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The Development of a Resin-in-pulp Process for the Recovery of Nickel and Cobalt from Laterite Leach SlurriesZzainol@murdoch.edu.au, Zaimawati Zainol January 2005 (has links)
The processing of laterite ores for the recovery of nickel and cobalt has increased as the
reserves of exploitable sulphide ores have become depleted. The pressure acid leach
process (PAL) has become the preferred option for the treatment of laterite ores.
Difficulties associated with the poor settling characteristics of the pulp in the counter
current decantation (CCD) circuit after pressure leaching has resulted in as much as
10% of the soluble nickel and cobalt reporting to the tailings. The objective of this
project is the development of an alternative processing step for the recovery of soluble
nickel and cobalt from the PAL tailings using resin-in-pulp (RIP) technology.
Commercially available chelating resins with the iminodiacetate functional group have
been studied for their suitability for the adsorption of nickel and other metal ions from
PAL tailings pulp. The Amberlite IRC 748 resin was found to be superior despite its
lower nominal loading capacity. The resin with the highest nominal capacity was
observed to adsorb less nickel as a result of the adsorption of greater amounts of the
impurity ions. The equilibrium loading for nickel on the preferred resin was found to be
similar from the ammonium and protonated form of the resin although the kinetics of
adsorption is greater when the resin is initially in the ammonium form.
A comprehensive study has been made of the equilibrium adsorption of several metal
ions on the resin as a function of the equilibrium pH of the solution. A relatively simple
model of the equilibrium adsorption which includes the effect of pH has been developed
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and the results compared with the experimental data obtained in the M2+/Na+/H+ system.
The model which requires two equilibrium constants has been found to fairly well
describe the experimental results.
A study of the kinetics of the loading of nickel and cobalt from both solutions and pulp
has shown that the rate can be described in terms of a first-order approach to
equilibrium. The kinetic and equilibrium parameters were used to simulate the
performance of a multi-stage counter current resin-in-pulp operation A semiquantitative
study of the elution of the adsorbed metal ions from the resin by dilute
sulphuric acid solutions was also undertaken.
The technical feasibility of the RIP process for the recovery of nickel and cobalt from
the PAL tailings has been successfully demonstrated in both laboratory and pilot-plant
studies using a five-stage adsorption process. Important parameters such as the
operating pH and the residence times of pulp and resin in each stage were identified
through the batch test work coupled to the simulation procedure.
The optimum pH for adsorption was found to be in the range 4 to 5 as this pH is high
enough to maximise the adsorption of nickel and cobalt while preventing precipitation
of nickel and cobalt as hydroxides from the pulp. A method for minimizing the
competition from more strongly loaded ions such as iron(II) and chromium(III) which
are present in the pulp was also developed in the initial laboratory phase of the project
and utilized during the pilot operation.
Problems associated with the preparation of the pulp preparation, elution of the loaded
resin and control of the adsorption train were resolved during several pilot plant runs on
site at a local PAL plant. These and other minor improvements and adjustments to the
operating procedure culminated in a successful continuous run for several days during
which the target recovery of 90% for nickel and 60% for cobalt was exceeded
throughout the run.
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Laboratory Analysis of a New Sand Consolidation Material for Oilfield ApplicationsFilbrandt, Joseph Daniel 2010 December 1900 (has links)
The production of sand can be a major issue in many young, unconsolidated
sandstone formations where there is little to no cement holding the individual sand
grains together. When such reservoirs are produced, quite often operators face problems
with reduced well productivity and equipment failure. Because of these issues, the
industry has developed numerous techniques in its effort to control formation sand
production. Sand consolidation is one technology that has been studied and used since
the 1940s. The theory behind sand consolidation technology is to place a liquid material
which will create a grain to grain contact that will bind individual sand grains together.
Most consolidation treatments contain a preflush to clean and wet the surface, the
consolidating system to bind the sand grains and give residual strength, and, finally, an
overflush to ensure the formation is still able to produce fluids. With the successful
placement of this fluid, the sand grains will be locked in placed so that they will not be
produced. The technology has gone through many phases of conception since the 1940s;
however, most consolidation material that is pumped in the past has been based upon an
epoxy or furan backbone.
While there are many technologies available, for the purpose of my research, the
epoxy technology was experimentally investigated. The testing of the fluid involved
investigating numerous additives to obtain the correct residual strength of the sample, as
well as the necessary retained permeability. For the epoxy fluid, the optimal preflush,
epoxy system and overflush formulations were determined after 250 checkout tests. Based upon these tests, the fluid was optimized to its working time and UCS results. The
optimal system included the addition of PA2 to the preflush, along with PA1 and an
aromatic amine curing agent to the epoxy system. PA1 and PA2 are adhesion promoter
additives which were deemed necessary as a result of the testing. This system was then
tested further in a HP/HT cell. While there is still room for improvement with respect to
retained permeability, the system still performs very well in terms of UCS.
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INNER FORM - OUTER HONESTYWEST, CARL 14 July 2005 (has links)
No description available.
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Toughening mechanisms in a particle filled brittle matrixWilliams, S. January 1982 (has links)
No description available.
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The chemistry of the resins of some East African BurseraceaeProvan, G. J. January 1986 (has links)
No description available.
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Study of epoxy resins and their interaction with waterPollock, Elizabeth A. January 1989 (has links)
No description available.
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Boron linkers and immobilised boraines for solid phase chemistrySampson, David Francis John January 2002 (has links)
No description available.
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Experimental investigation into the double RIFT diaphragm forming processChanner, Kevin John January 2001 (has links)
No description available.
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The development and modification of flaws in silicate glassesKingston, John G. R. January 2000 (has links)
No description available.
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The glass to rubber transition of epoxy resins : effects of network structureBanks, Lewis January 1982 (has links)
No description available.
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