교과과정 소개

첨단원자력공학부 발전기금 모금

학과발전기금은 포스텍 첨단원자력공학부를 사랑하는 동문, 교직원, 개인, 기업체 등 누구나 동참하실 수 있습니다. 후원해 주신 발전기금은 학과 공간 확충, 학과 시설개선, 학생 장학금, 연구 시설 구입 등 학과 발전에 사용됩니다. 여러분의 후원이 첨단원자력공학부의 발전에 소중한 밑거름이 될 것이며, 보내주신 고귀한 마음을 간직하고 모교의 발전과 후배들의 미래를 위해 소중히 사용하도록 하겠습니다.
약정방법
온라인약정
인터넷 약정 : http://dane.postech.ac.kr
우편, 전화, 팩스신청
(790-784) 경북 포항시 남구 청암로 77, 첨단원자력공학부
Tel 054-279-9551~2 / Fax 054-279-9559
직접 방문
경북 포항시 남구 청암로 77, 첨단원자력공학부 학과사무실 방문
납입방법
무통장입금
XX은행 : XXXX-XXX-XXXX-XXXX
* 입금 후 기부자 확인을 위해 첨단원자력공학부로 연락주시기 바랍니다.  첨단원자력 공학부 TEL : 054-279-9551~2
자동이체
편리하게 인터넷 뱅킹을 이용하시거나, 은행에 내방하시어 신청하는 방법입니다.
CMS자동이체
기부자님이 매월 직접 입금해야하는 불편을 없애기 위해 기부자님의 계좌에서 지정금액을 매월 25일에 자동출금하는 서비스입니다.
신용카드
인터넷상에서 신용카드로 손쉽게 기부하실 수 있으며, 기부자님의 카드결제일에는 데이콤 명의로 청구됩니다.
방문접수
기부자님께서 KAIST 발전재단에 방문하시어 접수하시거나, 재단에서 직접 방문해드립니다.
- 2020학년도 부터
DANE 교과과정 소개
Classification Course No. Course Title Credits Professor More
전선 NUCE501 원자력 공학 3-0-3
  • Classification : 전선
  • Course No. : NUCE501
  • Credits : 3-0-3
  • Professor :
To provide graduate students who have no prior nuclear engineering education background with general and basic knowledge on nuclear power generation technology.
전선 NUCE502 원자로물리학 3-0-3 장문희
  • Classification : 전선
  • Course No. : NUCE502
  • Credits : 3-0-3
  • Professor : 장문희
핵분열원자로이론 및 중성자수송이론의 개념소재를 시작으로 하여,수송방정식의 해를 구하기위한 PI근사및확산이론을 학습한다. 뿐만아니라 원자로의 특성해석에 중요한 임계계산, 원자로의동특성, 중성자의 에너지감속이론에대해 학습하며, 실용적계산법을 위한 확산이론의 수치해석방법에 대해 학습한다.
전선 NUCE511 열전달물리학 3-0-3 Massoud Kaviany
  • Classification : 전선
  • Course No. : NUCE511
  • Credits : 3-0-3
  • Professor : Massoud Kaviany
Heat Transfer Physics is a graduate course describing atomic-level kinetics (mechanisms and rates) of thermal energy storage, transport (conduction, convection, and radiation), and transformation (various energy conversions) by principal energy carriers. These carriers are: phonon (lattice vibration wave also treated as quasi-particle), electron (as classical or quantum entity), fluid particle (classical particle with quantum features), and photon (classical electromagnetic wave also as quantum-particle).
전선 NUCE611 이상유동 3-0-3 김무환
  • Classification : 전선
  • Course No. : NUCE611
  • Credits : 3-0-3
  • Professor : 김무환
This course will discuss pressure drop in two phase flow, heat transfer phenomena and phase change such as condensation and boiling phenomena. Based on these, applied design technology and malfunction in normal operation of steam generator, condenser and nuclear reactor will be analyzed. Also, flow boiling crisis and instability in two phase flow will be examined.
