So, it was refreshing to find a mining company that thought
out of the box. To its eternal benefit Maelgwyn found such a company back in
2009 and it will be of no surprise to anyone involved in mining to hear that
the company was Africa focused gold mining company Randgold Resources.
Randgold was recognised as being at the forefront of
environmental, social and governance (ESG) issues way before it became
fashionable in the mining industry. Its support to countries, the environment
and the local population where it operates has been exemplary. It’s advanced practices’ in exploration
geology and mine planning are well known in the industry. But less well known is its embracement of new
technology and concepts in the way gold ore is processed.
It all started back in 2009.
Randgold were already operating a number of gold mines in Africa and had
discovered or acquired what would become world class gold deposits at Tongon in
the Ivory Coast and Kibali in the Democratic Republic of Congo. The problem with these deposits, like most in
west and central Africa, was that they had refractory components to some
degree. This made the processing of such ores for gold recovery difficult by
conventional means or requiring very high capital cost associated with advanced
processing methods of pressure oxidation or bacterial leaching.
By this time Maelgwyn had developed and patented world-wide
its Leachox process;
“Extraction Process for Metals like Gold and Platinum
including Fine Grinding, Pulping and Oxygenating”
The process involves the also patented Maelgwyn Aachen
Reactor combined with ultra-fine grinding and the leaching of
concentrates. Maelgwyn had previous
success with the process at a number of gold operations treating refractory
gold ore and Randgold wanted to investigate the technology and processes. So, it installed a number of Aachen Reactors
at its existing Loulo gold operation in Mali, essentially to undertake due
diligence on the technology. Loulo ore
was not particularly refractory but the Aachen Reactors immediately and
dramatically increased the dissolved oxygen levels in the process (required for
gold leaching), reduced reagent consumption and importantly increased gold
recovery. We made this amateur “home movie”
at the time of the Loulo operation. It’s not the most riveting movie but of
interest near the end of the film is the jump in dissolved oxygen levels in the
leach tanks from below 2ppm to 28ppm when the Reactor was put on-line.
After months of operation of the Aachen Reactors to prove
reliability Randgold was convinced of the process and worked with Maelgwyn and
its metallurgical laboratories to come up with a workable process concept for
its Tongon and Kibali projects. Both process plants for these projects were
designed around the Leachox process.
Kibali is considered one of the “Tier One” gold operation in
the world producing nearly a million ounces of gold annually. As with most gold
ore deposits Kibali consisted of a covering of weathered oxide ore, underlaid
be a layer of transition ore. Essentially transition ore is a mix of weathered
and primary un-weathered ore or any combination in between. Not necessarily a
major component of the orebody but difficult to process. Under the transition
ore was the primary sulphide ore. This primary ore was the majority of the
orebody and refractory in nature.
Randgold designed the process flowsheet for Kibali to first
treat the oxide ore by a conventional Carbon in Pulp method with Aachen
Reactors installed to increase dissolved oxygen levels, negate cyanide
consuming species in the ore and maintain a higher level of gold recovery. When
transition ore was introduced the Reactors had to work harder to maintain
maximum recovery. However, the plant was
designed to be able to treat the majority of the orebody in a separate circuit
where the gold was contained in refractory sulphides. To this end a flotation
plant and concentrate ultra-fine grind circuit was installed prior to the
Aachen Reactors. Combined with ultra-fine grinding the Reactors partially
oxidized the sulphides thus liberating gold particles to be leached. The Aachen
Reactors also negate passivation to also assist the gold leaching process. Finally, Aachen Reactors were also installed
in combination with the Air/SO2 cyanide destruction process to make the plant
tailings safe for depositing in the tailings dam. In all there were 18 Aachen Reactors
installed at Kibali. Eventually Aachen Reactors were installed or retrofitted
into all Randgold’s operations.
Mark Bristow, CEO of Randgold and now CEO of Barrick Gold is
reputed to have referred to the Leachox process and the Aachen Reactors as the
“Golden Bubbles”. We believe we
certainly contributed to the success of Randgold. We estimate that across all Randgold
Resources operations since the Reactors have been installed, they have been
responsible for well over one billion dollars in extra revenue for
Randgold. This figure is obviously only
a guestimate on our part as most detailed production data of the various mines
is confidential. It was estimated on officially released production figures
over the time period, results from initial metallurgical testwork and operating
plant data where it has been provided to us and then average gold prices. We
think this estimate is conservative and does not include the considerable operating
cost savings in reduced reagent usage caused by the reactors.
The licence and supply of Aachen Reactors to the client
means that they are monitored and maintained by Maelgwyn in a continuous good
working order. This, with the continued
support by the Maelgwyn technical team, including metallurgical laboratory
development and process trouble-shooting services to the whole operations means
that the excellent working partnership between Maelgwyn and Barrick Gold has
continued into this next decade.
