Extent: 20–25 cr
Professor in charge: Michael Gasik
Target group: Master's students
Application procedure: Open for all students of Aalto University.
Quotas and restrictions: Please note, that in some courses the number of participants can be limited. Then major students (Sustainable Metals Processing) have the priority.
Prerequisites: While making your study plan, you should verify that you have the prerequisites needed for the courses.
The core scientific and engineering knowledge to be obtained include chemical thermodynamic, phase equilibrium and property calculations. The students shall possess adequate knowledge of chemical kinetics in various fields related to metallurgical processing industries. The students shall understand chemical equilibria, process dynamics, system engineering and their connections to process design, the best practices and flow-sheet integration. They shall also understand the societal, economic and environmental impacts of processes related to metal making based on systems thinking.
The key skills to be developed include systems thinking and engineering and their connections to process design, the best practices and flow-sheet integration, linking product design and geology to metal production in a sustainable way, especially links to energy recovery as well as water recycling. The students shall be capable to make experimental studies on metals extraction reactors and unit processes at low and high temperatures, gather data and evaluate process performance.
Content and structure of the minor
Minor (20–25 cr) can be any combination of courses belonging to the Sustainable Metals Processing major. Please check the list below.
Structure of the minor
Choose so many courses below that the Minor will be at least 20 cr
|CHEM-E6100||Fundamentals of Chemical Thermodynamics||5||I|
|CHEM-E6120||System Integrated and Sustainable Metals Production||5||II|
|CHEM-E6140||Fundamentals of Minerals Engineering and Recycling||5||I|
|CHEM-E6160||Fundamentals of Pyrometallurgy||5||II|
|CHEM-E6180||Fundamentals of Hydrometallurgy||5||I–II|
|CHEM-E6225||Technical Innovation Project||10||I–II|
|CHEM-E6105||Thermodynamics of Solutions||5||III-V|
|CHEM-E6115||Thermodynamics of Modeling and Simulation||5||III-V|
|CHEM-E6215||Circular Economy Design Forum P||5||IV-V|
|CHEM-E6235||Circular Economy for Materials Processing|
|CHEM-E6165||Unit Processes in Pyrometallurgy||5||III-IV|
|CHEM-E6205||Metallurgical Engineering Project Work||5||IV-V|
|CHEM-E6185||Applied Electrochemistry and Corrosion||5||III-IV|
|CHEM-E6195||Unit Processes and Systems in Hydrometallurgy||5||IV-V|
|CHEM-E7120||Laboratory Project in Chemical Engineering||5||I-II|
|CHEM-E6210||Individual Research Project||5||I-II, III-IV or V|