CEE 4535

CEE 4535

Course information provided by the Courses of Study 2023-2024.

This course covers chemical principles relevant to the understanding, design, and control of chemical processes in natural and engineered systems. Topics include chemical thermodynamics, acid-base equilibria, mineral precipitation/dissolution, trace element speciation, redox reactions, and reactions at the solid-solution interface. This course focuses on the mathematical description of chemical equilibria and the development of numerical, graphical, and computational solutions to these problems. Students will learn to use chemical equilibrium modeling software to describe and predict chemical speciation in complex waters. Applications of aquatic chemical principles to topics including lead in drinking water systems, arsenic mobility in agricultural soils, and geologic CO2 sequestration are discussed.

When Offered Fall.

Prerequisites/Corequisites Prerequisite: CHEM 2090 or equivalent for undergraduates.

Outcomes
  • Formulate systems of equations to describe aquatic chemical systems using engineering and chemistry principles including mass balance and chemical equilibrium concepts.
  • Quantify chemical parameters in aquatic systems using numerical, graphical, and computational solution methods.
  • Implement chemical equilibrium modeling of complex aquatic systems using Visual Minteq software.
  • Communicate applications of chemical equilibrium modeling techniques to real-world aquatic systems in writing and through graphical representations.

View Enrollment Information

Syllabi:
  •   Regular Academic Session.  Combined with: CEE 6530

  • 3 Credits Graded

  • 19734 CEE 4535   LEC 001

    • MWF Upson Hall 202
    • Aug 21 - Dec 4, 2023
    • Reid, M

  • Instruction Mode: In Person