Beneficiation of West Sibaiya phosphate ores by flotation in alkaline media

Four big head phosphate samples (about 200 kg) were collected from West Sibaiya mines [medium grade (sample 1, southern mine), high grade (sample 2, the mine in the cultivated area), low grade (sample 3, oversize), and tailings (sample 4) phosphate ores]. The representative samples were analyzed chemically for P(2)O(5), Fe(2)O(3),Al(2)O(3), InR, CaO, MgO, TiO, MnO, SO(4)(2-), F(-), Cl(-) loss on ignition (LOI), and U before and after screen analysis (-10.0 +9.50, -9.50 +6.70, -6.70 +2.0, -2.0 +1.0, -1.0 +0.85, 0.85 +0.710, -0.710 +0.500, -0.500 +0.350, -0.350 +0.250, -0.250 +0.180, -0.180 +0.125, -0.125 +0.075,and -0.075-mm-size fractions). The different grades of phosphate ores (organogenic-granular phosphorite ores with carbonates, calcite, calcedony, etc.) were beneficiated using local crude rice bran oil and imported oleic acid (individuals) as collectors, NaOH or KOH as the pH adjustor, and Na(2)SiO(3) as the silica depressant. The results indicate that -0.355, +0.180 mm grain size, pH = 9.6, 20 minutes conditioning time, 0.7 kg Na(2)SiO(3) (depressant)dose/ton feed ore, 4.25 kg rice bran oil dose/ton feed of phosphate ore or 3.4 kg oleic acid (collector) dose/ton feed of phosphate ore, and cleaning (reflotation) of phosphate concentrates are the optimum conditions for beneficiation of Sibaiya phosphate ores. On cleaning (reflotation) the phosphate ore feeds of samples 1 (medium, P(2)O(5) = 28.67 pet), 2 thigh, P(2)O(5) = 31.70 pet), 3 (oversize, P(2)O(5) = 25.30 pet), and 4 (tailings, P(2)O(5) = 22.61 pct)using rice bran oil as a collector, the feeds beneficiate into concentrates of P(2)O(5) pet equal to 31.87, 34.70, 26.16, and 31.90 pet (recoveries equal 49.41, 61.41, 52.01, and 29.03 pet P(2)O(5)) for samples 1, 2, 3, and 4, respectively. On using oleic acid as a collector, P(2)O(5) pet in phosphate feeds of samples 1, 2, 3, and 4 increases (upgrades) into 31.28, 33.95, 26.82, and 30.70 pet in concentrates (recoveries equal 61.74, 53.60, 53.31, and 36.30 P(2)O(5)). Comparing the results obtained on using rice bran oil and oleic acid as collectors from the economic point of view, the costs of producing 1 ton phosphate concentrate by rice bran oil are lower (similar to LE 70) than those on using oleic acid (similar to LE 100) as a flotation collector.