전선 NUCE701 고급원자로물리학및공학 3-0-3
  • Classification : 전선
  • Course No. : NUCE701
  • Credits : 3-0-3
  • Professor :
The course covers the theory of nuclear fission reactors including multiplication factor, scalar flux and net current, reaction rates, diffusion theory, criticality calculations, reactor kinetics, neutron slowing down theory, and numerical solution of the diffusion equation. An introduction to heat transport in reactor core is also provided.
전선 NUCE702 원자로실험 1-1-1
  • Classification : 전선
  • Course No. : NUCE702
  • Credits : 1-1-1
  • Professor :
This course consists of the introduction lecture of reactor experiment, and the practical experiments using KUCA (Kyoto University Critical Assembly) in Japan. The KUCA is a multi-core-type critical assembly. Students visit the facility and participate in three major experiment: approach to criticality, control rod calibration, and measurement of reaction rate. The subjects cover overall topics of nuclear reactor and help students to understand the essence of nuclear reactor physics and radiation detection.
전필 NUCE510 원자력발전공학 3-0-3
  • Classification : 전필
  • Course No. : NUCE510
  • Credits : 3-0-3
  • Professor :
Applied technologies required in such areas as design, analysis, and research concerned with the nuclear power plant. * Basic thermodynamics review. * Fundamentals Applied to the components constructing the nuclear power plants. * Introduction to a computer code which is currently used in the actual research and analysis areas.
전필 NUCE520 방사선계측 3-0-3 이희석
  • Classification : 전필
  • Course No. : NUCE520
  • Credits : 3-0-3
  • Professor : 이희석
전필 NUCE530 방사성폐기물관리 3-0-3 엄우용
  • Classification : 전필
  • Course No. : NUCE530
  • Credits : 3-0-3
  • Professor : 엄우용
This course is designed for the senior undergraduate and the graduate students of nuclear science, nuclear engineering, environmental science and engineering, biology, geology, and chemistry to provide an overview of fundamentals of radioactive waste management. This course includes nuclear fuel cycle (front ? and back-end), radioactive wastes generation and types, radiation source/measurement/effects/nuclear waste incineration, actinide chemistry, mechanisms of microbiological effects on radionuclide immobilization in the environment, treatment technology of radioactive wastes, waste form development and testing methods, geological storage and disposal of wastes, modeling of radionuclide transport, decontamination/decommissioning methods, and risk assessment/safe analysis of repository. The primary goal of this course is to provide the students for understanding of radioactive wastes, immobilization of different waste forms and its management practices so that student will be able to work effectively with nuclear and environmental engineers in industry or academic institutions.
전선 NUCE518 원자력열수력학1 3-0-3
  • Classification : 전선
  • Course No. : NUCE518
  • Credits : 3-0-3
  • Professor :
전선 NUCE 519 원자력열수력학2 3-0-3
  • Classification : 전선
  • Course No. : NUCE 519
  • Credits : 3-0-3
  • Professor :
전선 NUCE711 확률론적안전성평가 3-0-3
  • Classification : 전선
  • Course No. : NUCE711
  • Credits : 3-0-3
  • Professor :
- Basic Concepts of Risk and Nuclear Safety - The Nature of Nuclear Power Plant Accidents) - Nuclear Power Plant Safety Systems - Risk Assessment Methodology 1. Event Tree and Fault Tree 2. Level 1, 2, and 3 PSA 3. External PSA - Reliability Analysis - Major Nuclear Core Melt Down Accidents
전선 NUCE523 플라즈마물리 3-0-3 윤건수
  • Classification : 전선
  • Course No. : NUCE523
  • Credits : 3-0-3
  • Professor : 윤건수
This course is intended for the fundamentals for the use of E&M (electricity and magnetism), charged particles or e-beam, and plasmas for biomedicine and some basics of molecular biology and thermodynamics included. The applications of various optical and plasma devices to sterilization, coagulation, interaction with skin, and cancer treatment to be covered.
전선 NUCE524 방사선안전 3-0-3
  • Classification : 전선
  • Course No. : NUCE524
  • Credits : 3-0-3
  • Professor :
The knowledge of radiation expected ,when radioactive isotopes, radiation generators, and nuclear power plants are used, is introduced. The principle and practical methods to minimize the radiation exposure are given. Students will understand the radiation and study the detection techniques, the radiation effects to human body, the protection principle to prevent the radiation exposure, and etc. Safety-related issues in different applications of various radiations are given to students.
