Innovative Nuclear Systems Design Project

Academic unit or major

Graduate major in Nuclear Engineering

Instructor(s)

Toru Obara

Class Format

Exercise

Media-enhanced courses

-

Day of week/Period
(Classrooms)

Class

-

Course Code

NCL.N411

Number of credits

020

Course offered

2025

Offered quarter

3-4Q

Syllabus updated

Mar 19, 2025

Language

English

Syllabus

Course overview and goals

Students design a nuclear reactor which they choose by themselves. It is required to make clear the purpose and the application of the reactor, perform neutornic and thermal-hydraulic analysis, and estimate the usefulness of the reactor. Students deepen the understanding about the analyses and learn how to apply them. In addition, students learn how to explain the purpose and the usefulness to introduce the reactor.

Course description and aims

The students will be able to:
(1) Set the purpose to introduce the nuclear reactor by themselves and explain it.
(2) Perform fundamental neurotic analysis to design the reactor.
(3) Perform fundamental thermal-hydraulic analysis to design the reactor.
(4) Explain the usefulness of the designed reactor.

Keywords

Innovative nuclear reactor systems, nuclear reactor design, neurotic analysis, thermal-hydraulic analysis

Competencies

• Specialist skills
• Intercultural skills
• Communication skills
• Critical thinking skills
• Practical and/or problem-solving skills

Class flow

Usually two students make a team and design a reactor which they decide by themselves. Each team reports the progress at the class every time. The lecturers and teaching assistant give comments and support if it is needed.

Course schedule/Objectives

Study advice (preparation and review)

Students are encouraged to spend approximately 100 minutes before the class and another 100 minutes after the class for the design study based on the comments at the class and references.

Textbook(s)

No textbook is set.

Reference books, course materials, etc.

John R. Lamarsh, “Introduction to Nuclear Reactor Theory”, Addison-Wesley Publishing Company, Inc. (1965).
James J. Duderstadt, Louis J. Hamilton, “Nuclear Reactor Analysis”, John Wiley & Sons, Inc. (1976).
George I. Bell, Samuel Glasstone, “Nuclear Reactor Theory”, Robert E. Krieger Publishing Co., Inc. (1970).
Samuel Glasstone, Alexander Sesonske, "Nuclear Reactor Engineering", Chapman & Hall, Inc. (1994).
Weston M. Stacey, “Nuclear Reactor Physics”, WILEY-VCH Verlag GmbH & Co. KGaA (2004).
Raymond L. Murray and Keith E. Holbert, "Nuclear Energy: An Introduction to The Concepts, Systems and Application of Nuclear Processes Seventh Edition", Elsevier Ltd. (2013).
E.E. Lewis, “Fundamentals of Nuclear Reactor Physics”, Academic Press (2008).
Neil E. Todreas, Mujid S. Kazimi, "Nuclear Systems I Second Edition", CRC Press (2011).
Neil E. Todreas, Mujid S. Kazimi, "Nuclear Systems II", Routledge (1990).

Evaluation methods and criteria

Presentation about the purpose, application, neutronic characteristics, thermal-hydraulic characteristics and usefulness of the designed reactor at the final presentation

Related courses

• NCL.N401 ： Basic Nuclear Physics
• NCL.N402 ： Nuclear Reactor Theory I
• NCL.N406 ： Nuclear Reactor Theory II
• NCL.N403 ： Nuclear Materials and Structures
• NCL.N405 ： Nuclear Reactor Thermal-hydraulics
• NCL.N407 ： Nuclear Safety Engineering
• NCL.N409 ： Nuclear Energy Systems

Prerequisites

Students must have successfully completed the classes about nuclear physics, nuclear reactor theory, nuclear materials, nuclear reactor thermal-hydraulics and nuclear energy systems, or have enough knowledge of the fields.

Contact information (e-mail and phone) Notice : Please replace from ”[at]” to ”@”(half-width character).

tobara[at]zc.iir.isct.ac.jp (Prof. Obara)

Office hours

Contact by e-mail in advance to schedule an appointment.