Mount Isa Mines Limited ("MIM") operates the Mount Isa
copper
Copper is a chemical element with the symbol Cu (from la, cuprum) and atomic number 29. It is a soft, malleable, and ductile metal with very high thermal and electrical conductivity. A freshly exposed surface of pure copper has a pink ...
,
lead
Lead is a chemical element with the symbol Pb (from the Latin ) and atomic number 82. It is a heavy metal that is denser than most common materials. Lead is soft and malleable, and also has a relatively low melting point. When freshly cut, ...
,
zinc
Zinc is a chemical element with the symbol Zn and atomic number 30. Zinc is a slightly brittle metal at room temperature and has a shiny-greyish appearance when oxidation is removed. It is the first element in group 12 (IIB) of the periodi ...
and
silver
Silver is a chemical element with the symbol Ag (from the Latin ', derived from the Proto-Indo-European ''h₂erǵ'': "shiny" or "white") and atomic number 47. A soft, white, lustrous transition metal, it exhibits the highest electrical ...
mines near
Mount Isa
Mount Isa ( ) is a city in the Gulf Country region of Queensland, Australia. It came into existence because of the vast mineral deposits found in the area. Mount Isa Mines (MIM) is one of the most productive single mines in world history, base ...
,
Queensland
)
, nickname = Sunshine State
, image_map = Queensland in Australia.svg
, map_caption = Location of Queensland in Australia
, subdivision_type = Country
, subdivision_name = Australia
, established_title = Before federation
, establishe ...
,
Australia
Australia, officially the Commonwealth of Australia, is a sovereign country comprising the mainland of the Australian continent, the island of Tasmania, and numerous smaller islands. With an area of , Australia is the largest country by ...
as part of the
Glencore
Glencore plc is a Swiss multinational commodity trading and mining company with headquarters in Baar, Switzerland. Glencore's oil and gas head office is in London and its registered office is in Saint Helier, Jersey. The current company wa ...
group of companies. For a brief period in 1980, MIM was Australia's largest company. It has pioneered several significant mining industry innovations, including the
Isa Process copper refining technology, the
Isasmelt smelting technology, and the
IsaMill
The IsaMill is an energy-efficient mineral industry grinding mill that was jointly developed in the 1990s by Mount Isa Mines Limited ("MIM", a subsidiary of MIM Holdings Limited and now part of the Glencore Xstrata group of companies) and Netzsch ...
fine grinding technology, and it also commercialized the
Jameson Cell column
flotation technology.
History
In 1923 the orebody containing
lead
Lead is a chemical element with the symbol Pb (from the Latin ) and atomic number 82. It is a heavy metal that is denser than most common materials. Lead is soft and malleable, and also has a relatively low melting point. When freshly cut, ...
,
zinc
Zinc is a chemical element with the symbol Zn and atomic number 30. Zinc is a slightly brittle metal at room temperature and has a shiny-greyish appearance when oxidation is removed. It is the first element in group 12 (IIB) of the periodi ...
and
silver
Silver is a chemical element with the symbol Ag (from the Latin ', derived from the Proto-Indo-European ''h₂erǵ'': "shiny" or "white") and atomic number 47. A soft, white, lustrous transition metal, it exhibits the highest electrical ...
was discovered by the miner
John Campbell Miles
John Campbell Miles (5 May 1883, Richmond, Melbourne – 4 December 1965, Ringwood, Victoria) was an Australian prospector and pastoral worker who discovered the mineralisation upon which the Mount Isa Mines were established in Queensland.
...
. Mount Isa Mines Limited was one of three companies founded in 1924 to develop the minerals discovered by Miles, but production did not begin until May 1931.
[N Kirkman, ''Hilton Mine,'' (Mount Isa Mines Limited: Mount Isa, Queensland, 1990), 2–3.] The other two companies were Mount Isa Silver Lead Proprietary and Mount Isa South. These were both acquired by MIM by late 1925.
The lean years (1924–1945)
The early years were characterized by the struggle to develop the lead–zinc ore bodies, including the need to finance drilling, metallurgical test work and shaft sinking, and there was significant doubt that Miles' discovery would ever amount to much.
[G Blainey, ''Mines in the Spinifex,'' (Angus and Robertson: Sydney, 1960).] However, by the end of 1928, the drilling had allowed an estimate of reserves of 21.2 million tons, which were at the time the largest in Australian history, and rose to an estimate of 32 million tons in 1930.
Crucial to the success of any mining venture was a rail line connecting the area to the coast. However, the Queensland Government was reluctant to invest in a railway to what might be a mine of limited life. After the mining company guaranteed to cover any losses, construction of the railway from
Cloncurry
Cloncurry is a rural town and locality in the Shire of Cloncurry, Queensland, Australia. In the the locality of Cloncurry had a population of 2,719 people.
Cloncurry is the administrative centre of the Shire of Cloncurry.
Cloncurry is known a ...
to Mount Isa began in 1926, and the line opened on 27 May 1929, giving Mount Isa an essential link to Queensland's eastern seaboard.
The cost of developing the Mount Isa ore body was so high that the owners had to turn to
ASARCO
Asarco LLC (American Smelting and Refining Company) is a mining, smelting, and refining company based in Tucson, Arizona, which mines and processes primarily copper. The company has been a subsidiary of Grupo México since 1999.
Its three larg ...
to obtain sufficient finance to bring the operation into production.
[G Blainey, ''Mines in the Spinifex,'' (Angus and Robertson: Sydney, 1960), 139–148.] The project was running behind schedule and over budget, which ultimately resulted in ASARCO sending its own man,
Julius Kruttschnitt II, to take charge.
Kruttschnitt arrived in 1930 to find that bills were going unpaid because there was no money to pay them, the shafts were flooding, and the construction of the surface plants was months behind schedule.
When mining commenced in 1931, the mine was mechanized to an extent not previously seen in Australia, with mechanized drilling and mechanical shovels rather than "hammer and tap" hand drilling and hand shovels.
