Innovations in Flotation Technology /

Innovations in Flotation Technology / edited by P. Mavros, K.A. Matis.

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Bibliographic Details
Online Access: Full Text (via Springer)
Main Author: Mavros, P.
Other Authors: Matis, K. A.
Other title:Proceedings of the NATO Advanced Study Institute, Kallithea, Chalkidiki, Greece, May 12-25, 1991.
Format: eBook
Language:English
Published: Dordrecht : Springer Netherlands, 1992.
Series:NATO ASI series. Applied sciences ; 208.
Subjects:
Geography.
Physical organic chemistry.
Chemical engineering.
Table of Contents:
  • 1. Fundamentals
  • 1.1. The Study of Thin Aqueous Films as Models for Froths and Flotation
  • 1.2. The Mechanisms of Collector Adsorption-Abstraction (Ionic and Non-Ionic Surfactants) on Heterogeneous Surfaces
  • 1.3. Electrochemistry in the Plant
  • 1.4. Flocculation of Fine Particles
  • 1.5. Applied Mineralogy and Materials Balancing Procedures. Evaluations of Flotation Concentrators
  • 1.6. Liberation by Size Reduction. Consequences and Improvements on Flotation Kinetics
  • 1.7. Elements of Physically-Based Modelling of the Flotation Process
  • 2 . Chemical Technology Aspects
  • 2.1. Flotation Kinetics
  • 2.2. Mixing and Hydrodynamics in Flotation Cells
  • 2.3. Case Studies of Flotation Control
  • 2.4. Mineral Surface Complexation in Flotation
  • 2.5. Amide-Based Technologies in Flotation and Hydrometallurgy of Precious Metals
  • 2.6. Determination of Floatability Data using the EmDee Microflot Method
  • 2.7. Froth Flotation Kinetics
  • Theory and Model Experiments
  • 2.8 Electrolytic Flotation
  • 3. Mineral Processing
  • 3.1. Features and Rotation of Complex Cu-Pb-Zn Sulphides
  • 3.2. Interactions of Anionic Collectors in Flotation of Semi-Soluble Salt Minerals
  • 3.3. Flotation of Salt-Type Minerals
  • 3.4. Vibroacoustic Improvements of Froth Flotation
  • 3.5. The Institute of Geology and Mineral Exploration (IGME) of Greece and its Research Activities on Flotation
  • 3.6. The Influence of Multivalent Cations on the Floatability of Scheelite, Fluorite and Calcite
  • 3.7. Non-Cyanide Technology for the Flotation of Lead-Zinc Ores
  • 4. Water and Wastewater Treatment
  • 4.1. Flotation in Water Treatment
  • 4.2. Mechanism of Selective Ion Flotation
  • 4.3. Flotation Techniques in Waste Water Treatment
  • 4.4. Flotation of Pigments and Inks from Waste Paper
  • 4.5. A Case Study of Flotation Applied to an Edible Oil Factory Wastewater
  • 4.6. The Need for Advanced Treatment of Stormwater Run-off from Separate Sewer Systems
  • List of Contributors
  • List of Participants.

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