Mount Isa Mines is one of the world’s great metal mines. Its main operations are at Mount Isa, in Queensland, Australia, where it mines adjacent deposits of copper and silver-lead-zinc ores. Production levels changes with world demand and prices, but in atypical year 7 million tonnes of ore are mined to give 150,000 tonnes of copper and lead (containing silver) and 200,000 tonnes of zinc. Mount Isa has serious transport problems. It produces huge quantities of ore in a remote area of Australia, while the main demand for finished metals is in the industrialised areas of the world, particularly Europe. The problem is to process the ores and move them to final markets as cheaply as possible. You can see the scope of the problem from an outline of the journey for copper, this starts with underground explosions to break up the ore body. The broken ore is collected by front-end loaders and put onto ore trains that carry it to underground crushers. The crushed ore is then hoisted to the surface and stored in crude ore bins, with a capacity of 60,000 tonnes. A conveyor moves ore from these bins to another crusher, where it is reduced to about 10mm, and passed to fine ore bins. The ore then goes to a rod-and-ball crusher for fine grinding, and is pumped to a floatation process, which produces a concrete of about 25% copper. The concrete is passed to smelters that roast it to move some of the sulphur, smelt the roast product to remove more sulphur. The result at this stage is impure copper. This is sent to a casting furnace to remove most of the remaining impurities, and cast the copper into 300kg ingots. These operations are all carried out at the mine site, so there are two main logistics problems. The first moves huge quantities of materials from the mine to world markets, and the second moves the materials needed by the mine, smelters and other operations into the remote site. The copper ingots are taken by train to Townsville, 80 km away on the coast, for electrolytic refining, which removes any remaining impurities and gives almost completely pure copper. These facilities have a capacity of over 150,000 tonnes a year. At this point the copper is cast into its final form, of cake, bars, rods and wire. These are driven to the nearby port where they are shipped around the world. Copper is only one of Mount Isa’s products, and it has similar transport problems with lead and zinc. It also mines coal and gold, has organised its transport operations into a separate company, generates electricity and supplies water for the city of Mount Isa, and is involved in a wide range of mining and associated ventures. Required: 1. Describe the supply chain for Mount Isa Mines. 2. How important do you think transportation is for the operation of Mount Isa? 3. Describe any alternatives of transport available to Mont Isa. 4. What are the current transportation arrangement at Mount Isa and how might it be improved? 5. What specific activities form the logistics of Mount Isa? 6. Do other mining companies have similar transportation problems? Explain four of these problems.
Mount Isa Mines is one of the world’s great metal mines. Its main operations are at Mount Isa, in Queensland, Australia, where it mines adjacent deposits of copper and silver-lead-zinc ores. Production levels changes with world demand and prices, but in atypical year 7 million tonnes of ore are mined to give 150,000 tonnes of copper and lead (containing silver) and 200,000 tonnes of zinc. Mount Isa has serious transport problems. It produces huge quantities of ore in a remote area of Australia, while the main demand for finished metals is in the industrialised areas of the world, particularly Europe. The problem is to process the ores and move them to final markets as cheaply as possible.
You can see the scope of the problem from an outline of the journey for copper, this starts with underground explosions to break up the ore body. The broken ore is collected by front-end loaders and put onto ore trains that carry it to underground crushers. The crushed ore is then hoisted to the surface and stored in crude ore bins, with a capacity of 60,000 tonnes. A conveyor moves ore from these bins to another crusher, where it is reduced to about 10mm, and passed to fine ore bins. The ore then goes to a rod-and-ball crusher for fine grinding, and is pumped to a floatation process, which produces a concrete of about 25% copper. The concrete is passed to smelters that roast it to move some of the sulphur, smelt the roast product to remove more sulphur. The result at this stage is impure copper. This is sent to a casting furnace to remove most of the remaining impurities, and cast the copper into 300kg ingots.
These operations are all carried out at the mine site, so there are two main logistics problems. The first moves huge quantities of materials from the mine to world markets, and the second moves the materials needed by the mine, smelters and other operations into the remote site.
The copper ingots are taken by train to Townsville, 80 km away on the coast, for electrolytic refining, which removes any remaining impurities and gives almost completely pure copper. These facilities have a capacity of over 150,000 tonnes a year. At this point the copper is cast into its final form, of cake, bars, rods and wire. These are driven to the nearby port where they are shipped around the world. Copper is only one of Mount Isa’s products, and it has similar transport problems with lead and zinc. It also mines coal and gold, has organised its transport operations into a separate company, generates electricity and supplies water for the city of Mount Isa, and is involved in a wide range of mining and associated ventures.
Required:
1. Describe the supply chain for Mount Isa Mines.
2. How important do you think transportation is for the operation of Mount Isa?
3. Describe any alternatives of transport available to Mont Isa.
4. What are the current transportation arrangement at Mount Isa and how might it be improved?
5. What specific activities form the logistics of Mount Isa?
6. Do other mining companies have similar transportation problems? Explain four of these problems.
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