[R J Lloyd, "Equipment - the Mount Isa experience," in: ''Design and Operation of Caving and Sublevel Stoping Mines,'' Ed. D R Stewart (Society of Mining Engineers, 1981), 653–660.] The initial mine production was 660,000 tonnes per year ("t/y") of ore and stayed at about this level until 1953.
Even after the first ore had been mined and processed, the Mount Isa operations struggled. The smelter proved inadequate and required a third blast furnace and additional sintering machines.
[G Blainey, ''Mines in the Spinifex,'' (Angus and Robertson: Sydney, 1960), 160–166.] The recovery of valuable minerals in the concentrator was less than expected,
and the metal prices were depressed by the
Great Depression
The Great Depression (19291939) was an economic shock that impacted most countries across the world. It was a period of economic depression that became evident after a major fall in stock prices in the United States. The economic contagio ...
of the 1930s.
The poor recoveries were found to be caused by the unusually (for the time) fine nature of the mineral grains in the Mount Isa ore.
While the metal prices eventually recovered as the Depression passed, the fine mineral grains were to plague the Mount Isa lead–zinc operations for the rest of their days.
By June 1933, the debt owed by MIM to creditors around the world, £2.88 million, was equal to 15% of all income tax paid in Australia in 1932.
It was not until the 1936–1937 financial year that MIM made its first profit
[G Blainey, ''Mines in the Spinifex,'' (Angus and Robertson: Sydney, 1960), 179–181.] and the company could begin to pay down its burden of debt. However, the outbreak of
The Second World War
World War II or the Second World War, often abbreviated as WWII or WW2, was a world war that lasted from 1939 to 1945. It involved the vast majority of the world's countries—including all of the great powers—forming two opposing ...
was not kind to MIM, because it could no longer find markets for all its production, and the price of lead did not increase as it had during the
First World War
World War I (28 July 1914 11 November 1918), often abbreviated as WWI, was List of wars and anthropogenic disasters by death toll, one of the deadliest global conflicts in history. Belligerents included much of Europe, the Russian Empire, ...
.
While some copper mineralization had been discovered during drilling in the late 1920s, the major find did not come until 1930, when drilling to explore the lead–zinc ore body passed through almost 38 meters of copper mineralization with an average grade of 4.3% copper.
[G Blainey, ''Mines in the Spinifex,'' (Angus and Robertson: Sydney, 1960), 182–191.] While this was a very good grade, MIM did not have the financial resources to develop the copper, and it was not until global copper prices increased in 1937 that there was an incentive for further copper exploration.
These efforts were initially unsuccessful, but yielded fruit in 1940 and 1941.
However, it was not until 1941–1942 that mining of the No. 7 level of the Black Star lead-zinc ore body allowed the existence of an economic copper deposit to be established.
[The smelting staff at Mount Isa, "Notes on copper smelting at Mount Isa, 1943–1946," ''Proceedings of the Australasian Institute of Mining and Metallurgy,'' No. 171, 1953, 43–54.]
MIM was still not in a position to mine the copper, because it had stockpiles of lead bullion and zinc concentrate that could not be sold due to the war.
However, the Australian government needed copper for its war effort and lent MIM £50,000 to allow the mining to proceed.
Further drilling expanded the copper reserves and MIM decided to switch from lead to copper production.
The lead–zinc concentrator could treat the copper ore with little modification, but the lead smelter required the addition of second-hand equipment lying idle at the Kuridala, Mount Cuthbert and Mount Elliott mines.
Lead smelting ceased on 9 April 1943 and sintering of copper concentrate commenced on the same day.
While the copper had the potential to be more profitable, MIM's run of bad luck did not end then: the Australian Government's Department of Supply and Shipping decided that it no longer needed MIM's copper and recommended returning production to lead and zinc as from January 1944, without compensation for the expense of converting the operations to copper production.
After much discussion between MIM and the Australian government, MIM was permitted to continue to produce copper until six months after the end of the
Pacific War
The Pacific War, sometimes called the Asia–Pacific War, was the theater of World War II that was fought in Asia, the Pacific Ocean, the Indian Ocean, and Oceania. It was geographically the largest theater of the war, including the vast ...
. The last copper was produced on 2 May 1946 and lead production resumed at a time of rising lead prices.
From survival to prosperity (1946–1973)
In 1947, MIM paid its first dividend, signaling an end to its early troubles, after 16 years of continuous production and 23 years after the company's formation.
[E M Bennett, "History, geology and planned expansion of the Mount Isa Mines properties," in: ''World Symposium on icMining and Metallurgy of Lead and Zinc, Volume 1,'' (American Institute of Mining, Metallurgical and Petroleum Engineers, 1970), 139–170.]
That same year, exploration began north of the Mount Isa ore bodies, in an area that later became the Hilton mine and, following the discovery of an outcrop of rocks similar to the host rocks of the Mount Isa ore bodies, diamond drilling began in August 1948.
[B N Black and B K Mutton, "The development of the Hilton mine, 1947–1985," in: ''13th Congress, The Council of Mining and Metallurgical Institutions, Singapore, 1986,'' 11–19.] That first drill hole intersected a small amount of zinc mineralization.
From then until 1957, a significant drilling program was undertaken and by 1950, the Hilton ore reserves stood at 26 million tonnes.
The drilling program was curtailed in 1957 due to a fall in metal prices and heavy capital expenditure in the existing operations.
To ensure adequate supplies of coal for its power station, which supplied both MIM's operations and the city of Mount Isa, MIM bought a controlling interest in Bowen Consolidated Coals Mines Limited in 1951.
The profitable years following the war allowed MIM to repay its debts, including those to ASARCO. ASARCO used the money it received from MIM to buy shares, and owned 53% of MIM's shares by 1960. MIM was also able to construct a copper concentrator and copper smelter, and copper production resumed in January 1953.
[G Blainey, ''Mines in the Spinifex,'' (Angus and Robertson: Sydney, 1960), 199.] Later that year, Kruttschnitt resigned as Chairman of MIM's Board of Directors.
