22.033 | Fall 2011 | Undergraduate, Graduate

Nuclear Systems Design Project

Calendar

This course meets three times per week: nominally, two lectures and a recitation. However, as the semester progress, course meetings are increasingly devoted to group work, and some “lecture” sessions are devoted to subtask group presentations. Over the course of the semester, there were a total of 39 class meetings: introduction, 8 instructional lectures, 10 recitations, 11 group work sessions, and 9 project presentation sessions.

Session Key

Lec = Lecture
Rec = Recitation
Grp = Group work
Proj = Project presentations

MTG # SES # TOPICS KEY DATES
I. Introductory Talks, Major Design Choices
1 Intro Course introduction  
2 Lec 1 Sub-task intro: Core, nonconventional (non-PWR/BWR) reactors  
3 Lec 2

Sub-task intro: Process Heat

Logistics, journal articles, group responsibilities

 
4 Rec 1 LyX tutorial  
5 Lec 3

Sub-task intros: Hydrogen, Biofuels

Design process, importance metrics

 
6 Rec 2 Leadership skills Team Logo Contest entries due
7 Lec 4 Quality Function Deployment (QFD) example using House of Quality (HoQ)  
8 Lec 5

Short lecture on presentation techniques

Some group time, integrator progress reports

 
9 Rec 3 EES thermodynamic software  
10 Proj 1 Sub-task presentation I: Core  
11 Proj 2 Sub-task presentation I: Hydrogen Journal article 1 due
12 Rec 4 Engineering leadership & leadership styles  
13 Proj 3 Sub-task presentation I: Process Heat, Biofuel  
II. Research, Design, & Optimization
14 Grp 1 Start quantitative design process  
15 Grp 2 Group time; detailed critques on first journal articles  
16 Grp 3 Team mentoring with Mike & Tyrell  
17 Rec 5 Intermediate LyX tips and tricks Journal article 1 revision due
18 Grp 4 One-on-one mentoring with Mike & Tyrell  
19 Grp 5 One-on-one mentoring with Mike & Tyrell (cont.)  
20 Rec 6 Process Heat schematic development  
21 Lec 6 CaC2/acetylene block diagram  
22 Lec 7 Qualitative optimization of CaC2/acetylene block diagram  
23 Rec 7 Optimizing the CaC2/acetylene block diagram using EES  
24 Proj 4 Sub-task presentation II: Core  
25 Proj 5 Sub-task presentation II: Hydrogen  
26 Rec 8

Modifying the CaC2/Acetylene system using EES

LyX advanced topics

 
27 Proj 6 Sub-task presentation II: Biofuel  
28 Proj 7 Sub-task presentation II: Process Heat Journal article 2 due
III. Fine Tuning, Secondary Concerns
29 Rec 9

Modeling multicomponent systems in EES

Sub-system integration

 
30 Lec 8 Metals and cheeses: unconventional pairings  
31–33 Grp 6–Grp 8 In-class refinement of overall block diagram, input/output coordination  
34 Rec 10 Integrating block diagram models in EES  
35–37 Grp 9–Grp 11 In-class refinement of overall block diagram, input/output coordination  
IV. Final Report & Presentation
38 Proj 8 Practice final presentation Final presentation draft assembled
39 Proj 9 Final presentation with invited guests Final report due

Course Info

Instructor
As Taught In
Fall 2011
Learning Resource Types
Lecture Videos
Other Video
Lecture Notes
Projects with Examples
Written Assignments with Examples
Instructor Insights