전선 NUCE525 가속기의원리와기술 3-0-3
  • Classification : 전선
  • Course No. : NUCE525
  • Credits : 3-0-3
  • Professor :
This course covers subjects related with the principles and technology in the Light source accelerators. The key words covered in this course are; Introduction to accelerator physics (Storage ring and XFEL) and technology, Magnet technology, Vacuum system, Diagnostics technology, laser system.
전선 NUCE526 방사광과학과응용 3-0-3
  • Classification : 전선
  • Course No. : NUCE526
  • Credits : 3-0-3
  • Professor :
The first applications of synchrotron radiation were in the field of solid-state physics. But, its use now is ubiquitous in all the physical and natural sciences, with also significant medical applications. ‘Samples’ studied at beamlines range from man-made inorganic materials and devices, natural minerals and rocks, environmentally significant specimens, cultural heritage materials, biologically relevant molecules. The class covers the properties of the important beamline experimental techniques and their principles, and also, introduce to free electron lasers and an overview of the most common experimental techniques and applications.
전선 NUCE721 방사선차폐와몬테카를로분석 2-2-3 이희석
  • Classification : 전선
  • Course No. : NUCE721
  • Credits : 2-2-3
  • Professor : 이희석
The radiation produced in utilizing radioactive isotope, radiation generator, and nuclear power plant is introduced. This course consists of how to protect the radiation to minimize the radiation exposure and how to use well-known Monte Carlo codes. Safety-related issues in different applications of various radiations are given to students. This helps students to understand the principle of shielding analysis using Monte Carlo codes (FLUKA, PHITS, MCNP) with fundamental knowledge of Monte Carlo calculation. The practice course of each codes will be given to students.
전선 NUCE533 환경방사성오염물질 3-0-3 엄우용
  • Classification : 전선
  • Course No. : NUCE533
  • Credits : 3-0-3
  • Professor : 엄우용
This course provides the graduate students for an overview of fundamental radiochemistry and hydrogeochemistry associated with radioactive wastes and contaminants in the environments such as small scale of solidified waste forms to field scale of geological nuclear waste repository. This course includes a fundamental radiochemistry, aqueous geochemistry, mineralogy, groundwater hydrology, low-temperature solid waste form development, and nuclear waste management.
전선 NUCE534 비정질세라믹스 3-0-3
  • Classification : 전선
  • Course No. : NUCE534
  • Credits : 3-0-3
  • Professor :
This course teaches basic theories and the most up-to-date research trend on principles and generation of Photonics glasses which are applied to the movement and generation of photon, laser, optical communication, display, etc.
전선 NUCE731 고급방사성폐기물관리 3-0-3 엄우용
  • Classification : 전선
  • Course No. : NUCE731
  • Credits : 3-0-3
  • Professor : 엄우용
Radioactive waste and management from nuclear power generation and nuclear power accident such as the Fukushima disaster is a major concern. Advanced multidisciplinary understanding of radiochemistry, geochemistry, nuclear engineering, and environmental engineering is required for the graduate students in nuclear engineering and environmental engineering departments to resolve the problems and develop the waste management techniques related with radioactive wastes for remediation, stabilization, regulation, repository, and transport of radionuclides in various environments.
전선 NUCE732 방사화학 3-0-3
  • Classification : 전선
  • Course No. : NUCE732
  • Credits : 3-0-3
  • Professor :
전선 NUCE733 화학적폐기물관리및처분 3-0-3
  • Classification : 전선
  • Course No. : NUCE733
  • Credits : 3-0-3
  • Professor :
연구 NUCE69901-09 석사논문연구 가변학점
  • Classification : 연구
  • Course No. : NUCE69901-09
  • Credits : 가변학점
  • Professor :
Students will conduct Master Thesis Research under the guidance of advisors.
연구 NUCE800 세미나 A 1-0-1
  • Classification : 연구
  • Course No. : NUCE800
  • Credits : 1-0-1
  • Professor :
Weekly seminars are organized throughout a semester. Prominent speakers whose work related with various fields of nuclear engineering and physics are invited for the seminar.