With the recommencement of copper mining, total ore production doubled from the 660,000 tonnes per year level that had been maintained since production began in 1931.
Both the copper and lead-zinc ores were treated in separate circuits
in the same concentrator, which was later referred to at the "No. 1 concentrator".
[R A Eaton and K H Ehlers, "Lining of ball and rod mills at Mount Isa—installation, design and materials," in: ''The Aus.I.M.M. North West Queensland Branch, Mill Operators' Conference, June 1978'' (The Australasian Institute of Mining and Metallurgy: Melbourne, 1978), 237–245.]
Initial copper production used two multiple-hearth roasters, a single coal-fired reverberatory furnace and two to produce a design 1,500 tons of blister copper per month (18,000 tons per year).
[R V Anderson, "Brief outline of icMount Isa copper smelter," ''Proceedings of the Australasian Institute of Mining and Metallurgy,'' No. 171, 1953, 33–40.] The copper smelter produced 15,000 tons of copper during 1953.
[J Pritchard, "Copper smelting at Mount Isa Mines Ltd, Mount Isa, Qld," in: ''Mining and Metallurgical Practices in Australasia - The Sir Maurice Mawby Memorial Volume,'' Ed. J T Woodcock (The Australasian Institute of Mining and Metallurgy: Melbourne, Victoria, 1980), 340–344.]
Exploration activities between 1952 and 1960 expanded the Mount Isa ore reserves from 9.9 million tons of lead-zinc-silver ore to 25.6 million tons, and from 3.8 million tons of copper ore to 24.2 million tons.
[J W Foots, "Review of operations, Mount Isa Mines Limited, 1952–1960," ''Proceedings of the Australasian Institute of Mining and Metallurgy,'' No. 197, 1961, 1–15.] As a consequence of the expansion of reserves, MIM decided to expand production.
The quantity of copper produced rose from zero in 1952 to 60,000 tons in 1960, while the lead bullion output increased from about 36,860 tons in 1952 to 60,000 tons in 1959 and then reduced to 52,000 tons in 1960 as a consequence of a decision to reduce output in the face of a global oversupply of lead metal.
In 1957, a third roaster was added in the copper smelter and the width of the reverberatory furnace was expanded.
In 1960, two large roasters and a second, larger, reverberatory furnace were constructed to expand the copper smelter capacity to 70,000 tons of blister copper per year.
The original reverberatory furnace was retained as a spare to be used in case of major maintenance of the new furnace.
[B V Borgelt, G E Casley and J Pritchard, "Fluid bed roasting at Mount Isa," in: ''The AusIMM North West Queensland Branch Regional Meeting, August 1974'' (The Australasian Institute of Mining and Metallurgy: Melbourne, 1974), 123–130.] The new furnace was referred to as the "No 1 furnace" and the older, spare, furnace was named the "No. 2 furnace".
[G E Casley, J Middlin and D White, "Recent developments in reverberatory furnace and converter practice at the Mount Isa Mines copper smelter," in: ''Extractive Metallurgy of Copper'' (The Metallurgical Society of the American Institute of Mining, Metallurgical and Petroleum Engineers: Warrendale, Pennsylvania, 1976), 117–138.]
MIM had been selling blister copper, but in 1960 it started refining blister copper to produce copper cathode at its new electrolytic copper refinery at Stuart, near
Townsville
Townsville is a city on the north-eastern coast of Queensland, Australia. With a population of 180,820 as of June 2018, it is the largest settlement in North Queensland; it is unofficially considered its capital. Estimated resident population, 3 ...
.
The initial capacity of the Copper Refineries Pty Ltd ("CRL") refinery was 40,000 tons per year of refined cathode, but further construction commenced in 1960 to expand this capacity to 60,000 tons per year.
A new smelter was built on the same site in Mount Isa and commissioned in March 1962, lifting the copper smelting capacity to 100,000 tonnes of blister copper per year.
[I S Schache, J Pritchard and R L Canning, "Optimisation of copper treatment at Mount Isa Mines Limited, in: ''13th Congress The Council of Mining and Metallurgical Institutions - Volume IV, Metallurgy, Singapore, 11–16 May 1986,'' 233–238.]
In response to the increasing power demand from the MIM operations and from the growing city of Mount Isa, MIM constructed in 1960 a new power station near Mica Creek to add to the capacity of the Mines Power Station, which was located adjacent to the copper smelter.
The Mines Power Station had itself been augmented over the years, starting with an output of five MW in 1931.
[S B Fawkes, "Power developments at Mount Isa Mines Limited," ''Proceedings of the Australasian Institute of Mining and Metallurgy,'' No. 197, 1961, 193–224.] It also, in 1958, constructed a new dam on the
Leichhardt River
The Leichhardt River is a river in north west Queensland, Australia.
Course
The source of the river is in the Selwyn Range under Rifle Creek Hill and fed by Rifle Creek approximately south of the mining town Mount Isa. It runs in a generally n ...
to supply water to Mount Isa and the MIM operations
and thus
Lake Moondarra
Lake Moondarra is an artificial lake on the Leichhardt River in Queensland, Australia, 16 km downstream from the town of Mount Isa. It provides water to the city and the adjacent Mount Isa Mines (MIM) mining lease.
Construction began on th ...
was created.
The Black Rock open cut began operating in March 1957 to produce copper ore.
[D B Edwards, "Ground stability problems associated with the Black Rock open cut at Mount Isa," ''Proceedings of the Australasian Institute of Mining and Metallurgy,'' June 1968, 61–72.] Until 1963, the Black Rock open cut produced copper oxide ore that was used as a flux in the copper smelter.
Mining
chalcocite
Chalcocite (), copper(I) sulfide (Cu2S), is an important copper ore mineral. It is opaque and dark gray to black, with a metallic luster. It has a hardness of 2.5–3 on the Mohs scale. It is a sulfide with a monoclinic crystal system.
