Division of Mechanical Engineering Department of Industrial Engineering
Department of Nuclear Engineering
College Of Engineering Department Of Nuclear Engineering
| Dept. location | |||
|---|---|---|---|
| Phone | 02-2220-3117 | ||
| Fax | 02-2220-3119 | ||
| / aquajh@hanyang.ac.kr | |||
| Homepage | * Visit the website for more detail. | ||
| SNS | |||
Introduction
Nuclear engineering is literally a study that uses power of atoms. Atoms emit energy through nuclear reactions (fission, fusion). When the nuclear reacts, it releases heat energy that is equal to the amount of the decreased mass. After the reaction, the nuclear emits radiation energy as it converts from an unstable to a stable state. In order to enrich our lives through utilizing both energies, learning related theories, developing technologies, and researching and exploring new fields are the goals and aims of the Nuclear Engineering Department. In other words, nuclear power engineering is divided into nuclear power generation and radiation.The field of power generation covers a series of processes that convert the energy generated after the aforementioned nuclear reaction into the energy from necessary for our daily lives. The best example is a reactor power plant. Aside from that, nuclear power is used as a power source for large ships, seawater desalination, as a heat source for spacecraft as hydrogen is produced, and as a electric power source for submarines. On the other hand, fields that utilize radiation energy in various areas are non-power generation fields (fields of radiation usage) which are widely used in IT, NT, BT, food, space, and chemical industries. Recently, its usage and importance has increased in relation to medical care.
Highlights
Shortage of nuclear power experts and national supportBy 2020, 18,000 nuclear-related personnel will be needed. The government is working hard to establish KINGS (KEPCO International Nuclear Graduate School) and provide nuclear power education in order to cultivate talent. Although the number of universities with nuclear engineering departments has increased dramatically over the past few years, the manpower shortage is getting aggravated due to the expanding industry size and lack of export manpower. This department is conducting programs for nuclear/radiology students in the Korea Research Foundation in order to cultivate skilled manpower with about 10 students studying nuclear engineering at Hanyang University receiving research grants (research equipments, scholarships, etc.) each year.
Traditions and internal support
This department has the longest history as the first nuclear engineering department in Korea. It has turned out the largest number of graduates leading to many opportunities for students as former graduates play a leading role throughout the nuclear industry. Students willing to participate went to United Arab Emirates as an intern for two months in 2015. During their senior year, students conducted experiment classes at Korea Atomic Energy Research Institute in Daejoen. In addition, nuclear energy colloquium is held to introduce research in various fields of nuclear energy once a week during a semester.
Outlook
| Business Field | Equipment manufacturing, construction, domestic small-medium sized plant design companies, foreign companies, etc. |
|---|---|
| Technical Field | Safety management technician, nuclear mechanical engineering technician, power plant design engineer, non-destructive inspection inspector, industrial safety and risk management officer, etc. |
| Research Center |
|
| Government and Public Institute | Council for Nuclear Safety, Korea Electric Power Corporation, Korea Hydro and Nuclear Power Corporation, Korea Power Engineering Company, Korea Nuclear Fuel Company, Korea Radioactive Waste Agency, etc. |
| Medical Center | Korea Institute of Radiological and Medical Sciences, Dongnam Institute of Radiological and Medical Sciences, Department of Radiology and Medical Imaging in major hospitals, etc. |
 Kim, Yongsoo / Professor |  Jae, Moosung / Professor |
 Kim, Chan Hyeong / Professor |  Kim, Yong Kyun / Professor |
 HONG, SER GI / Professor |  Kim, Sung Joong / Associate Professor |
 Yoonsun Chung / Associate Professor |  jungpyo Lee / Assistant Professor |
 Sangtae Kim / Assistant Professor |  kim seong hoon / Adjunct Professor |
 Jongwon CHOI / Adjunct Professor |  KIM, KILYOO / Adjunct Professor |
 kiin Han / Visiting Scholar Professor |  Yeon Soo Yeom / Research Assistant Professor |
 육종철 / Emeritus Professor |  Lee, Byung-Hun / Emeritus Professor |
 Jaiki LEE / Emeritus Professor |  Kim, Jong Kyung / Emeritus Professor |
 Gyoodong Jeun / Emeritus Professor |  손홍현 / Post-Doc. |
 박준식 / Post-Doc. |  손재범 / Post-Doc. |
 Schaarschmidt Thomas / Post-Doc. |  Youngho Jin / Collaboration Professor |
 Dong Ha Kim / Collaboration Professor |  Chungwon CHO / Adjunct Professor |
 김경민 / IAB자문교수 |  유춘성 / IAB자문교수 |
 Byung ok Joe / IAB자문교수 |  Chung-Goo Lee / IAB자문교수 |
 Soon Young KIM / IAB자문교수 |
| Year | Term | No. | Curriculum | Course | Credits-lecture-experiential learning | |
|---|---|---|---|---|---|---|
| 1 | 1 | GEN0003 | Korean | Compulsory General Studies | 3-3-0 | |
| 1 | 1 | GEN0010 | Physical Education 1 | Elective General Studies | 1-0-2 | |
| 1 | 1 | GEN0021 | English 1 | Compulsory General Studies | 3-2-3 | |
| 1 | 1 | GEN0061 | Mathematics 1 | Compulsory General Studies | 3-3-0 | |
| 1 | 1 | GEN0063 | General Physics 1 | Compulsory General Studies | 3-3-0 | |
| 1 | 1 | GEN0066 | General Physics Lab. 1 | Compulsory General Studies | 1-0-2 | |