연구 NUCE89901-09 박사논문연구 가변학점
  • Classification : 연구
  • Course No. : NUCE89901-09
  • Credits : 가변학점
  • Professor :
Students will conduct Doctoral Dissertation Research under the guidance of advisors. tudents will conduct Master Thesis Research under the guidance of advisors.
- 2016학년도 까지
DANE 교과과정 소개
Classification Course No. Course Title Credits Professor More
전필 NUCE501 원자력 공학개론 3-0-3
  • Classification : 전필
  • Course No. : NUCE501
  • Credits : 3-0-3
  • Professor :
전필 NUCE601 원자로 물리학 3-0-3 장문희
  • Classification : 전필
  • Course No. : NUCE601
  • Credits : 3-0-3
  • Professor : 장문희
핵분열원자로이론 및 중성자수송이론의 개념소재를 시작으로 하여,수송방정식의 해를 구하기위한 PI근사및확산이론을 학습한다. 뿐만아니라 원자로의 특성해석에 중요한 임계계산, 원자로의동특성, 중성자의 에너지감속이론에대해 학습하며, 실용적계산법을 위한 확산이론의 수치해석방법에 대해 학습한다.
전필 NUCE602 방사성폐기물관리 3-0-3 엄우용
  • Classification : 전필
  • Course No. : NUCE602
  • Credits : 3-0-3
  • Professor : 엄우용
This course is designed for the senior undergraduate and the graduate students of nuclear science, nuclear engineering, environmental science and engineering, biology, geology, and chemistry to provide an overview of fundamentals of radioactive waste management. This course includes nuclear fuel cycle (front ? and back-end), radioactive wastes generation and types, radiation source/measurement/effects/nuclear waste incineration, actinide chemistry, mechanisms of microbiological effects on radionuclide immobilization in the environment, treatment technology of radioactive wastes, waste form development and testing methods, geological storage and disposal of wastes, modeling of radionuclide transport, decontamination/decommissioning methods, and risk assessment/safe analysis of repository. The primary goal of this course is to provide the students for understanding of radioactive wastes, immobilization of different waste forms and its management practices so that student will be able to work effectively with nuclear and environmental engineers in industry or academic institutions.
전선 NUCE511 열전달 물리학 3-0-3 Massoud Kaviany
  • Classification : 전선
  • Course No. : NUCE511
  • Credits : 3-0-3
  • Professor : Massoud Kaviany
Heat Transfer Physics is a graduate course describing atomic-level kinetics (mechanisms and rates) of thermal energy storage, transport (conduction, convection, and radiation), and transformation (various energy conversions) by principal energy carriers. These carriers are: phonon (lattice vibration wave also treated as quasi-particle), electron (as classical or quantum entity), fluid particle (classical particle with quantum features), and photon (classical electromagnetic wave also as quantum-particle).
전선 NUCE512 에너지 변환 및 발전공학 3-0-3 김무환
  • Classification : 전선
  • Course No. : NUCE512
  • Credits : 3-0-3
  • Professor : 김무환
This course aims to understanding advantages and disadvantages of currently usable energy sources. Principles of these developing systems to produce electricity will be discussed as well as the design methods and improvement of capabilities of various electricity-producing machines.
전선 NUCE513 유한요소법개론 3-0-3
  • Classification : 전선
  • Course No. : NUCE513
  • Credits : 3-0-3
  • Professor :
The finite element method plays an important role as a numerical analysis method for solving various engineering problems. This course offers knowledge on the fundamental principles of finite element method, which is to interpret deformation of structures, heat transfer, fluid flow etc. This course also allows students to be familiar with application of the ANSYS and FEM systems.
전선 NUCE514 원자단위 전산모사 3-0-3
  • Classification : 전선
  • Course No. : NUCE514
  • Credits : 3-0-3
  • Professor :
This course aims to nurture students' ability to utilize atomistic simulation (molecular dynamics, Monte Carlo) methods in Material researches. This course also offers students to learn basic theories and techniques of atomistic simulation by using computer software in order to apply them to individual researches.
전선 NUCE515 상변태론 3-0-3
  • Classification : 전선
  • Course No. : NUCE515
  • Credits : 3-0-3
  • Professor :
This course examines the fundamental concepts of thermodynamics for phase transformation, and studies nucleation, growth, coarsening, spinodal decomposition, cellular precipitation, and maraging transformation etc, which are phase transformation phenomena.