The ...
ore started in 1963.
The Black Rock open cut was closed prematurely in 1965 due to instability in its western wall.
[K J Rosengren, "Rock mechanics and slope stability at Mount Isa, Australia," in: ''Geotechnical Practice for Stability in Open Pit Mining,'' (American Institute of Mining, Metallurgical and Petroleum Engineers, 1972), 257–274.] Mining was stopped 40 feet short of its planned final depth of 520 feet, causing a significant quantity of high-grade ore not to be recovered.
A new concentrator, which became known as the "No. 3 concentrator", was commissioned in 1963 to treat chalcocite ore from the Black Rock open cut.
Some of the ore mined from the Black Rock open cut could not be treated economically in the No. 3 concentrator, and about 750,000 tons of this low-grade material, containing an average grade of 1.5% copper, was stockpiled.
In March 1966, MIM consolidated its mining lease holdings by taking up all the territory between Hilton and the Mount Isa operations within a single Special Mining Lease and diamond drilling recommenced at Hilton.
The Hilton reserve increased to 37 million tonnes.
Also in 1966, lead–zinc ore treatment was transferred to a new concentrator, referred to as the "No. 2 concentrator".
That same year, there was a major modernization of the lead smelter, with the eight small sinter plants being replaced by a single updraft sinter plant,
and a new shaft, originally known as the "K57" shaft but later renamed the "R62" shaft, was commissioned.
Until 1966, the zinc concentrate produced in the No. 1 concentrator was solar dried by pumping it to open drying dams and allowing the water to evaporate in the sun.
It was recovered for shipment once it was sufficiently dry. A zinc concentrate filtration plant was commissioned in September 1966.
[P M Wright, "Technical note on upgrading of contaminated zinc concentrate at Mount Isa Mines Limited," ''Proceedings of the Australasian Institute of Mining and Metallurgy,'' June 1968, 37–38.]
Treatment of lead–zinc ore in the No. 1 concentrator ceased in May 1967, with all of the lead–zinc ore subsequently being treated through the No. 2 concentrator.
In May 1969, MIM decided to proceed with the "Hilton mine", named in honour of Charles R. Hilton, an American who had been General Manager at the time of the discovery of the ore body that was to support it.
The sinking of a 4.3 meter ("m") diameter exploration shaft (known as "J53") began in June 1970 and was completed to a depth of 630 m in June 1973.
Sinking the "P49" service and hoisting shaft (8 m in diameter) began in 1971, and this shaft was completed to a depth of 1040 m in December 1975.
In March 1971, the practice of returning converter slag to the reverberatory furnaces to recover the contained copper was discontinued.
The slag return was a problem because of the high level of
magnetite
Magnetite is a mineral and one of the main iron ores, with the chemical formula Fe2+Fe3+2O4. It is one of the oxides of iron, and is ferrimagnetic; it is attracted to a magnet and can be magnetized to become a permanent magnet itself. With the ...
("Fe
3O
4") in the slag.
Magnetite has a higher liquidus temperature than the iron oxide ("FeO") normally found in the reverberatory furnace slag and it precipitated, causing a growing accretion in the reverberatory furnace, thus reducing the storage capacity of the furnace.
MIM changed its converter slag copper-recovery practice in 1971, and instead of returning all the hot converter slag to the reverberatory furnace, allowed some of the slag to cool slowly and then treated it in the copper concentrator to produce a converter slag concentrate.
This improved operating conditions within the reverberatory furnace.
In 1972, MIM instituted an air quality monitoring system in Mount Isa, shutting down the smelter operations whenever the meteorological conditions were considered likely to lead the sulfur dioxide levels to exceed the USEPA standards within the city of Mount Isa.
[T J Wrigley, "Environmental monitoring at Mount Isa," in: ''Sampling Practices in the Minerals Industry, Mount Isa, 3–7 November 1992'' (The Australasian Institute of Mining and Metallurgy: Melbourne, 1992), 73–74.] The air quality control system (known as the "AQC system"
) resulted in the loss of about 15% of the lead smelter's production
[K Ramus, N Whitworth and P Anderson, "Developments in gas handling and associated environment activities at icsmelting plants of Mount Isa Mines Limited," in: ''The Aus.I.M.M. Conference, North Queensland, September 1978'' (The Australasian Institute of Mining and Metallurgy: Melbourne, 1978), 371–384.] and about 7.7% of copper production.
In 1973, a new copper concentrator, known as the "No. 4 concentrator" was commissioned to treat the copper ore (at a rate of six million tons per year of ore containing 3% copper and 55–60% silica) and the old No. 1 concentrator was shut down,
and a new fluidized-bed roaster was installed in the copper smelter to replace the multiple hearth roasters that had been used since 1953.
This raised the production of blister copper to 155,000 tons per year.
The second reverberatory furnace was brought into permanent operation to treat additional calcine produced by the new roaster.
With the commissioning of the new roaster, the practice of adding hot converter slag to the reverberatory furnace ceased completely.
The replacement of the hearth roasters with the fluid-bed roaster meant that the amount of sulfur eliminated from the concentrate during the roasting process increased, raising the copper content ("matte grade") of the reverberatory furnace matte from 33–35% copper to 40–42% copper.
This higher matte grade meant that less sulfur per tonne of concentrate treated in the smelter had to be eliminated in the converters, thus raising their effective capacity and allowing higher copper production from the smelter without adding additional converters.
The rate of ore production expanded in the years between 1953 and 1973, rising to 2.74 million tonnes in 1960, 3.65 million tonnes in the 1965–66 financial year, and plateauing for a time at 7.2 million tons per year (2.6 million tons per year of lead–zinc ore and 4.6 million tons per year of copper ore) in 1973.
