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ICC 1 - Conservation Principles
  1. Conservation Laws and Accouting
  2. Conservation of Mass
  3. Conservation of Energy;
    Mechanical and Thermal Energy Balances
  4. Conservation of Linear Momentum
  5. Conservation of Angular Momentum
ICC 2 - Materials
  1. Equations of State
  2. Energy properties
  3. Entropy
  4. Transport props:
    1. viscosity
    2. thermal cond
    3. diffusivity
ICC 3 - Continuum Principles
  1. Coordinate Systems
  2. Mass Continuity
  3. Equation of Motion
  4. Energy Conservation
  5. Multicomponent
ICC 4 - System Synthesis and Integration
  1. Overall mass targeting of process flowsheets
  2. Targeting and synthesis of direct recycle networks
  3. Heat exchange networks and utility optimization
ICC 5 - Microchemical Systems
  1. Fluid mechanics at the microsale
  2. Heat and mass transfer;
    influence on reation engineering
  3. Microfluidics device design and creation (lab component)
ICC 6 - Molecular Modeling
  1. Models & Interactions
  2. Molecular Simulation Methods
  3. Property Prediction
ICC 7 - Nanotechnology Biotechnology
  1. Scaling; what is important at the nanoscale
  2. Soft particulate systems; compare to atomistic
  3. Nanotechnology design (lab component)
ICC 8 - Environment and Sustainability
  1. Sustainability
  2. Sustainable Energy
  3. Chemical Process Designs
    Performance Evaluation and Improvement
  4. Life Cycle Analysis
NSF Curriculum Renewal Project
 
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The development of this page is sponsored by the National Science Foundation through an Engineering Departmental Level Reform grant.
copyright 2006, Texas A&M Chemical Engineering Department, all rights reserved