| 1 | 1 | GEN0068 | General Chemistry 1 | Compulsory General Studies | 3-3-0 | |
| 1 | 1 | GEN0070 | General Chemistry Lab. 1 | Compulsory General Studies | 1-0-2 | |
| 1 | 1 | GEN0078 | Computer Language 1 | Compulsory General Studies | 1-0-2 | |
| 1 | 1 | GEN0063 | General Physics 1 | Compulsory General Studies | 3-3-0 | |
| This course is for the undergraduate students majoring in science- and engineering-fields. This course helps students to understand the basic concepts on mechanics, gravitation, periodic motion and waves, fluid mechanics, thermodynamics and statistical mechanics. It also makes them adept in solving the relevant problems. In each week the course is composed of 3-hour theory lecture and 2-hour lab experiments. Throughout the theory lectures, the students will learn how to understand various phenomena concerning forces and motions based on some fundamental principles and physical laws. The students can broaden their understanding of basic physical concepts by solving homework problems. In the lab experiments, the students get familiar with the scientific analysis methodology by performing the experiments that verify the proposed principles. | ||||||
| 1 | 1 | GEN0066 | General Physics Lab. 1 | Compulsory General Studies | 1-0-2 | |
| GEN066 General Physics Lab.1 This course covers the basic principles in mechanics and electromagnetism. Topics include the force and motion of objects, momentum and energy, charge and electric fields, current and magneic fields, and electromagnetic waves. | ||||||
| 1 | 1 | GEN0068 | General Chemistry 1 | Compulsory General Studies | 3-3-0 | |
| This course aims to understand the chemical structures and the properties of matters in micro- and macroscopic view. And this course provides introduction of stoichiometry and the mole concept, the behavior of gases, liquids and solids, thermo-chemistry, electronic structure of atoms and chemical bonding, descriptive chemistry of selected elements and compounds, chemical equilibrium. | ||||||
| 1 | 1 | GEN0070 | General Chemistry Lab. 1 | Compulsory General Studies | 1-0-2 | |
| Introduction to chemistry, aim to understand the structures and the properties of matters in micro and macroscopic view. Introduction, stoichiometry and the mole concept, the behavior of gases, liquids and solids, thermchemistry, electronic structure of atoms and chemical bonding, descriptive chemistry of selected elements and compounds, chemical equilibrium. | ||||||
| 1 | 1 | GEN1025 | English | Compulsory General Studies | 3-3-1 | |
| A freshmen English course, designer to provide the student with intensive training in reading and analyzing a selection of modern English writings as well as with drill of basic and colloquial uses of spoken English through aural/oral work in laboratory and with a native speaker. | ||||||
| 1 | 1 | GEN1030 | Introduction to Computer Systems | Compulsory General Studies | 2-2-0 | |
| This course introduces the basic concepts of computer hardwares and softwares. Students will also learn the applications of computers to various services by carrying out experiments. Topics to be covered include CPU(Central Processing Unit), Input/Output devices, storage devices, multimedia, internet, programming languages, operating systems, system analysis and design, management information system, word processing and desktop publishing, spread sheet and graphics, and database management systems. | ||||||
| 1 | 1 | GEN1093 | Practical English Conversation 1 | Compulsory General Studies | 3-4-0 | |
| 1 | 1 | GEN2052 | Calculus 1 | Compulsory General Studies | 3-3-0 | |
| 1 | 1 | CHM1005 | General Chemistry & Experiment 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-2 | |
| CHM105 General Chemistry and Lab 1 Aim to understand the structures and the properties of matters in micro- and macroscopic view. Introduction, stoichiometry and the mole concept, the behavior of gases, liquids and solids, thermochemistry, electronic structure of atoms and chemical bonding, descriptive chemistry of selected elements and compounds, chemical equilibrium. Lecture, lab, and discussion | ||||||
| 1 | 1 | COE1031 | INTRODUCTION TO ENGINEERING DESIGN 1 | Core Major | 2-2-0 | |
| To provide students with the use of problem-solving skills for solving realistic engineering problems using problem-based learning techniques, including definition of problem, creative problem solving, design of experiments, and optimization. To familiarize students with experience working as a member of an engineering work team, with experience using several modern tools and techniques to solve engineering problems. This course will help you develop the skills necessary to solve the real engineering problems facing engineers today. You will learn underlying principles and master techniques to solve engineering problems. | ||||||
| 1 | 1 | CUL0005 | Korean Speaking and Writing | (Compulsory) Requirement in Fundamental Studies | 3-4-0 | |
| This class is opened in intention to express creative imagination though speech and writing. This class is divided by 2 parts explaining writing and thoughts, speech and culture. Writing and thoughts contains association training, structures of writing, description, compare and contrast and writing logical sentences. Speech and culture criticizes culture and literature. Both parts contains many programs that enables students to participate. That should make the class interesting and also valuable. | ||||||
| 1 | 1 | CUL3011 | General Physics & Experiment 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-2 | |