Growth, innovation and consolidation (1973–2003)
The difficult nature of the Mount Isa ore bodies has meant that the company had always needed to be at the forefront of mining technology. It was, in 1962, a founding sponsor of the Australian Minerals Industry Research Association ("AMIRA") P9 mineral processing research project at the
University of Queensland
, mottoeng = By means of knowledge and hard work
, established =
, endowment = A$224.3 million
, budget = A$2.1 billion
, type = Public research university
, chancellor = Peter Varghese
, vice_chancellor = Deborah Terry
, city = B ...
, which proved to be the foundation of the
Julius Kruttschnitt Mineral Research Centre. Then, in the 1970s through to the 1990s, it became a world leader in developing new mining techniques and processing technologies as a response to declining metal prices and rising costs.
In 1978, MIM's copper refining subsidiary developed the Isa Process copper refining technology, which is now marketed as the
IsaKidd process and globally regarded as the preferred copper refining technology, with over 100 licensees using the technology around the world. The Isa Process technology revolutionized
copper refining by replacing copper cathode-starter-sheets with
stainless steel
Stainless steel is an alloy of iron that is resistant to rusting and corrosion. It contains at least 11% chromium and may contain elements such as carbon, other nonmetals and metals to obtain other desired properties. Stainless steel's corros ...
sheets and allowing what had been a very labour-intensive process to be mechanised.
At the same time as it was developing the Isa Process tank house technology, MIM was starting the joint development, with the Australian government's Commonwealth Scientific and Industrial Research Organisation ("
CSIRO
The Commonwealth Scientific and Industrial Research Organisation (CSIRO) is an Australian Government
The Australian Government, also known as the Commonwealth Government, is the national government of Australia, a federal parliamentar ...
"), of the energy-efficient
ISASMELT
The ISASMELT process is an energy-efficient smelting process that was jointly developed from the 1970s to the 1990s by Mount Isa Mines (a subsidiary of MIM Holdings and now part of Glencore) and the Government of Australia’s CSIRO. It has rel ...
™ smelting technology, based on the CSIRO's
Sirosmelt lance.
[P S Arthur and S P Hunt, ‘ISASMELT™ – 25 years of continuous evolution,’ in: ''The John Floyd International Symposium on Sustainable Developments in Metals Processing, Melbourne, 3–6 July 2005,'' Eds. M Nilmani and W J Rankin (NCS Associates (Australia) Pty Ltd, 2005), 73–94.] After laboratory testing of a potential lead smelting process at the CSIRO's Melbourne facilities, MIM moved to a 120 kg/h test rig in the Mount Isa lead smelter in 1980 and then to a five tonne per hour ("t/h") pilot plant in the lead smelter in 1983.
This was followed by the development of a copper smelting process in the Mount Isa test rig and the construction of a 15 t/h copper ISASMELT™ demonstration plant in the copper smelter in 1987.
With the success of lead pilot plant and the copper demonstration plant, both of which boosted MIM's metal output by being run by operations' personnel, MIM decided to market the ISASMELT™ technology.
By 2013, there were 15 ISASMELT™ plants operating in 10 countries, including in the Mount Isa copper smelter.
In 1992, MIM commissioned an ISASMELT™ furnace in the Mount Isa copper smelter to treat 104 t/h of concentrate containing 180,000 t/y of copper.
Its throughput was initially constrained because MIM chose to keep one of the two reverberatory furnaces operating and the converters became a bottleneck. The ISASMELT™ plant's throughput had to be restrained to allow enough material to flow through the reverberatory furnace to prevent the matte freezing in the bottom of the furnace. It was decided in 1997 to shut down the fluidized bed roaster and the reverberatory furnace, and the ISASMELT™ furnace throughput was boosted to more than 160 t/h of concentrates by the addition of a fourth Peirce-Smith converter and a second oxygen plant.
In 1985, MIM commissioned Professor Graeme Jameson of the
University of Newcastle (Australia)
The University of Newcastle (UON), informally known as Newcastle University, is a public university in Newcastle, New South Wales, Australia. Established in 1965, it has a primary campus in the Newcastle suburb of Callaghan. The university als ...
to improve
sparger
In chemistry, sparging, also known as gas flushing in metallurgy, is a technique in which a gas is bubbled through a liquid in order to remove ''other'' dissolved gas(es) and/or dissolved volatile liquid(s) from that liquid. It is a method of ...
design in
flotation columns used as zinc concentrate cleaners in the zinc circuit of the lead–zinc concentrator.
[J A Cowburn, R Stone, S Bourke and B Hill, "Design developments of the Jameson Cell," in: ''Centenary of Flotation Symposium, Brisbane, Queensland, 6–9 June 2005'' (The Australasian Institute of Mining and Metallurgy: Melbourne, 2005), 193–199.] Arising from this work, Jameson developed the idea of mixing air and concentrate slurry in a pipe, referred to as the "downcomer", that was inserted into the flotation column.
Further research showed that mixing the slurry and the air in the downcomer meant that much of the height of traditional flotation columns was unnecessary and the concept of the short "
Jameson Cell" was born.
Jameson patented the idea in 1986 and a two tonne per hour ("t/h") pilot cell was tested in Mount Isa in 1986.
In 1988, MIM decided to increase the capacity of its heavy medium plant slimes flotation circuit to improve lead recovery and, following investigations of various alternatives, installed two full-scale Jameson Cells in the lead–zinc concentrator in 1989.
In April 1989, MIM Holdings acquired the world rights to the metallurgical applications of the Jameson Cell, began marketing the technology and continued to develop it.
By 2005, there were 228 Jameson Cells operating globally in coal and
base metal
A base metal is a common and inexpensive metal, as opposed to a precious metal such as gold or silver. In numismatics, coins often derived their value from the precious metal content; however, base metals have also been used in coins in the past ...
flotation circuits.
From the mid-1980s, there was a decline in the performance of the lead–zinc concentrator because the grain size of the ore was getting progressively finer.
