Why UST

UST VISION 2025

PROUDUST

Training USTians with pride by promotinga creative educational environment

UNIQUE
DIFFERENT
PROFESSIONAL
Excellent
Secure world-leading educational competitiveness

Discovering creative talent and to become real USTians
Establishment of UST21 education system

Entrepreneur
Become a university with industry-academia-research integration

Strengthening the cooperation between UST-GFRIs-corporations
Strengthen the cooperation between GFRIs
Support business start-ups with GFRI-based technologies

Global
Establish global status as a national research university

Improving brand value
Improving cooperation network

Smart
Establish creative knowledge management system

Providing creative educational environment by applying cutting-edge technology
Improving management effectiveness

Introduce

The major of Advanced Nuclear System Engineering (ANSE) deals with the most advanced nuclear technologies that have greater safety and economics as well as non-proliferation of nuclear materials, and the reduction of nuclear wastes. Most of the advanced nuclear technologies are based on the design and operation experiences of nuclear reactors, newly developed and/or technologies being developing currently of advanced nuclear reactors. The ANSE program includes active technical training and education on the fundamental and application areas of nuclear system engineering while minimizing simple academic educations. The graduate program intends to provide the advanced technical skills and research capabilities. The graduate program (Master and Ph.D. courses) of the ANSE major consists mainly of three groups such as Nuclear Reactor Engineering (RE), Nuclear Safety (NS), and Fusion Technologies (FT). The RE group deals mainly with design and performance evaluation of new reactor systems such as research reactor, advanced light water reactor, Gen-IV reactors. The NS group covers fundamental thermal-hydraulic experiments, safety analysis, thermal-hydraulic design, severe accidents, probabilistic safety assessment, environmental safety, radiation safety, and nuclear regulation. And the FT deals with nuclear reactor physics, nuclear materials, instrumentation and control, and radiation shielding. The courses consist of classroom lecture, field research, seminars, and thesis research. The students participate very closely with faculty members in research projects conducted by the campus of Korea Atomic Energy Research Institute (KAERI). Through systematic and comprehensive programs of education and research, we aim to contributing to the development of more safe and sustainable advanced nuclear systems.

Category

Course Name (Kor/Eng)

원자력열전달개론 (Introduction of Nuclear Heat Transfer)

Course Details

Course Details
캠퍼스, 학위과정, 학점, 이수구분, 강의형태, 강의방법, 주관교수로 구분하여 안내합니다.
Campus Korea Atomic Energy Research Institute
Academic Curriculum Integrative program Credts 3
Completion Criteria Major Lecture Types Major
Lecture Methods Korean course Supervising Professors

Summary

Summary
강의목표, 교재 및 참고문헌, 수업운영방식, 과제물, 성적평가방식으로 구분하여 안내합니다.
Lecture Objectives 원자력과 관련된 열전달 현상을 종합적으로 학습
Textbooks and References 2상유동열전달, convective boiling and condensation
How a Lecture is Conducted 강의 및 토의
Assignments
Grading and Score Evaluatios 과제물/출석 40% 중간시험 30% 기말시험 30%

Weekkly Syllabus

Weekkly Syllabus
Weekkly, 계획으로 구분하여 안내합니다.
1 Week
2 Week
3 Week
4 Week
5 Week
6 Week
7 Week
8 Week
9 Week
10 Week
11 Week 수조비등
12 Week 유동비등
13 Week 임계열유속
14 Week 적응축
15 Week 막응축
16 Week