| CUL311 General Physics and Experiment 1 This course is for the undergraduate students majoring in science- and engineering-fields. This course helps students to understand the basic concepts on mechanics, gravitation, periodic motion and waves, fluid mechanics, thermodynamics and statistical mechanics. It also makes them adept in solving the relevant problems. In each week the course is composed of 3-hour theory lecture and 2-hour lab experiments. Throughout the theory lectures, the students will learn how to understand various phenomena concerning forces and motions based on some fundamental principles and physical laws. The students can broaden their understanding of basic physical concepts by solving homework problems. In the lab experiments, the students get familiar with the scientific analysis methodology by performing the experiments that verify the proposed principles. | ||||||
| 1 | 1 | GEN1031 | Computer Programming | (Compulsory) Requirement in Fundamental Studies | 2-2-2 | |
| In this class, students will learn how to solve real-world problems using computers. To do that, students will learn a high-level programming language and will do programming exercises from the basic level to the medium level. The class will cover topics, such as data types, strings, operators, expressions, statements, functions, arrays, pointers, and so on. | ||||||
| 1 | 1 | GEN2052 | Calculus 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
| Calculus is an essential knowledge for natural sciences and engineering. This course present the part of calculus which include taking limits, differentiating and integrating functions including a few transcendental ones and also deals with polar coordinate system, sequences and series. The aim of the course is to teach the students the basic concepts of mathematics and to train them so that they may be able to apply these basic concepts to various situations and may get used to scientific thinking. | ||||||
| 1 | 1 | GEN5029 | Career Development Ⅰ | (Compulsory) Requirement in Fundamental Studies | 1-1-0 | |
| SEMINARFORFRESHMAN Theseminarforfreshmanstudentsaimstocoverthefollowingaspects:etiquettesoftheuniversitylife;howtousetheuniversityfacilities;howtoimproveoneselfandprovisionofidealwaystoutilizethestudentperiod.Itaimstobroadenthe1styearstudentspointofviewtotheirmajorsaswellastheuniversitylifeingeneral. Thelecturewilldiscussstudyingskillincludingtakingnotes,takingexams,timemanagementandsubjectenrollmentinordertoguidestudentstoachieveanidealstudyingpatternandfurthertosetupacareerpath.Itwillalsodealwithbasicinformationaboutdiversestudyareas,domesticandinternationalsocialissuesandcareerdevelopment. | ||||||
| 1 | 1 | SYH0001 | HUMAN LEADERSHIP | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |
| Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The first step of this program, Value Leadership(HELP1) is the core course for freshmen. This course is composed of 3 parts, "pride in Hanyang", "core values in global society" and "life planning." In "pride in Hanyang", students will review the history, values and vision of Hanyang University. In "core values in global society", students will study 6 core values and cases on the core values of global companies. In "life planning", students will reflect on their past and present and develop their vision and mission statement. | ||||||
| 1 | 1 | CHM1005 | General Chemistry & Experiment 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-2 | |
| CHM105 General Chemistry and Lab 1 Aim to understand the structures and the properties of matters in micro- and macroscopic view. Introduction, stoichiometry and the mole concept, the behavior of gases, liquids and solids, thermochemistry, electronic structure of atoms and chemical bonding, descriptive chemistry of selected elements and compounds, chemical equilibrium. Lecture, lab, and discussion. Open to Freshmen. | ||||||
| 1 | 1 | CUL0005 | Korean Speaking and Writing | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
| This course is to understand about the culture of the moderns, can be represented in the speaking and writing skills and a free imagination, and creative and critical reason for celebration. In addition, students can participate in lectures and presentations, a discussion of the end of class for free and a variety of writing and the correct writing of the progress and lessons will be conducted. Subjective reason ability and come in a variety of situations, each student through this class so that you can be a true and accurate communication, speaking and writing skills will be able to exert. | ||||||
| 1 | 1 | CUL3011 | General Physics & Experiment 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-2 | |
| This course is for the undergraduate students majoring in science- and engineering-fields. This course helps students to understand the basic concepts on mechanics, gravitation, periodic motion and waves, fluid mechanics, thermodynamics and statistical mechanics. It also makes them adept in solving the relevant problems. In each week the course is composed of 3-hour theory lecture and 2-hour lab experiments. Throughout the theory lectures, the students will learn how to understand various phenomena concerning forces and motions based on some fundamental principles and physical laws. The students can broaden their understanding of basic physical concepts by solving homework problems. In the lab experiments, the students get familiar with the scientific analysis methodology by performing the experiments that verify the proposed principles. | ||||||