[B Burford and E Niva, "Comparing energy efficiency in grinding mills," in: ''Metallurgical Plant Design and Operating Strategies (MetPlant 2008), Perth, 18–19 August 2008'' (The Australasian Institute of Mining and Metallurgy: Melbourne, 2008), 45–64.] This meant that the ore needed to be ground even finer than it was to achieve separation of the valuable mineral particles from the unwanted ("gangue") minerals, and to separate the lead mineral particles from the zinc minerals. MIM investigated various existing fine grinding technologies (such as
ball mill
A ball mill is a type of grinder used to grind or blend materials for use in mineral dressing processes, paints, pyrotechnics, ceramics, and selective laser sintering. It works on the principle of impact and attrition: size reduction is done ...
s and tower mills) but found them to be uneconomic in the MIM application and also that the high consumption rate of the steel grinding medium resulted in iron contamination of the mineral surfaces, making them less susceptible to flotation recovery.
Consequently, MIM sought to develop a better grinding technology, and the result was the joint development with Netzsch-Feinmahltechnik GmbH of a highly energy-efficient horizontal stirred-mill that became known as the
IsaMill
The IsaMill is an energy-efficient mineral industry grinding mill that was jointly developed in the 1990s by Mount Isa Mines Limited ("MIM", a subsidiary of MIM Holdings Limited and now part of the Glencore Xstrata group of companies) and Netzsch ...
.
The IsaMills typically use an inert grinding medium (such as ceramic balls, smelter slag or silica sand) and avoid the problem of inhibiting flotation of the fine particles with iron deposits.
After testing prototypes at various scales, the first full-scale IsaMill was installed in the Mount Isa lead–zinc concentrator in 1994, followed by others at Mount Isa
[List of IsaMill installations](_blank)
. Accessed 4 May 2013. and at the McArthur River mine in the Northern Territory in 1995.
MIM decided to license the technology to other users in 1999,
and the latest information available states there are 121 IsaMills installed in concentrators around the world.
After the completion of the P49 shaft at Hilton in 1975, the project there was wound down due to a decline in the world prices for lead, zinc and silver.
Some mine development activities were continued, but at a very low level.
In 1978, MIM built a new 270 m stack for its lead smelter, to reduce the effect of the AQC system on lead smelter production using the previous 76 m stack.
From its inception, the copper smelter had been producing blister copper, originally for sale and then for refining at MIM's copper refinery in Townsville. This changed in June 1979, when two 320 tonne capacity rotary "anode furnaces" and a Mitsui-design anode casting wheel were commissioned in the Mount Isa smelter.
The move to end exporting cold blister copper from the Mount Isa smelter resulted in substantial energy savings, because the anode furnaces received molten blister copper from the converters, meaning that cold blister copper did not have to be reheated and melted before being cast into anodes for electrolytic refining.
Activity at Hilton ramped up again in 1981, when a permanent headframe was erected over the P49 shaft, but the project was again slowed due to another decline in lead prices and the increase of lead metal production from the Mount Isa operations due to the installation of a heavy medium plant in 1982.
The new heavy medium plant increased the capacity of the lead–zinc concentrator from 2.5 million t/y in the 1981–1982 financial year to 4.2 million t/y in the 1984–1985 financial year.
It achieved this by removing lighter (unmineralised) rock fragments and rejecting them from the concentrator before they reached the grinding mills that were the bottleneck for the plant. The rejection rate was 30–35% of the incoming ore.
The increasing difficulty of separating the lead and zinc minerals meant that MIM began producing a mixed lead and zinc concentrate (known in the industry as a "bulk concentrate") at the beginning of 1986 and continued its production until late 1996. Payments by smelters to mining companies are lower for bulk concentrate due to the higher cost of running processes that can treat them. As the production of the bulk concentrate increased, so did the difficulty of finding a buyer. The zinc in the bulk concentrate was eventually worth only half of that in the zinc concentrate.
From 1987, ore from the Hilton mine was used to supplement the Mount Isa ore, and by 1992, the treatment rate of the No. 2 concentrator had reached five million t/y, with 30% coming from Hilton and 70% from the Isa mine.
[M F Young, J D Pease, N W Johnson and P D Munro, "Developments in milling practice at the lead/zinc icconcentrator of Mount Isa Mines Limited from 1990," in: ''AusIMM Sixth Mill Operators' Conference, Madang, Papua New Guinea, 6–8 October 1997'' (The Australasian Institute of Mining and Metallurgy: Melbourne, 1997), 3–12.]
In 1991, two
semi-autogenous grinding mills ("SAG mills") were installed in the copper concentrator. This freed up two ball mills that were transferred to the No. 2 concentrator to increase the grinding capacity of that plant.
Coupled with the installation of a
tower mill
A tower mill is a type of vertical windmill consisting of a brick or stone tower, on which sits a wooden 'cap' or roof, which can rotate to bring the sails into the wind.Medieval science, technology, and medicine: an encyclopedia (2005), 520
Thi ...
and some new flotation capacity, the changes increased zinc recovery to zinc concentrate by over 15%.
In the late 1990s, production from the Mount Isa original Mount Isa ore bodies began to drop, with copper ore production from the upper ore bodies falling from five million tonnes in 1994 to approximately 3.5 million t/y by 2000 because of increased dependence on pillar extraction sequences and increased reliance on truck haulage. Production of ore from the Mount Isa lead mine dropped to 1.2 million t/y by 2002.
The Xstrata years (2003–2013)
Xstrata purchased Mount Isa Mines for a total of US$2.96 billion (A$4.93 billion), including assumed debt, in 2003.
Following the take-over, Xstrata split the Mount Isa operations into two separate streams: a copper stream and a lead-zinc-silver stream. The copper stream became part of Xstrata Copper and the lead-zinc-silver stream became part of Xstrata Zinc.
[K Kugananathan and L Neindorf, "Backfill technology development at Xstrata Mount Isa Mines between 1995 and 2005," in: ''Ninth Underground Operators' Conference, Perth, WA 7–9 March 2005'' (The Australasian Institute of Mining and Metallurgy: Melbourne, 2005), 173–183.]
