Nuclear reactors provide 10% of global electricity generation and are used in a wide range of applications from defence to medical radioisotope production. A detailed understanding of reactor physics and an ability to simulate nuclear reactors is key to their reliable and safe operation. This course explores advanced topics relating to the physics, design and operation of nuclear reactors, and will introduce methods of simulating their properties and performance, including:
- Analytic models for neutron transport in reactors
- Multigroup transport theory
- Time dependent reactors – startup and transient response
- Nuclear data for reactor simulation
- Resonance escape probabilities
- Monte Carlo methods for neutron transport
- Simulation of nuclear reactors and their components
Learning Outcomes
Upon successful completion, students will have the knowledge and skills to:
- Explain advanced aspects of reactors physics;
- Analyze reactors using appropriate models;
- Critically examine simulations of a nuclear reactor;
- Evaluate the merits of different types of simulations for nuclear reactors;
- Design simulations of nuclear reactors and their components;
Indicative Assessment
- Weekly problem sets (50) [LO 1,2,3]
- Reactor simulation project (50) [LO 1,3,4,5]
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Workload
The course will include lectures and tutorials to introduce key concepts in nuclear reactor science and simulation (approximately 8 weeks) and an extended project giving more in-depth and hands-on experience in reactor simulations (4 weeks).
The expected workload will consist of approximately 130 hours throughout the semester, including:
- Face-to face component which may consist of 1 x 2 hour lecture and 1 x 2 hour tutorials per week (approximately 32 hours across the semester)
- Simulation workshops (4 hours per workshop) (approximately 16 hours across the semester)
- Approximately 82 hours of self directed study which will include preparation for lectures and other assessment tasks.
Inherent Requirements
No specific inherent requirements have been identified for this course.
Requisite and Incompatibility
Prescribed Texts
N/A
Preliminary Reading
Nuclear Reactor Analysis (Duderstadt and Hamilton; Wiley, New York)
Introduction to Nuclear Engineering (Lamarsh and Baratta; Prentice Hall, New Jersey)
Fees
Tuition fees are for the academic year indicated at the top of the page.
Commonwealth Support (CSP) Students
If you have been offered a Commonwealth supported place, your fees are set by the Australian Government for each course. At ANU 1 EFTSL is 48 units (normally 8 x 6-unit courses). More information about your student contribution amount for each course at Fees.
- Student Contribution Band:
- 2
- Unit value:
- 6 units
If you are a domestic graduate coursework student with a Domestic Tuition Fee (DTF) place or international student you will be required to pay course tuition fees (see below). Course tuition fees are indexed annually. Further information for domestic and international students about tuition and other fees can be found at Fees.
Where there is a unit range displayed for this course, not all unit options below may be available.
| Units | EFTSL |
|---|---|
| 6.00 | 0.12500 |
Course fees
- Domestic fee paying students
| Year | Fee |
|---|---|
| 2024 | $4440 |
- International fee paying students
| Year | Fee |
|---|---|
| 2024 | $6360 |
Offerings, Dates and Class Summary Links
ANU utilises MyTimetable to enable students to view the timetable for their enrolled courses, browse, then self-allocate to small teaching activities / tutorials so they can better plan their time. Find out more on the Timetable webpage.
Class summaries, if available, can be accessed by clicking on the View link for the relevant class number.
Second Semester
| Class number | Class start date | Last day to enrol | Census date | Class end date | Mode Of Delivery | Class Summary |
|---|---|---|---|---|---|---|
| 8785 | 22 Jul 2024 | 29 Jul 2024 | 31 Aug 2024 | 25 Oct 2024 | In Person | N/A |