| 1 | 1 | GEN1031 | Computer Programming | (Compulsory) Requirement in Fundamental Studies | 2-2-2 | |
| In this class, students will learn how to solve real-world problems using computers. To do that, students will learn a high-level programming language and will do programming exercises from the basic level to the medium level. The class will cover topics, such as data types, strings, operators, expressions, statements, functions, arrays, pointers, and so on. | ||||||
| 1 | 1 | GEN2052 | Calculus 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
| Calculus is an essential knowledge for natural sciences and engineering. This course present the part of calculus which include taking limits, differentiating and integrating functions including a few transcendental ones and also deals with polar coordinate system, sequences and series. The aim of the course is to teach the students the basic concepts of mathematics and to train them so that they may be able to apply these basic concepts to various situations and may get used to scientific thinking. | ||||||
| 1 | 1 | GEN5029 | Career Development Ⅰ | (Compulsory) Requirement in Fundamental Studies | 1-1-0 | |
| The ‘seminar for freshman students’ aims to cover the following aspects: etiquettes of the university life; how to use the university facilities; how to improve oneself and provision of ideal ways to utilize the student period. It aims to broaden the 1st year students’ point of view to their majors as well as the university life in general. The lecture will discuss studying skill including taking notes, taking exams, time management and subject enrollment in order to guide students to achieve an ideal studying pattern and further to set up a career path. It will also deal with basic information about diverse study areas, domestic and international social issues and career development. | ||||||
| 1 | 1 | SYH0001 | HUMAN LEADERSHIP | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |
| Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The first step of this program, Human Leadership(HELP1) is a course offered to freshmen students. It is focused on helping them establish characters and values. By enhancing their humanistic sensitivities and knowledge they learn core values and leadership. Students discover themselves through HELP1 and are able to decide what kind of person they want to be. HELP1 helps students establish their values and prepare them to be balanced leaders who can adjust to new environments. | ||||||
| 1 | 1 | CHM1005 | General Chemistry & Experiment 1 | Basic Major | 3-2-2 | |
| Aim to understand the structures and the properties of matters in micro- and macroscopic view. Introduction, stoichiometry and the mole concept, the behavior of gases, liquids and solids, thermochemistry, electronic structure of atoms and chemical bonding, descriptive chemistry of selected elements and compounds, chemical equilibrium. Lecture, lab, and discussion. Open to Freshmen. | ||||||
| 1 | 1 | CUL0005 | Korean Speaking and Writing | Compulsory General Studies | 3-3-0 | |
| Through kiscussion this course ask the following questions: (1) What is free associaton?; (2) How do you compose and make a text? How do you talk about a certain issue?; (3) What is rational and logical thought?; (4) How do you enhance originality and rationlity? The course help students acquire an understanding of text and composition. | ||||||
| 1 | 1 | CUL3011 | General Physics & Experiment 1 | Basic Major | 3-2-2 | |
| This course is for the undergraduate students majoring in science- and engineering-fields. This course helps students to understand the basic concepts on mechanics, gravitation, periodic motion and waves, fluid mechanics, thermodynamics and statistical mechanics. It also makes them adept in solving the relevant problems. In each week the course is composed of 3-hour theory lecture and 2-hour lab experiments. Throughout the theory lectures, the students will learn how to understand various phenomena concerning forces and motions based on some fundamental principles and physical laws. The students can broaden their understanding of basic physical concepts by solving homework problems. In the lab experiments, the students get familiar with the scientific analysis methodology by performing the experiments that verify the proposed principles. | ||||||
| 1 | 1 | GEN1031 | Creative Computing for Engineers | Compulsory General Studies | 3-2-2 | |
| In this class, students will learn how to solve real-world problems using computers. To do that, students will learn a high-level programming language and will do programming exercises from the basic level to the medium level. The class will cover topics, such as data types, strings, operators, expressions, statements, functions, arrays, pointers, and so on. | ||||||
| 1 | 1 | GEN2052 | Calculus 1 | Basic Major | 3-3-0 | |
| Calculus is an essential knowledge for natural sciences and engineering. This course present the part of calculus which include taking limits, differentiating and integrating functions including a few transcendental ones and also deals with polar coordinate system, sequences and series. The aim of the course is to teach the students the basic concepts of mathematics and to train them so that they may be able to apply these basic concepts to various situations and may get used to scientific thinking. | ||||||
| 1 | 1 | GEN5029 | Career Development : Roadmap for Job Searching and Startups | Compulsory General Studies | 1-1-0 | |
