Results reveal that the raw materia

Results reveal that the raw materials from the salt lake contain substantial amounts of salt
which can be commercialized for optimum production. The brines are highly alkaline and rich
in Na+, K+, Cl-, SO4
2-, CO3
2-, and HCO3
-. Moreover, they contain trace amounts of Mg2+,
Ca2+, Br-, and F-. The lake is hydro-chemically of a carbonate type with the brines showing an
intermediate transition between Na-Cl and Na-HCO3 water types. The evaporites are
composed of halite mixed with other salts such as hanksite, burkeite, trona etc, with their
composition varying considerably within the same grades. The laboratory extraction
experiments indicate that various types of economic salts such as thenardite, anhydrite,
mirabilite, burkeite, hanksite, gypsum, trona, halite, nahcolite, soda ash, and thermonatrite
precipitate from the brine of Lake Katwe. The salts crystallize in the order following the
sequence starting with sulfates, followed by chlorides and carbonates, respectively. Moreover,
thermodynamic modeling in PHREEQC accurately predicted the solubility and sequence of
the salt precipitation from the lake brine. Understanding the sequence of salt precipitation
from the brine helps to control its evolution during concentration and hence, will lead to an
improved operating design scheme of the current extraction processes. The work provides
information towards future mineral salt exploitation from the salt lake.