전선 NUCE517 통계열역학 3-0-3
  • Classification : 전선
  • Course No. : NUCE517
  • Credits : 3-0-3
  • Professor :
전선 NUCE521 방사선 검출, 측정 및 방호 1 3-0-3 이희석
  • Classification : 전선
  • Course No. : NUCE521
  • Credits : 3-0-3
  • Professor : 이희석
This course will introduce the fundamental physics of radiation detection, measurements and data analysis. The basic principles on radiation protection based on the radiation properties will be also given to the students. The most attention will be paid to the detection of neutrons.
전선 NUCE522 방사선 검출, 측정 및 방호 2 3-0-3 이희석
  • Classification : 전선
  • Course No. : NUCE522
  • Credits : 3-0-3
  • Professor : 이희석
This course will introduce the fundamental physics of radiation detection, measurements and data analysis. The basic principles on radiation protection based on the radiation properties will be also given to the students. The most attention will be paid to the detection of neutrons.
전선 NUCE523 플라즈마 물리 3-0-3 윤건수
  • Classification : 전선
  • Course No. : NUCE523
  • Credits : 3-0-3
  • Professor : 윤건수
This course is intended for the fundamentals for the use of E&M (electricity and magnetism), charged particles or e-beam, and plasmas for biomedicine and some basics of molecular biology and thermodynamics included. The applications of various optical and plasma devices to sterilization, coagulation, interaction with skin, and cancer treatment to be covered.
전선 NUCE541 방사성 환경 오염물질 2-0-2 엄우용
  • Classification : 전선
  • Course No. : NUCE541
  • Credits : 2-0-2
  • Professor : 엄우용
This course provides the graduate students for an overview of fundamental radiochemistry and hydrogeochemistry associated with environmental nuclear wastes on soils and groundwater. Because the environmental concerns of the fate and transport of radioactive contaminants in subsurface environments is significantly increasing and the nuclear waste management is also depending on the interaction of the radioactive contaminants on mineral surfaces in soils and aquifers, an increasing understanding of fundamental radiochemistry and hydrogeochemistry in contaminant transport and remediation processes is strongly needed.
전선 NUCE542 비정질세라믹스 3-0-3
  • Classification : 전선
  • Course No. : NUCE542
  • Credits : 3-0-3
  • Professor :
This course teaches basic theories and the most up-to-date research trend on principles and generation of Photonics glasses which are applied to the movement and generation of photon, laser, optical communication, display, etc.
전선 NUCE546 환경복원공학 3-0-3
  • Classification : 전선
  • Course No. : NUCE546
  • Credits : 3-0-3
  • Professor :
Analyzing the cause and effect of various kinds of environmental pollutions including air and water, this course offers solutions to these problems with theoretical approach. The course will lecture on how to analyze the characteristics of wastes produced in factories, how to collect the sample, as well as its management method.
전선 NUCE551 고등양자화학 3-0-3
  • Classification : 전선
  • Course No. : NUCE551
  • Credits : 3-0-3
  • Professor :
전선 NUCE611 이상유동 3-0-3
  • Classification : 전선
  • Course No. : NUCE611
  • Credits : 3-0-3
  • Professor :
전선 NUCE631 고온 원자로 및 수소시스템 3-0-3
  • Classification : 전선
  • Course No. : NUCE631
  • Credits : 3-0-3
  • Professor :
This graduate level course will focus on the hydrogen generation with nuclear power and associated systems studies. The topics covered include global energy issues, hydrogen as a key energy carrier, key features and design of high temperature reactor (HTR) systems, engineering and physical principles of a HTR including reactor kinetics, thermalhydraulics, materials, fuels and safety, application and methods of generating hydrogen or hydrogen rich gas using HTR heat and/or electricity, coupling of reactor heat transport systems to hydrogen plant, and associated coupled system dynamics, control and safety analysis.