| The ‘seminar for freshman students’ aims to cover the following aspects: etiquettes of the university life; how to use the university facilities; how to improve oneself and provision of ideal ways to utilize the student period. It aims to broaden the 1st year students’ point of view to their majors as well as the university life in general. The lecture will discuss studying skill including taking notes, taking exams, time management and subject enrollment in order to guide students to achieve an ideal studying pattern and further to set up a career path. It will also deal with basic information about diverse study areas, domestic and international social issues and career development. | ||||||
| 1 | 1 | SYH0001 | Love in deed and truth1(Hanyang Nanum) | Compulsory General Studies | 2-2-0 | |
| Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The first step of this program, Hanyang Leadership(HELP1) is the core course for freshmen. This course is composed of 3 parts, "pride in Hanyang", "core values in global society" and "life planning". In "pride in Hanyang" students will review the history, values and vision of Hanyang University. In "core values in global society" students will study 6 core values and case study on the core values of global companys. In "life planning" students will reflect on their history and present and develop the vision and mission statement. | ||||||
| 1 | 1 | CHM1005 | General Chemistry & Experiment 1 | Basic Major | 3-2-2 | |
| Aim to understand the structures and the properties of matters in micro- and macroscopic view. Introduction, stoichiometry and the mole concept, the behavior of gases, liquids and solids, thermochemistry, electronic structure of atoms and chemical bonding, descriptive chemistry of selected elements and compounds, chemical equilibrium. Lecture, lab, and discussion. Open to Freshmen. | ||||||
| 1 | 1 | CUL0005 | Korean Speaking and Writing | Compulsory General Studies | 3-3-0 | |
| Through kiscussion this course ask the following questions: (1) What is free associaton?; (2) How do you compose and make a text? How do you talk about a certain issue?; (3) What is rational and logical thought?; (4) How do you enhance originality and rationlity? The course help students acquire an understanding of text and composition. | ||||||
| 1 | 1 | CUL3011 | General Physics & Experiment 1 | Basic Major | 3-2-2 | |
| This course is for the undergraduate students majoring in science- and engineering-fields. This course helps students to understand the basic concepts on mechanics, gravitation, periodic motion and waves, fluid mechanics, thermodynamics and statistical mechanics. It also makes them adept in solving the relevant problems. In each week the course is composed of 3-hour theory lecture and 2-hour lab experiments. Throughout the theory lectures, the students will learn how to understand various phenomena concerning forces and motions based on some fundamental principles and physical laws. The students can broaden their understanding of basic physical concepts by solving homework problems. In the lab experiments, the students get familiar with the scientific analysis methodology by performing the experiments that verify the proposed principles. | ||||||
| 1 | 1 | GEN1031 | Creative Computing for Engineers | Compulsory General Studies | 3-2-2 | |
| In this class, students will learn how to solve real-world problems using computers. To do that, students will learn a high-level programming language and will do programming exercises from the basic level to the medium level. The class will cover topics, such as data types, strings, operators, expressions, statements, functions, arrays, pointers, and so on. | ||||||
| 1 | 1 | GEN2052 | Calculus 1 | Basic Major | 3-3-0 | |
| Calculus is an essential knowledge for natural sciences and engineering. This course present the part of calculus which include taking limits, differentiating and integrating functions including a few transcendental ones and also deals with polar coordinate system, sequences and series. The aim of the course is to teach the students the basic concepts of mathematics and to train them so that they may be able to apply these basic concepts to various situations and may get used to scientific thinking. | ||||||
| 1 | 1 | GEN5029 | Career Development : Roadmap for Job Searching and Startups | Compulsory General Studies | 1-1-0 | |
| The ‘seminar for freshman students’ aims to cover the following aspects: etiquettes of the university life; how to use the university facilities; how to improve oneself and provision of ideal ways to utilize the student period. It aims to broaden the 1st year students’ point of view to their majors as well as the university life in general. The lecture will discuss studying skill including taking notes, taking exams, time management and subject enrollment in order to guide students to achieve an ideal studying pattern and further to set up a career path. It will also deal with basic information about diverse study areas, domestic and international social issues and career development. | ||||||
| 1 | 1 | SYH0001 | Love in deed and truth1(Hanyang Nanum) | Compulsory General Studies | 2-2-0 | |
| Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The first step of this program, Hanyang Leadership(HELP1) is the core course for freshmen. This course is composed of 3 parts, "pride in Hanyang", "core values in global society" and "life planning". In "pride in Hanyang" students will review the history, values and vision of Hanyang University. In "core values in global society" students will study 6 core values and case study on the core values of global companys. In "life planning" students will reflect on their history and present and develop the vision and mission statement. | ||||||