As production from the aging Mount Isa lead-zinc underground mine declined, MIM recommenced mining in the Black Star open cut, the site of some of MIM's earliest mining operations, in October 2004, aiming to maintain feed to the lead–zinc concentrator.
[B Schwengler, J Moncrieff and P Bellairs, "Reduction of the blast exclusion zone at the Black Star open cut," ''EXPLO Conference, Wollongong, New South Wales, 3–4 September 2007'' (The Australasian Institute of Mining and Metallurgy: Melbourne, 2007), 51–58.]
Underground operations in the Mount Isa lead mine ceased in December 2005,
after 75 years of almost continuous operation.
The GlencoreXstrata and Glencore years (2013– )
On 2 May 2013, Xstrata merged with Glencore to form
Glencore Xstrata
Glencore plc is a Swiss multinational commodity trading and mining company with headquarters in Baar, Switzerland. Glencore's oil and gas head office is in London and its registered office is in Saint Helier, Jersey. The current company was c ...
plc; and on 20 May 2014, Glencore Xstrata changed its name to Glencore plc.
Orebodies
Mount Isa contains two separate orebodies: a stratigraphically lower lead-zinc-silver ore horizon and an upper copper ore. Both are contained within the Lower
Proterozoic
The Proterozoic () is a geological eon spanning the time interval from 2500 to 538.8million years ago. It is the most recent part of the Precambrian "supereon". It is also the longest eon of the Earth's geologic time scale, and it is subdivided ...
Urquhart Shale. The Urquhart is 1,000 metres thick and is a grey
dolomitic
Dolomite () is an anhydrous carbonate mineral composed of calcium magnesium carbonate, ideally The term is also used for a sedimentary carbonate rock composed mostly of the mineral dolomite. An alternative name sometimes used for the dolomiti ...
shale
Shale is a fine-grained, clastic sedimentary rock formed from mud that is a mix of flakes of clay minerals (hydrous aluminium phyllosilicates, e.g. kaolin, Al2 Si2 O5( OH)4) and tiny fragments (silt-sized particles) of other minerals, especial ...
with
tuff
Tuff is a type of rock made of volcanic ash ejected from a vent during a volcanic eruption. Following ejection and deposition, the ash is lithified into a solid rock. Rock that contains greater than 75% ash is considered tuff, while rock cont ...
aceous horizons. Near the ore horizons the shale is
pyritic. The orebodies are on one limb of a plunging
anticline
In structural geology, an anticline is a type of fold that is an arch-like shape and has its oldest beds at its core, whereas a syncline is the inverse of an anticline. A typical anticline is convex up in which the hinge or crest is the ...
and are extensively
faulted.
[John M. Guilbert and Charles F Park, Jr., ''THe Geology of Ore Deposits,'' Freeman, 1986, pp. 667-675 ]
The ore occurs as en-echelon bodies parallel to the shale bedding. Orebodies may extend more than one kilometre along strike and three-fourths of a kilometre down
dip. Thickness may reach 50 metres.
[ The ores are considered to be syn-genetic with the host shale and interbedded volcanic material.][
]
Lead zinc silver ore
The primary ore consists of galena, iron rich sphalerite
Sphalerite (sometimes spelled sphaelerite) is a sulfide mineral with the chemical formula . It is the most important ore of zinc. Sphalerite is found in a variety of deposit types, but it is primarily in Sedimentary exhalative deposits, sedimen ...
and tetrahedrite
Tetrahedrite is a copper antimony sulfosalt mineral with formula: . It is the antimony endmember of the continuous solid solution series with arsenic-bearing tennantite. Pure endmembers of the series are seldom if ever seen in nature. Of the two, ...
as ore minerals along with common accessories pyrite
The mineral pyrite (), or iron pyrite, also known as fool's gold, is an iron sulfide with the chemical formula Iron, FeSulfur, S2 (iron (II) disulfide). Pyrite is the most abundant sulfide mineral.
Pyrite's metallic Luster (mineralogy), lust ...
, pyrrhotite
Pyrrhotite is an iron sulfide mineral with the formula Fe(1-x)S (x = 0 to 0.2). It is a nonstoichiometric variant of FeS, the mineral known as troilite.
Pyrrhotite is also called magnetic pyrite, because the color is similar to pyrite and it is ...
, quartz
Quartz is a hard, crystalline mineral composed of silica (silicon dioxide). The atoms are linked in a continuous framework of SiO4 silicon-oxygen tetrahedra, with each oxygen being shared between two tetrahedra, giving an overall chemical form ...
, carbonate
A carbonate is a salt of carbonic acid (H2CO3), characterized by the presence of the carbonate ion, a polyatomic ion with the formula . The word ''carbonate'' may also refer to a carbonate ester, an organic compound containing the carbonate g ...
s and graphite
Graphite () is a crystalline form of the element carbon. It consists of stacked layers of graphene. Graphite occurs naturally and is the most stable form of carbon under standard conditions. Synthetic and natural graphite are consumed on large ...
. Minor arsenopyrite
Arsenopyrite ( IMA symbol: Apy) is an iron arsenic sulfide (FeAsS). It is a hard ( Mohs 5.5-6) metallic, opaque, steel grey to silver white mineral with a relatively high specific gravity of 6.1. When dissolved in nitric acid, it releases eleme ...
, marcasite
The mineral marcasite, sometimes called “white iron pyrite”, is iron sulfide (FeS2) with orthorhombic crystal structure. It is physically and crystallographically distinct from pyrite, which is iron sulfide with cubic crystal structure. Both ...
, chalcopyrite
Chalcopyrite ( ) is a copper iron sulfide mineral and the most abundant copper ore mineral. It has the chemical formula CuFeS2 and crystallizes in the tetragonal system. It has a brassy to golden yellow color and a hardness of 3.5 to 4 on the Mo ...
, valleriite
Valleriite is an uncommon sulfide mineral (hydroxysulfide) of iron and copper with formula: or . It is an opaque, soft, bronze-yellow to brown mineral which occurs as nodules or encrustations.
