Citation: K. Rahal et al., Effect of frother type and concentration on the water recovery and entrainment recovery relationship, MIN MET PR, 18(3), 2001, pp. 138-141
Citation: Da. Deglon et al., Review of hydrodynamics and gas dispersion in flotation cells on South African Platinum concentrators, MINER ENG, 13(3), 2000, pp. 235-244
Authors:
Gorain, BK
Franzidis, JP
Ward, K
Johnson, NW
Manlapig, EV
Citation: Bk. Gorain et al., Modeling of the Mount Isa rougher-scavenger copper flotation circuit usingsize-by-liberation data, MIN MET PR, 17(3), 2000, pp. 173-180
Citation: Bk. Gorain et al., The empirical prediction of bubble surface area flux in mechanical flotation cells from cell design and operating data, MINER ENG, 12(3), 1999, pp. 309-322
Citation: Ma. Vera et al., Simultaneous determination of collection zone rate constant and froth zonerecovery in a mechanical flotation environment, MINER ENG, 12(10), 1999, pp. 1163-1176
Authors:
Savassi, ON
Rahal, KR
Johnson, NW
Franzidis, JP
Citation: On. Savassi et al., Mass transfer across the pulp-froth interface in industrial flotation cells - Part 1: Jg probe for measurement of the air flow rate, T I MIN M-C, 108, 1999, pp. C99-C102
Authors:
Savassi, ON
Rahal, KR
Johnson, NW
Franzidis, JP
Citation: On. Savassi et al., Mass transfer across the pulp-froth interface in industrial flotation cells - Part 2: entrainment analyser for measurement of the mass transfer of suspended particles, T I MIN M-C, 108, 1999, pp. C102-C104
Authors:
Savassi, ON
Rahal, KR
Johnson, NW
Franzidis, JP
Citation: On. Savassi et al., Mass transfer across the pulp-froth interface in industrial flotation cells - Part 3: bubble load analyser for measurement of the mass transfer of attached particles, T I MIN M-C, 108, 1999, pp. C104-C109