A study of the decay of acid cationic ion exchange resin

Nesbitt, Allan Bernard

January 2016

A study was undertaken on the decay of acid ion exchange resin from both a qualitative and quantitative perspective. The qualitative study concentrated on observing the impact on resin strength of varying electrolyte concentrations and varying di-vinyl benzene contents, during the loading phase. The phenomenon of osmotic shock in addition to resin cracking and swelling is clearly observed. A further qualitative study bore out the change in resin rigidity as the resin is artificially degraded through repeated loadings and regenerations performed by using a specially constructed device that cyclically loads and regenerates resin up to 1000 times in a three week period. Loss of resin rigidity was observed under these circumstances and was measured by means of observing changes in degree of swelling/contraction and changes in translucence. Quantitative study of the resin was limited to its characterisation through measurement of the equilibrium through the Mass-Action Law, capacity and resin kinetics. A study, of existing kinetic rigorous modelling methods and in particular the extensively published challenge of the multiple mechanism adsorption process, was undertaken. A rigorous model, that divorces the external and internal mass-transport parameters from the traditionally utilised lumped parameter, is proposed. All kinetic measurements were performed in a 1 litre closed circuit (finite system) consisting of a variable-pump, a five mL zero length column (ZLC) and a reservoir, allowing for the insertion of probes and sample extraction. An original method of model simulation for the purposes of fitting to kinetic data was developed and consists of determining the resin surface concentration from flux data assuming the applicability of Newton's Law of Cooling to the ionic flux through the external laminar layer. Simulation of flux inside the resin was achieved by assuming an internal homogeneous environment and the applicability of the Nernst-Plank equation that combines transport effects of both Fick's Law of Diffusion and inter-ion electrical forces to the flux of both the adsorbing and desorbing ions simultaneously, during the transient adsorption process.

Chemical Engineering

Hydrometallurgy

Hydrogen reduction of lead from Kelex 100

De Santis, Donato.

January 1987

No description available.

Lead -- Metallurgy

Hydrometallurgy

Strength, transport efficiency and selectivity of novel extractants for the recovery of base metals