전선 NUCE641 생화학 공학 – 핵 폐기물 관리 3-0-3
  • Classification : 전선
  • Course No. : NUCE641
  • Credits : 3-0-3
  • Professor :
This course aims to cover the recent advances of the interactions of microorganisms with radionuclides relevant to nuclear fuel cycle including those nuclides released from nuclear fuel reprocessing plants; the mechanisms of microbial transformations of actinides, fission and activation products; the implications on disposal of low-level waste in shallow land burial grounds, intermediate-level waste in engineered facilities, and high-level waste in deep geological formations; and the potential application of microbes and plants in the remediation of contaminated sites and long-term management of waste repository sites.
전선 NUCE642 포토닉스 유리 3-0-3
  • Classification : 전선
  • Course No. : NUCE642
  • Credits : 3-0-3
  • Professor :
This course aims to teach students most up-to-date research trend and theories on photon's movement, e.g., laser, optical communication, display etc, principles and manufacture of photonic glasses, and optical characteristics. Based on this, this course will offer fundamental theories on optical character's changes followed by nano-structure of glasses, and the guidance for further development.
전선 NUCE718A ST:Probabilistic Safety(Risk) Assessment 3-0-3
  • Classification : 전선
  • Course No. : NUCE718A
  • Credits : 3-0-3
  • Professor :
전선 NUCE718B ST:Nuclear Energy 3-0-3
  • Classification : 전선
  • Course No. : NUCE718B
  • Credits : 3-0-3
  • Professor :
전선 NUCE718C ST:Fundamentals of Radioactive Waste Mng 3-0-3 엄우용
  • Classification : 전선
  • Course No. : NUCE718C
  • Credits : 3-0-3
  • Professor : 엄우용
전선 NUCE718D ST:Radiation Safety Engineering 2-0-2 이희석
  • Classification : 전선
  • Course No. : NUCE718D
  • Credits : 2-0-2
  • Professor : 이희석
전선 NUCE718E ST:Nuclear Reactor Experiment 1-0-1
  • Classification : 전선
  • Course No. : NUCE718E
  • Credits : 1-0-1
  • Professor :
전선 NUCE718F ST:Fundamentals of Nuclear Safety 3-0-3
  • Classification : 전선
  • Course No. : NUCE718F
  • Credits : 3-0-3
  • Professor :
전선 NUCE718G Advances in Radioactive Waste Management 3-0-3 엄우용
  • Classification : 전선
  • Course No. : NUCE718G
  • Credits : 3-0-3
  • Professor : 엄우용
전선 NUCE718H Intro. to Nuclear Power Engineering 3-0-3
  • Classification : 전선
  • Course No. : NUCE718H
  • Credits : 3-0-3
  • Professor :
전선 NUCE718I 플라즈마 공학을 위한 수치해석 3-0-3 윤건수
  • Classification : 전선
  • Course No. : NUCE718I
  • Credits : 3-0-3
  • Professor : 윤건수
전선 NUCE718J 방사광과학과응용 3-0-3
  • Classification : 전선
  • Course No. : NUCE718J
  • Credits : 3-0-3
  • Professor :
The first applications of synchrotron radiation were in the field of solid-state physics. But, its use now is ubiquitous in all the physical and natural sciences, with also significant medical applications. ‘Samples’ studied at beamlines range from man-made inorganic materials and devices, natural minerals and rocks, environmentally significant specimens, cultural heritage materials, biologically relevant molecules. The class covers the properties of the important beamline experimental techniques and their principles, and also, introduce to free electron lasers and an overview of the most common experimental techniques and applications.
전선 NUCE718K 원자력발전공학기초 3-0-3
  • Classification : 전선
  • Course No. : NUCE718K
  • Credits : 3-0-3
  • Professor :
전선 NUCE718M 가속기의 원리와 기술 3-0-3 박용운
  • Classification : 전선
  • Course No. : NUCE718M
  • Credits : 3-0-3
  • Professor : 박용운
This course covers subjects related with the principles and technology in the Light source accelerators. The key words covered in this course are; Introduction to accelerator physics (Storage ring and XFEL) and technology, Magnet technology, Vacuum system, Diagnostics technology, laser system.
