BEE 5630

BEE 5630

Course information provided by the 2025-2026 Catalog.

Mechanistic, model-based understanding and digital tools critically innovate in the design cycle for products and processes, food manufacturing is no exception. The course will introduce tools such as computational modeling, digital twins, and predictive knowledge bases, exploring deeper into the underlying universal physics-based frameworks describing transformations in food during processing.


Prerequisites BEE 3500 or CHEME 3240 or MAE 3240 or permission of instructor.

Last 4 Terms Offered 2025SP, 2024SP, 2023SP

Learning Outcomes

  • Explain a food physics framework in terms of its basic building blocks that can describe many food processes.
  • Compare and contrast between simpler and more comprehensive physics frameworks for understanding food processes.
  • Apply a food physics framework to complex food processes for their understanding and optimization.
  • Create framework-based computational model of a food process that speeds up the design cycle.
  • Analyze the transport phenomena, solid mechanics, and multiphysics (such as when microwave heating is added).
  • Break down a food process into its multiphysics-- transport phenomena, solid mechanics, electromagnetics, together with quality and safety kinetics, to have its comprehensive understanding.

View Enrollment Information

Syllabi:
  •   Regular Academic Session. 

  • 3 Credits Graded

  •  7905 BEE 5630   LEC 001

    • F
    • Jan 20 - May 5, 2026
    • Datta, A

    • Jan 20 - May 5, 2026
    • Datta, A

  • Instruction Mode: Hybrid-Online and In Person