| 1 | 2 | GEN0011 | Physical Education 2 | Elective General Studies | 1-0-2 | |
| 1 | 2 | GEN0022 | English 2 | Compulsory General Studies | 3-2-3 | |
| 1 | 2 | GEN0062 | Mathematics 2 | Compulsory General Studies | 3-3-0 | |
| 1 | 2 | GEN0064 | General Physics 2 | Compulsory General Studies | 3-3-0 | |
| 1 | 2 | GEN0067 | General Physics Lab. 2 | Compulsory General Studies | 1-0-2 | |
| 1 | 2 | GEN0069 | General Chemistry 2 | Compulsory General Studies | 3-3-0 | |
| 1 | 2 | GEN0071 | General Chemistry Lab. 2 | Compulsory General Studies | 1-0-2 | |
| 1 | 2 | GEN0079 | Computer Language 2 | Compulsory General Studies | 1-0-2 | |
| 1 | 2 | NUE1001 | Introduction to Nuclear Technology | Compulsory Major | 2-2-0 | |
| 1 | 2 | COE1008 | Introduction to Energy Engineering | Elective Major | 3-3-0 | |
| 1 | 2 | GEN0064 | General Physics 2 | Compulsory General Studies | 3-3-0 | |
| The course helps students to understand the basic concepts concerning the electricity and the magnetism and provides them the opportunity of verifying those concepts by experiments. Students are to enhance their understanding by solving at least 6 problems of exercise in each chapter. | ||||||
| 1 | 2 | GEN0067 | General Physics Lab. 2 | Compulsory General Studies | 1-0-2 | |
| In the lab experiments, the students get familiar with the scientific analysis and methodology by performing the experiments that verify the proposed principles. They can understand several physics laws concerning electromagnetism and waves, and have the basics to study their majors. | ||||||
| 1 | 2 | GEN0069 | General Chemistry 2 | Compulsory General Studies | 3-3-0 | |
| This course is a continuation of GENERAL CHEMISTRY 1 and aims to understand the structures of the molecules and their interaction in various states. It covers principles and application of chemical equilibrium, coordination chemistry, oxidation-reduction and electrochemistry, kinetics, nuclear chemistry and introduction of organic chemistry. | ||||||
| 1 | 2 | GEN0071 | General Chemistry Lab. 2 | Compulsory General Studies | 1-0-2 | |
| Introduction to chemistry, aim to understand the structures of the molecules and their interaction in various states. Principles and application of chemical equilibrium, coordination chemistry, oxidation reduction and electrochemistry, kinetics, nuclear chemistry, introduction to organic chemistry. | ||||||
| 1 | 2 | GEN1024 | Korean and Writing | Compulsory General Studies | 3-3-0 | |
| Writing requires systematic thinking. This lecture purpose to extend the writing skills and expressions through various examples. Avoid the cramming education and concentrate on raising abilities of creative thinking , reasonable criticism. Develop the program of reading poetry and prose etc for student to train the writing skills with creative and logical thinking. | ||||||
| 1 | 2 | GEN1031 | Computer Programming | Compulsory General Studies | 2-2-1 | |
| GEN131 Principles of Computer Programming This class teaches the basic principles and techniques for solving real word problems using computers. Students can develop the ability to design efficient programs by learning the syntax of high level languages, the concepts of and elementary methodology for program design, and implementation techniques. Topics to be covered include the concepts of computer programming, basic programming methodology, data types, operators, expressions, control flow, functions, program structure, pointers and arrays. | ||||||
| 1 | 2 | GEN2053 | Calculus 2 | Compulsory General Studies | 3-3-0 | |
| 1 | 2 | CHM1002 | General Chemistry & Experiment 2 | (Compulsory) Requirement in Fundamental Studies | 3-3-2 | |
| CHM102 General Chemistry and Lab 2 Aim to understand the structures of the molecules and their interaction in various state. Principles and application of chemical equilibrium, coordination chemistry, oxidation-reduction and electrochemistry, kinetics, nuclear chemistry, introduction to organic chemistry. Lecture, lab, and discussion. Open to Freshmen. | ||||||
| 1 | 2 | COE1032 | INTRODUCTION TO ENGINEERING DESIGN 2 | Core Major | 2-2-0 | |
| To provide students with the use of problem-solving skills for solving realistic engineering problems using problem-based learning techniques, including definition of problem, creative problem solving, design of experiments, and optimization. To familiarize students with experience working as a member of an engineering work team, with experience using several modern tools and techniques to solve engineering problems. This course will help you develop the skills necessary to solve the real engineering problems facing engineers today. You will learn underlying principles and master techniques to solve engineering problems. | ||||||
| 1 | 2 | COE2022 | Introduction to Engineering Design | Core Major | 3-3-0 | |
| To provide students with the use of problem-solving skills for solving realistic engineering problems using problem-based learning techniques, including definition of problem, creative problem solving, design of experiments, and optimization. To familiarize students with experience working as a member of an engineering work team, with experience using several modern tools and techniques to solve engineering problems. This course will help you develop the skills necessary to solve the real engineering problems facing engineers today. You will learn underlying principles an master techniques to solve engineering problems. | ||||||