전선 NUCE718N 원자력발전안전기초 1-0-1
  • Classification : 전선
  • Course No. : NUCE718N
  • Credits : 1-0-1
  • Professor :
전선 NUCE718O 플라즈마 응용 3-0-3
  • Classification : 전선
  • Course No. : NUCE718O
  • Credits : 3-0-3
  • Professor :
전선 NUCE718P 방사선방호와 몬테카를로 분석 3-0-3 이희석
  • Classification : 전선
  • Course No. : NUCE718P
  • Credits : 3-0-3
  • Professor : 이희석
전선 NUCE741 방사성 폐기물 3-0-3
  • Classification : 전선
  • Course No. : NUCE741
  • Credits : 3-0-3
  • Professor :
The objective of this course for graduate students is to gain knowledge of key aspects of vitrification of radioactive wastes, including waste glass formulation (based on the processing responses and product quality); glass viscosity and electrical conductivity (as functions of temperature and composition); crystallization and phase separation; chemical durability; property-composition modeling and experimental design; conversion of melter feed to molten glass; corrosion of melter components; foaming; volatilization. The focus will be on both science and technology so the students are prepared for conducting research into vitrification of radioactive wastes with the aim of achieving excellence in science and technology of vitrification.
연구 NUCE800A 세미나 A 1-0-1
  • Classification : 연구
  • Course No. : NUCE800A
  • Credits : 1-0-1
  • Professor :
Weekly seminars are organized throughout a semester. Prominent speakers whose work related with various fields of nuclear engineering and physics are invited for the seminar.
NUCE718U 원전 안전과 규제 김용환
  • Classification :
  • Course No. : NUCE718U
  • Credits :
  • Professor : 김용환
NUCE718T 인공지능-원자력 기초실습
  • Classification :
  • Course No. : NUCE718T
  • Credits :
  • Professor :
NUCE718W 극한환경로봇과 사회문제해결 3-2-4 유선철
  • Classification :
  • Course No. : NUCE718W
  • Credits : 3-2-4
  • Professor : 유선철
공학전공(극한환경로봇) 유선철 교수와 인문학 전공(철학/매체미학) 김진택 교수가 협업하여 대학원생들과 함께 하는 수업입니다. 사람에게 위험한 환경, 사람들이 기피하는 힘든 환경에서도 사회에 꼭 필요한 작업들이 있습니다. 이런 작업들은 인명피해나 작업기피등의 심각한 사회문제를 가지고 있는 경우가 많습니다. 가령 원자력 방폐장의 폐기작업이나 화재진압, 도시 보건 위생 작업, 생활 방범 취약 지역, 의료 폐기물 처리 작업 등과 같은 일들입니다. 이런 사회문제들을 학생들이 찾아내고, 극한 환경로봇기술을 활용하여 해결책을 제시합니다. 또한 해결을 위한 로봇 시스템을 직접 제작하여 시험해 보는 수업입니다.
NUCE718T 인공지능-원자력 기초실습 1-2-3
  • Classification :
  • Course No. : NUCE718T
  • Credits : 1-2-3
  • Professor :
원자력분야에서 딥러닝 기술을 활용하기 위한 프로그래밍 및 관련 지식을 습득하고 실습은 수행한다. 주요 강의 내용으로는 파이썬 프로그래밍, Tensorflow 기초, Regression, Classification, Deep Neural Network, CNN 등이 있으며, 개별 내용에 대한 실습을 포함한다. 교육 후에는 원자력분야에 딥러닝 기술을 활용한 텀프로젝트를 수행하며, 이를 통하여 기초 프로그래밍, 실무능력 및 응용능력을 향상한다.
NUCE718X 원자력안전-인공지능 융합 심화 1-2-3
  • Classification :
  • Course No. : NUCE718X
  • Credits : 1-2-3
  • Professor :
본 과목에서는 인공지능 및 제어 실습을 수행하고 원자력분야에 적용함으로써 인공지능 기술을 원자력 분야에 접목하기 위한 심화 이론을 배운다. 주요 강의 내용으로는 인공지능 기술의 원자력분야 활용 현황, 객체인식, 강화학습, 인공지능 기반 시스템제어로 이루어지며, 특히 원자력분야에서 즉시 활용 가능한 수준의 주요 딥러닝 이론 및 실무능력을 배양하는 것을 주 목적으로 한다.