 1988

Treatment of fluorine-containing gases in the dihydrate production of wet-process phosphoric acid. Soviet Chemical Industry 23(11): 68-70, 1991

Continuous recrystallization of calcium sulfate dihydrate to the hemihydrate in the phosphoric acid wet process. Journal of Applied Chemistry of the USSR 59(6, Pt.1): 1109-1113, 1986

Innovative findings about ferrous oxalate dihydrate crystallization in simulated dihydrate phosphoric acid product. Water Science and Technology 77(11-12): 2940-2945, 2018

Phosphoric acid/wet process: what process? A guide to process selection for phosphoric acid manufacture by sulphuric acid dissolution. Proceedings, Fertiliser Society, UK (269): 47, 1988

Theoretical calculations of the hydrolysis energies of some high energy molecules part 1 the phosphoric acid and carboxylic acid anhydrides. Journal of the American Chemical Society 97(16): 4762-4763, 1975

Thirty years of the S.I.A.P.E. process for the production of phosphoric acid by the wet process and experience in the revamping of phosphoric acid and fertilizer plants. Proceedings, IFA 1986 Technical Conference Port el Kantaoui, Tunisia, Oct 28-30, 1986: 30, 1986

A thermally stable phase change material with high latent heat based on an oxalic acid dihydrate/boric acid binary eutectic system. Solar Energy Materials and Solar Cells 168: 38-44, 2017

Sensitivity analysis of material balance calculations an application to a cement clinker grinding process. Powder Technology 32(1): 139-153, 1982

Purification of wet process phosphoric acid by solvent extraction with dibutyl ether. Part I. Liquid-liquid equilibrium of the system water-phosphoric acid-dibutyl ether at 25 degrees C. Solvent Extraction and Ion Exchange 7(2): 201-210, 1989

Surface properties of phosphate raw material under conditions of production of wet-process phosphoric acid. Soviet Chemical Industry 23(3): 35-41, 1991