NE 342:  Transport Processes

Nuclear Engineering Curriculum Review and Mapping
NE342:  Transport Processes
Instructor: A.E. Ruggles

Learning Outcomes for NE 342 (Transport Processes)

  1. The ability to develop and understand transport models for continua by applying conservation laws to fixed control volumes.  The ability to use empirical models is also developed.
  2. The ability to properly structure an analysis strategy and apply transport laws to various situations of interest in engineering.
  3. The ability to document the use of transport models such that the work can be checked and understood by peers.  These skills are developed through required homework and exams.
  4. The ability to understand how standard instrumentation, fluid flow and heat transfer hardware function.
Course Objectives for NE 342

The course provides knowledge of the physics and modeling strategies associated with mass and energy transport.  The course emphasizes communication of technical information and the utilization of physical knowledge to formulate analyses.

The following are the 11 ABET 2000-specified learning outcomes:

  1. Ability to apply knowledge of mathematics, science and engineering
  2. Ability to design and conduct experiments, as well as to analyze and interpret data
  3. Ability to design a system, component, or process to meet desired needs
  4. Ability to function in multi-disciplinary teams
  5. Ability to identify, formulate and solve engineering problems
  6. Understanding of professional and ethical responsibility
  7. Ability to communicate effectively
  8. Broad education necessary to understand the impact of engineering  solutions in a global/societal context
  9. Recognition of the need for and ability to engage in life-long learning
  10. Knowledge of contemporary issues
  11. Ability to use the techniques, skills and modern engineering tools necessary for engineering practice
Table 1.  Mapping of Transport Processes (NE 342) learning outcomes to expected ABET 2000 outcomes

LEARNING OUTCOMES

ABET  Outcome 1 2 3 4
1. Basic knowledge X X   X
2. Design Experiment        
3. Design Process        
4. Multi-disc. Teams        
5. Formulate and solve X X X X
6. Profession/Ethics        
7. Communication Skills     X  
8. Global/Societal        
9. Life-long Learning        
10. Contemporary Issues         
11. Modern Engineering Tools       X

Explanation of the Mapping Presented in Table 1 (NE 305)

NE 342 contributes to the various ABET –specified outcomes as shown in Table 1.

ABET Outcome 1: The ability to apply knowledge of basic sciences and engineering is addressed at three levels in the course.  Firstly, the basic physics of transport are explained and developed from first principles.  Engineering models for transport are also developed.  Secondly, the methods and strategies for implementing the models in engineering practice are developed.  Thirdly, the convention for the organization and communication of the analysis or development are exercised.

ABET Outcome 5: The method for organized engineering analysis is pervasive to the course material.  This type of analysis is used to develop some of the models used in the course and all of the homework and exams involve the development and use of these skills.

ABET Outcome 7:  The clear and concise representation of all pertinent information in each analysis is required for homework and exams.

ABET Outcome 11: Conventional components and instrumentation used in commercial transport systems are reviewed.  This includes pumps, valves, temperature and flow measurement devices and heat exchangers.
 


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