Citation: Bw. Brooks et Hn. Richmond, THE APPLICATION OF A MIXED NONIONIC SURFACTANT THEORY TO TRANSITIONALEMULSION PHASE INVERSION .1. DERIVATION OF A MIXED SURFACTANT PARTITIONING MODEL, Journal of colloid and interface science, 162(1), 1994, pp. 59-66
Citation: Bw. Brooks et Hn. Richmond, THE APPLICATION OF A MIXED NONIONIC SURFACTANT THEORY TO TRANSITIONALEMULSION PHASE INVERSION .2. THE RELATIONSHIP BETWEEN SURFACTANT PARTITIONING AND TRANSITIONAL INVERSION - A THERMODYNAMIC TREATMENT, Journal of colloid and interface science, 162(1), 1994, pp. 67-74
Citation: Bw. Brooks et Hn. Richmond, PHASE INVERSION IN NONIONIC SURFACTANT OIL-WATER SYSTEMS .1. THE EFFECT OF TRANSITIONAL INVERSION ON EMULSION DROP SIZES, Chemical Engineering Science, 49(7), 1994, pp. 1053-1064
Citation: Bw. Brooks et Hn. Richmond, PHASE INVERSION IN NONIONIC SURFACTANT OIL-WATER SYSTEMS .2. DROP SIZE STUDIES IN CATASTROPHIC INVERSION WITH TURBULENT MIXING, Chemical Engineering Science, 49(7), 1994, pp. 1065-1075
Citation: Bw. Brooks et Hn. Richmond, PHASE INVERSION IN NONIONIC SURFACTANT OIL-WATER SYSTEMS .3. THE EFFECT OF THE OIL-PHASE VISCOSITY ON CATASTROPHIC INVERSION AND THE RELATIONSHIP BETWEEN THE DROP SIZES PRESENT BEFORE AND AFTER CATASTROPHIC INVERSION, Chemical Engineering Science, 49(11), 1994, pp. 1843-1853