Lin, Tai

January 2009

This thesis concerns the development of new types of solvent extractants for use in the hydrometallurgical recovery of base metals, and addresses the ligand design features which are needed to control the strength, transport efficiency and selectivity of these extractants. Chapter 1 provides background on the development of extractive metallurgy, e.g. pyrometallurgy and hydrometallurgy, and introduces the history, basic terminology and various processes and reagents involved. Solvent extraction as a hydrometallurgical technique to achieve the recovery of base metals is discussed in most detail. The design criteria of extractants are highlighted as the focus of the whole thesis. Chapter 2 investigates the potential of salicylaldehyde hydrazones as cation exchange extractants for hydrometallurgical recovery of copper, and studies substituent effects, e.g. electronic, steric and particularly “buttressing” of ligand-ligand hydrogen bonding, on the strength and efficacy of the extractants. A series of 3-substituted (X) and N-substituted salicylaldehyde hydrazones has been developed. Solvent extraction experiments show that the 3-substitution can increase the distribution coefficient of the methylhydrazone for copper extraction by more than three orders of magnitudes along the series (X) Me < OMe ≤ H < Br < NO2. Both the phenol acidity and intermolecular hydrogen bonding are significantly influenced by the 3-substituent as judged by a systematic NMR study on the solution speciation of the free ligands. Electron-withdrawing groups which also act as hydrogen bond acceptors (X = NO2 or Br) are particularly effective in enhancing the strength of the methylhydrazones. Compared to the commercially applied salicylaldoximes, the hydrazones are weaker extractants, and the strength varies in the order: oximes > methylhydrazones > phenylhydrazones. This order probably arises from a combination of variations in the phenol acidities and the strength of the hydrogen bonding motifs, which are also probed in the free ligands using NMR techniques. Chapter 3 considers reagents capable of extracting metal salts and deals with the development of polytopic salicylaldimine ligands bearing pendant tertiary amine groups for the hydrometallurgical recovery of zinc chloride. These extractants show extremely high transport efficiency of metal salts with more than two moles of ZnCl2 loaded per mole of ligand, and high chloride over sulfate selectivity in solvent extraction experiments. The unusual multiple loading suggests the extraction of chlorozincate as anion species, which is supported by the elemental analysis and ESI MS spectra of the formed complexes. The zinc chloride dependent extraction and stripping experiments further indicate that the extraction process is controlled by the Cl- activities in the aqueous solutions. 1H NMR studies show that two different complexes are successively formed in solution as the ligand to zinc stoichiometry is increased to 1L : 2ZnCl2, with the first formed by extracting the zinc cation at low ZnCl2 concentrations and the second likely resulting from the further extraction of chlorozincate at high ZnCl2 concentrations. An extraction mechanism is proposed in which a tritopic assembly [ZnLCl2] forms by binding the Zn2+ cation with the N2O2 2- site of the “salen” type ligands and two Cl- anions with the protonated pendant amine groups and then a ditopic assembly [ZnL(ZnCl4)] forms by extracting the [ZnCl4]2- anion when the reagent is contacted with high tenor ZnCl2 feed. The possible formation of tritopic assemblies [ZnL(ZnCl3)2] accounts for Zn-loadings higher than 200%. The ligand design features such as the benefits of combining cation and anion binding sites in the same molecule are indicated by comparing the polytopic ligands with a series of dual host pairs of the salen ligand and hydrophobic amines. The polytopic ligands show potential for industrial application as ZnCl2 extractants. Finally chapter 4 focuses on the anion binding and selectivity involving simple anions and chlorometallates in solvent extraction by the polytopic ligands discussed in chapter 3 and their metal complexes. A novel and reliable method for chloride analysis in the presence of complexing metal cations has been developed using excess silver(I) to precipitate chloride and then analyze the silver content by ICP-OES technique. Multiple loadings of chloride are achieved by the polytopic ligands, which confirms the uptake of metal salt as ZnCl2, and is desirable for excellent material balances in hydrometallurgical processes. The anion binding of the copper-only complex [Cu(L-2H)] supports the proposed extraction mechanism by indicating that one mole of zinc is extracted in the likely form of chlorozincate anions when the cation binding site is occupied by Cu2+. The polytopic ligands and their copper-only complexes [Cu(L-2H)] show the same anion selectivity following the order [ZnCl4]2- > Cl- > SO4 2-, which can be explained by the hydration energies of these anions. Extractions from ZnCl2, ZnSO4, Zn(NO3)2 or mixed feed solutions indicate that the zinc transport efficiency is also dependent on the nature of counter anions.

547.05

The simulation of a transient leaching circuit /

Rademan, Johan Andries Muller.

January 1995

Dissertation (Ph. D.)--University of Stellenbosch, 1995. / Bibliography. Also available via the Internet.

Design of a novel adsorption process for recovering PGMs from leach solutions.

Mbaya, Richard Kady Kadiambuji.

January 2008

D. Tech. Chemical and Metallurgical Engineering. / Aims to develop a continuous process model for extracting platinum from a mixed chloride solution selectively and to establish the conditions under which the platinum content in the feed solution could be upgraded hundred times. The continuous adsorption test will be carried out by using an ideal batch reactor and a packed bed column. The mass transfer characteristics associated with these two process units will be studied and compared along whether other parameters such as adsorption rate constants, selectivity and metal upgrade capability.Comprehensive data will be generated beginning with multicomponent adsorption test results (isotherm ) diffusivities and thermodynamic properties (enthalpy of adsorption)

Dissertations, Academic -- South Africa.

Hydrometallurgy.

Diffusion as a factor in heap leaching of copper ores

Sweet, Alvin Jay

January 1928

No description available.

Hydrometallurgy.

Copper -- Metallurgy.

Heap leaching.

Leaching of a copper sulfide concentrate in an ammonia-oxygen system

Weiss, Iosef-Carol, 1949-

January 1976

No description available.

Leaching.

Hydrometallurgy.

Copper ores -- Arizona.

A hydrometallurgical process for roasted nickeliferous limonites /

Todd, Iain A.

January 1979

No description available.

Hydrometallurgy.

Nickel industry.

Nickel ores.

Direct cobalt recovery from loaded KELEX 100 by reaction with hydrogen

Stubina, Nathan M.

January 1982

No description available.

Cobalt -- Metallurgy.

Electrolytic reduction.

Hydrometallurgy.

Influence of the cell properties of acidophilic bacteria during attachment to mineral sulfides and consumption during the oxidation of ferrous iron

Sampson, Mark Ian

January 1999

No description available.

610.28

Bacterial leaching; Bio-hydrometallurgy