Nuclear Systems Design Project

By MIT OpenCourseWare · Published by MIT Open Learning · Language: English
Source: MIT Open Learning Format: Course materials Undergraduate / College
Physics Energy Systems Engineering Nuclear Engineering Systems Thinking Engineering Business & Management Science & Math

"Nuclear Systems Design Project" is a Course materials drawn from MIT Open Learning and catalogued under Earth & Environmental Science for Undergraduate / College. From the source: This capstone course is a group design project involving integration of nuclear physics, particle transport, control, heat transfer, safety, instrumentation, materials, environmental impact, and economic optimization. It provides opportunities to synthesize knowledge acquired in nuclear… Slide Collection preserves the upstream link, the original creator credit and the licensing terms; download the file to use it in a classroom, study group or revision plan.

About this presentation

This capstone course is a group design project involving integration of nuclear physics, particle transport, control, heat transfer, safety, instrumentation, materials, environmental impact, and economic optimization. It provides opportunities to synthesize knowledge acquired in nuclear and non-nuclear subjects and apply this knowledge to practical problems of current interest in nuclear applications design. Each year, the class takes on a different design project; this year, the project is a power plant design that ties together the creation of emission-free electricity with carbon sequestration and fossil fuel displacement. Students taking graduate version complete additional assignments. This course is an elective subject in MIT’s undergraduate Energy Studies Minor. This Institute-wide program complements the deep expertise obtained in any major with a broad understanding of the interlinked realms of science, technology, and social sciences as they relate to energy and associated environmental challenges.

How to study this deck

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Five questions to test your understanding

  1. What is the single most important claim on the first three slides, and what evidence is offered for it?
  2. Which slide could you remove without losing the argument? Which slide is load-bearing?
  3. Where does the deck switch from definitions to applications? Mark that transition.
  4. What would a student who already disagreed with the conclusion need to see to be convinced?
  5. Which two slides, if combined, would give the clearest one-slide summary of the whole deck?

Where this deck fits in the wider catalogue

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Source: View original on MIT Open Learning →