The SMS team has extensive experience in smelter operations and has assisted numerous smelters across Australia over the last 20+ years including Tomago Aluminium and Bell Bay.
Projects have covered various aspects of smelter operations including anode handling; casthouse operations; molten aluminium transport; ingot mill scheduling; nickel smelter upgrade; and zinc materials handling.
- Simulation modelling of molten aluminium and casthouse operations to review options for the management of crucibles and crucible transport vehicles (CTVs). Parameters reviewed included the number of crucibles and CTVs, location of pickup points, quantity of and time taken for scrap melting in VDC furnaces, siphon downtimes, and continuous ingot casting. The option for a dedicated CTV in the furnace area was considered, along with a review of the crucible cleaning area and its impact on overall production.
- Extensive modelling of anode handling to support the introduction of new technology. Issues addressed included the number and size of vehicles involved in the placement of trays on rodded anodes beside potlines preparatory to the changing out of anodes in individual cells; the collection of anode butts after change-out and their return to the rodding room; alternate schedules for anode changes; and interference of anode and butt transfers with other production activities.
- Modelling of the collection, transportation and consumption of molten aluminium to support upgrade planning. The study reviewed proposed changes to various aspects of the casthouse operation, and determined the number of furnaces required and the dependence of this upon the mix of products made.
- Study of ingot mill operations to assist with managing hot metal usage following a revision of operating procedures and increased production levels. The study was used to develop appropriate scheduling methodologies. It also highlighted some areas of concern with the proposed upgrade. This model was subsequently used to investigate further operational changes.
- Modelling of a nickel smelter to support a proposed upgrade in converter capacity. The model studied the impact of the upgrade on upstream and downstream processes and established the point at which interference between two overhead cranes became a limiting factor in throughput. Advice was also provided on different work practices relating to crane operation.
- Analysis of raw materials handling and storage to assist with planning for a proposed third potline. The study looked at the arrival, ship unloading, transfer, storage and consumption of all raw materials; and the circulation of the various recycled materials within the plant.
- Other smelting projects relating to high purity model capture; butt cleaning; alloying furnaces, modelling of anode baking furnaces; aluminium bath delivery, rodding room simulation; carbon bake conversion; and continuous homogenising study.
- Over 30 years’ experience in simulation technologies
- Onsite intranet or secure remote cloud portal deployments
- Ongoing assistance in simulation learnings and outcomes