| 1 | 2 | CUL3012 | General Physics & Experiment 2 | (Compulsory) Requirement in Fundamental Studies | 3-3-2 | |
| CUL312 General Physics and Experiment 2 The goal of this course is to make you familiar, at the conceptual and basic problem-solving level, with the physics of mechanics, electricity, magnetism, heat, and waves, optics and modern physics. The basic philosophy of CUL312 can be summarized as follows: The approaches used to achieve these goals involve 1) lectures to interactively discuss and demonstrate the principles, 2) laboratory experiments allowing you to actively explore these principles, and 3) interaction with instructors in discussion sections to provide one-on-one help with concepts and problem solving. | ||||||
| 1 | 2 | GEN2053 | Calculus 2 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
| This course is a continuation of CALCULUS1, which aims at preparing the students for their study in their respective major subjects in natural sciences or engineering by equipping them with the knowledge of calculus and some basics of analytic geometry so that they may have the necessary mathematical background and the ability to take logical approaches when they confront the various problems in their study. The course presents the part of calculus and analytic geometry which include linear algebra, matrices and systems of linear equations, functions of several variables, partial differentiation, double integration and vector calculus, which are more advanced subjects then those of CALCULUS1. | ||||||
| 1 | 2 | GEN4065 | Nuclear Energy and Environment | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
| Lecture and discussions on environmental issues, their status, causes and consequences,energy and life, energy resources, fundamentals of nuclear energy, health effects of radiation and associate risk, nuclear weapons, and social implications of nuclear energy. | ||||||
| 1 | 2 | GEN4091 | Philosophical Understanding of Science and Technology | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |
| His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan. | ||||||
| 1 | 2 | GEN6044 | Hanyang Community Service | (Compulsory) Requirement in Fundamental Studies | 1-0-2 | |
| His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan. | ||||||
| 1 | 2 | CHM1002 | General Chemistry & Experiment 2 | (Compulsory) Requirement in Fundamental Studies | 3-3-2 | |
| CHM102 General Chemistry and Lab 2 Aim to understand the structures of the molecules and their interaction in various state. Principles and application of chemical equilibrium, coordination chemistry, oxidation-reduction and electrochemistry, kinetics, nuclear chemistry, introduction to organic chemistry. Lecture, lab, and discussion. Open to Freshmen. | ||||||
| 1 | 2 | CUL3012 | General Physics & Experiment 2 | (Compulsory) Requirement in Fundamental Studies | 3-3-2 | |
| The goal of this course is to make you familiar, at the conceptual and basic problem-solving level, with the physics of electricity, magnetism, heat, and waves, optics and modern physics. The basic philosophy of CUL3012 can be summarized as follows: The approaches used to achieve these goals involve 1) lectures to interactively discuss and demonstrate the principles, 2) laboratory experiments allowing you to actively explore these principles, and 3) interaction with instructors in discussion sections to provide one-on-one help with concepts and problem solving. | ||||||
| 1 | 2 | GEN2053 | Calculus 2 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
| This course is a continuation of CALCULUS1, which aims at preparing the students for their study in their respective major subjects in natural sciences or engineering by equipping them with the knowledge of calculus and some basics of analytic geometry so that they may have the necessary mathematical background and the ability to take logical approaches when they confront the various problems in their study. The course presents the part of calculus and analytic geometry which include linear algebra, matrices and systems of linear equations, functions of several variables, partial differentiation, double integration and vector calculus, which are more advanced subjects then those of CALCULUS1. | ||||||
| 1 | 2 | GEN4065 | Nuclear Energy and Environment | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
| Lecture and discussions on environmental issues, their status, causes and consequences,energy and life, energy resources, fundamentals of nuclear energy, health effects of radiation and associate risk, nuclear weapons, and social implications of nuclear energy. | ||||||
| 1 | 2 | GEN4091 | Philosophical Understanding of Science and Technology | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
| This course aims to survey some important theoretical results recently obtained in science and technology studies. We will carefully examine a number of concrete case studies studied by scholars from philosophy of science and technology, sociology of science and technology, and history of science and technology. The students taking the course shall learn various aspects of modern science and technology in the context of modern society. They shall appreciate how modern science and technology from the nineteenth century has come to manifest a number of its unique features, which can be clearly distinguished from the science and technology of even, the eighteenth century. We will discuss in the class the significance of differences for proper understanding of science and technology of our time. The course will also encourage more interactions between humanities and natural sciences so that we can make well-informed and reasonable decisions concerning complicated issues which are so common in our multi-layered society. The target audience of the course is students studying natural sciences and/or engineering. The contents of the course will be stylized each term, considering the student';s needs and backgrounds. | ||||||
