Kenyelletso ea ts'ebetso ea tlhahiso le ts'ebeliso ea aluminium ea mantlha

Primary aluminum refers to pure aluminum directly refined from electrolytic bauxite (mainly alumina, Al₂o₃), rather than recycled aluminum produced by recycling scrap aluminum and remelting. The following is a detailed introduction to primary aluminum:

1. Production process

   The manufacture of primary aluminum mainly relies on the Hall-Héroult Process, and the key steps are as follows:

   • Bauxite mining: extracting alumina from ore

   • Bayer process purification: dissolving bauxite in sodium hydroxide to obtain pure alumin

   • Electrolytic reduction: In the electrolytic cell, alumina and cryolite (flux) are energized at high temperature (about 950°C) and decomposed into liquid aluminum and oxygen

   • Ingot: The liquid aluminum obtained by electrolysis is cooled and cast into aluminum ingots (such as aluminum billets, aluminum plates, jj.)

2. Likaroloana

   • High purity: The purity of primary aluminum is usually ≥99.6%, with few impurities and stable performance

   • Excellent performance: ductility, Phello, and corrosion resistance are better than recycled aluminum, suitable for high-end applications

   • High energy consumption: The production of 1 ton of primary aluminum consumes about 13,000-15,000 kWh of electricity, and the carbon emissions are large

3. Application areas

   • Primary aluminum is mainly used in industries with high material performance requirements

   • Aerospace: aircraft structural parts, spacecraft components

   • Electronic power: high-voltage cables, capacitor foil

   • High-end packaging: food-grade aluminum foil, cans

   • Automotive industry: lightweight body, high-strength parts

4. Primary aluminum vs. recycled aluminum

   • Comparison items Primary aluminum Recycled aluminum

   • Raw materials Bauxite (alumina) Waste aluminum recycling

   • Purity ≥99.6% Usually 90-98%

   • Energy consumption Extremely high (electrolysis process) Only 5% of primary aluminum

   • Cost Higher Lower

   • Environmental protection High carbon emissions Significantly reduce resource consumption

   • Applications High-end manufacturing General industry, building materials, daily necessities

5. Environmental challenges and trends

   • Carbon footprint issues: Electrolytic aluminum relies on fossil energy for power supply and is a major emitter in heavy industry

   • Green transformation: Some companies turn to hydropower or solar power supply (joalo ka “hydropower aluminum”), or develop inert anode technology to reduce carbon emissions

   • Circular economy: The proportion of recycled aluminum has increased, but primary aluminum is still irreplaceable in the high-end field

Kakaretso

Primary aluminum is an industrial basic material. Although the production cost is high and it is not environmentally friendly, its excellent performance makes it indispensable in key areas. Nakong e tlang, the sustainability of primary aluminum will gradually improve through the optimization of energy structure and the improvement of recycling system.