LEARNING OUTCOMES
Completion of the course provides the skills to understand quite profoundly nuclear reactors, the reactor core, and computing models. Of the course, the student knows the reactor core interactions in a nuclear power plant with other systems and manages the concepts on which modern reactor physics calculation is based.
Credits: 5
Schedule: 28.02.2023 - 07.06.2023
Teacher in charge (valid for whole curriculum period):
Teacher in charge (applies in this implementation): Jaakko Leppänen
Contact information for the course (applies in this implementation):
CEFR level (valid for whole curriculum period):
Language of instruction and studies (applies in this implementation):
Teaching language: English. Languages of study attainment: English
CONTENT, ASSESSMENT AND WORKLOAD
Content
valid for whole curriculum period:
The computational modeling of a nuclear fission reactor involves solving a coupled problem between neutronics, heat transfer and coolant flow. This course covers the physics and phenomena of reactor operation, together with the state-of-the-art computational methods used in reactor core simulations.
Assessment Methods and Criteria
valid for whole curriculum period:
Two midterm exams or a final exam.
Workload
valid for whole curriculum period:
Lectures 36 h, exercises 12 h, independent study 36 h, solving exercises 24 h, preparation for mid-term exams 16 h, mid-term exams 6 h.
DETAILS
Substitutes for Courses
valid for whole curriculum period:
Prerequisites
valid for whole curriculum period:
SDG: Sustainable Development Goals
7 Affordable and Clean Energy
13 Climate Action
FURTHER INFORMATION
Further Information
valid for whole curriculum period:
Teaching Language : English
Teaching Period : 2022-2023 Spring IV - V
2023-2024 Spring IV - VEnrollment :
Registration via Sisu.