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Reaction and Biochemical Engineering
CEN 502
Description
·       Non-isothermal reactor design at steady and unsteady state
·       Multiple reactions in PFR/CSTR
·       Introduction to heterogeneous catalysis
·       Mass transfer and reaction in heterogeneous catalytic reactions
·       Design of fixed bed reactors
·       Mass transfer and reaction in gas/liquid reactions
·       Mass transfer and reaction in gas/liquid/solid reactions
·       Design of gas/liquid reactors
·       Design of and gas/liquid/solid reactors
·       Computational design of advanced chemical reactors 
·       Active Intermediates and Nonelementary Rate Laws
·       Enzymatic Reaction Fundamentals
·       lnhibition of Enzyme Reactions
·       Bioreactors
·       Perform design calculations with regards to scale-up and scale-down of a fermentation process
ECTS credits
8
Teaching Language
English
Exam Language
English
Support Materials Language
English
Basic Learning Outcomes
  • Scientific-technical and methodological training for the continuous improvement of knowledge and the exercise of professional functions of advice, analysis, design,  project, planning, management and operation in the fields of Environmental engineering. 
    (B1 - EEM - Scientific-technical and methodological training for the continuous improvement of knowledge and the exercise of professional functions of advice, analysis, design,  project, planning, management and operation in the fields of Environmental engineering. )
  • In depth knowledge of  scientific and technological applications for the solution of Environmental engineering problems. 
    (B7 - EEM - In depth knowledge of  scientific and technological applications for the solution of Environmental engineering problems. )
Final Learning Outcomes
  • Apply in depths technical knowledge for dimensioning Environmental Engineering projects/systems.
    (F1 - EEM - Apply in depths technical knowledge for dimensioning Environmental Engineering projects/systems.)
  • Understand and apply sustainable and resilient design principles and green technologies/solutions for the implementation of reliable Environmental Engineering systems 
    (F4 - EEM - Understand and apply sustainable and resilient design principles and green technologies/solutions for the implementation of reliable Environmental Engineering systems )
  • Mastering design principles based on original, resilient, sustainable, and reliable solutions for the implementation of Environmental Engineering systems.
    (F5 - EEM - Mastering design principles based on original, resilient, sustainable, and reliable solutions for the implementation of Environmental Engineering systems.)
Course categorized
Managing Entity (faculty)