Discovery and occurrence
Valleriite was first describ ...
, proustite
Proustite is a sulfosalt mineral consisting of silver sulfarsenide, Ag3 As S3, known also as light red silver or ruby silver ore, and an important source of the metal. It is closely allied to the corresponding sulfantimonide, pyrargyrite, from whi ...
, polybasite
Polybasite is a sulfosalt mineral of silver, copper, antimony and arsenic. Its chemical formula is .
It forms black monoclinic crystals (thin, tabular, with six corners) which can show dark red internal reflections. It has a Mohs hardness o ...
and argentite
In mineralogy, argentite (from the Latin ''argentum'', silver) is cubic silver sulfide (Ag2S), which can only exist at temperatures above 173 °C, 177 °C or 179 °C. When it cools to ordinary temperatures it turns into its monocl ...
also occur. Original surface oxidized
Redox (reduction–oxidation, , ) is a type of chemical reaction in which the oxidation states of substrate change. Oxidation is the loss of electrons or an increase in the oxidation state, while reduction is the gain of electrons or a ...
ore contained cerussite
Cerussite (also known as lead carbonate or white lead ore) is a mineral consisting of lead carbonate (PbCO3), and is an important ore of lead. The name is from the Latin ''cerussa'', white lead. ''Cerussa nativa'' was mentioned by Conrad Gessner ...
, anglesite
Anglesite is a lead sulfate mineral with the chemical formula PbSO4. It occurs as an oxidation product of primary lead sulfide ore, galena. Anglesite occurs as prismatic orthorhombic crystals and earthy masses, and is isomorphous with barite and ...
and pyromorphite
Pyromorphite is a mineral species composed of lead chlorophosphate: Pb5( P O4)3 Cl, sometimes occurring in sufficient abundance to be mined as an ore of lead. Crystals are common, and have the form of a hexagonal prism terminated by the basal pla ...
. Silver and zinc were removed from the surface oxidized zone and were deposited as supergene ore at a depth above the primary ore.[
]
Copper ore
Copper occurs in brecciated "silica-dolomite Dolomite may refer to:
*Dolomite (mineral), a carbonate mineral
*Dolomite (rock), also known as dolostone, a sedimentary carbonate rock
*Dolomite, Alabama, United States, an unincorporated community
*Dolomite, California, United States, an unincor ...
" rock. Primary minerals are chalcopyrite, pyrrhotite and arsenopyrite. minor amounts of cobaltite
Cobaltite is a sulfide mineral composed of cobalt, arsenic, and sulfur, Co As S. Its impurities may contain up to 10% iron and variable amounts of nickel.Klein, Cornelus and Cornrlius Hurlbut, 1996, ''Manual of Mineralogy'', 20th ed., Wiley, p.2 ...
, marcasite, valleriite, chalcostibite
Chalcostibite is a copper antimony sulfide mineral.
Příbramite is related, having selenium instead of sulfur. Emplectite contains bismuth instead of antimony.
Occurrences
* Argentina
** Salta Province
*** Los Andes department
**** San Ant ...
, galena and others are reported.[
]
Production
*6.1 million tonne
The tonne ( or ; symbol: t) is a unit of mass equal to 1000 kilograms. It is a non-SI unit accepted for use with SI. It is also referred to as a metric ton to distinguish it from the non-metric units of the short ton ( United State ...
s copper ore with 3.3% copper
*4.6 million tonnes silver-lead-zinc ore with 154g/t silver 5.4% lead 6,5% zinc (1986)
Criticism
Health and Human Safety Issues
Smelter operations release sulfur dioxide
Sulfur dioxide (IUPAC-recommended spelling) or sulphur dioxide (traditional Commonwealth English) is the chemical compound with the formula . It is a toxic gas responsible for the odor of burnt matches. It is released naturally by volcanic activ ...
emissions very close to the city of Mount Isa. The Mount Isa Mines Panel Assessment Study recently spent 4 years investigating the air quality and the effects on community health. The panel found no evidence of adverse effects from the mine. However, the panel did not report on emissions of lead and several other metals associated with sulphur dioxide emissions and which are known to have potentially severe environmental and health effects. Mount Isa Mines is currently the highest atmospheric emitter of sulphur dioxide, lead and several other metals in Australia. Other research has confirmed that there has been widespread contamination of soils with lead, copper and other metals in and around Mount Isa and that these contaminants are derived from both historic and ongoing smelter emissions and fugitive dust
Fugitive dust is an environmental air quality term for very small particles suspended in the air, primarily mineral dust that is sourced from the soil of Earth's pedosphere. A significant volume of fugitive dust that is visible from a distance i ...
from Mount Isa Mines. Queensland Health reported in 2008 that the average blood lead concentration for children (1–4 years old) in Mount Isa was five microgram/dL and 11.3% exceeded 10 microgram/dL. In comparison, average blood lead in children from uncontaminated comparable urban areas is around two microgram/dL. Recent medical research has documented adverse health effects at blood lead concentrations above five microgram/dL and possibly down to as low as two microgram/dL.
Tort
In September 2014 Sharlene Body won the rights to a civil trial against Xstrata for allegedly causing neurological damages to her son via neurotoxic emissions of lead.
Awards
In 2010, Mount Isa Mines was inducted into the Queensland Business Leaders Hall of Fame
In 2009 State Library of Queensland
The State Library of Queensland is the main reference and research library provided to the people of the State of Queensland, Australia, by the state government. Its legislative basis is provided by the Qu ...
.
See also
* 1964 Mount Isa Mines strike
*Mining in Australia
Mining in Australia has long been a significant primary sector industry and contributor to the Australian economy by providing export income, royalty payments and employment. Historically, mining booms have also encouraged population growth ...
References
External links
Mount Isa Copper Mine, Australia
{{Authority control
Copper mines in Queensland
Zinc mines in Queensland
Silver mines in Queensland
Lead mines in Queensland
Surface mines in Australia
Mount Isa
Xstrata