| 1 | 2 | GEN6044 | Hanyang Community Service | (Compulsory) Requirement in Fundamental Studies | 1-0-2 | |
| His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan. | ||||||
| 1 | 2 | CHM1002 | General Chemistry & Experiment 2 | Basic Major | 3-2-2 | |
| Aim to understand the structures of the molecules and their interaction in various state. Principles and application of chemical equilibrium, coordination chemistry, oxidation-reduction and electrochemistry, kinetics, nuclear chemistry, introduction to organic chemistry. Lecture, lab, and discussion. Open to Freshmen. | ||||||
| 1 | 2 | COE2022 | Introduction to Engineering Design | Core Major | 3-2-2 | |
| To provide students with the use of problem-solving skills for solving realistic engineering problems using problem-based learning techniques, including definition of problem, creative problem solving, design of experiments, and optimization. To familiarize students with experience working as a member of an engineering work team, with experience using several modern tools and techniques to solve engineering problems. This course will help you develop the skills necessary to solve the real engineering problems facing engineers today. You will learn underlying principles an master techniques to solve engineering problems. | ||||||
| 1 | 2 | CUL3012 | General Physics & Experiment 2 | Basic Major | 3-2-2 | |
| The goal of this course is to make you familiar, at the conceptual and basic problem-solving level, with the physics of electricity, magnetism, heat, and waves, optics and modern physics. The basic philosophy of CUL312 can be summarized as follows: The approaches used to achieve these goals involve 1) lectures to interactively discuss and demonstrate the principles, 2) laboratory experiments allowing you to actively explore these principles, and 3) interaction with instructors in discussion sections to provide one-on-one help with concepts and problem solving. | ||||||
| 1 | 2 | GEN2053 | Calculus 2 | Basic Major | 3-3-0 | |
| This course is a continuation of CALCULUS1, which aims at preparing the students for their study in their respective major subjects in natural sciences or engineering by equipping them with the knowledge of calculus and some basics of analytic geometry so that they may have the necessary mathematical background and the ability to take logical approaches when they confront the various problems in their study. The course presents the part of calculus and analytic geometry which include linear algebra, matrices and systems of linear equations, functions of several variables, partial differentiation, double integration and vector calculus, which are more advanced subjects then those of CALCULUS1. | ||||||
| 1 | 2 | GEN4091 | Philosophical Understanding of Science and Technology | Compulsory General Studies | 3-3-0 | |
| This course aims to cultivate among students the comprehensive understanding of science and technology in modern society, employing philosophical methods and concepts. To do this, the course offers a survey of some important theoretical results recently obtained in science and technology studies. We will carefully examime a number of concrete case-studies, ranging from the electrification of America, quantum revolution to the introduction of western science to traditional Korea. We will then discuss the intrinsic nature of modern science and technology as well as its socio-cultural aspects in the context of modern society. Students who take the course shall appreciate how modern science and technology from the nineteenth century has come to manifest a number of unique characteristics, which can be clearly distinguished from the science and technology of even, the eighteenth century. We will discuss in the class the significance of this difference. The course will also highlights the importance of dialogue between experts with different background and encourage more interactions between humanities and natural sciences, so that we can make well-informed and reasonable decisions concerning complicated issues which are so common in our multi-layered society. | ||||||
| 1 | 2 | CHM1002 | General Chemistry & Experiment 2 | Basic Major | 3-2-2 | |
| Aim to understand the structures of the molecules and their interaction in various state. Principles and application of chemical equilibrium, coordination chemistry, oxidation-reduction and electrochemistry, kinetics, nuclear chemistry, introduction to organic chemistry. Lecture, lab, and discussion. Open to Freshmen. | ||||||
| 1 | 2 | COE2022 | Introduction to Engineering Design | Core Major | 3-2-2 | |
| To provide students with the use of problem-solving skills for solving realistic engineering problems using problem-based learning techniques, including definition of problem, creative problem solving, design of experiments, and optimization. To familiarize students with experience working as a member of an engineering work team, with experience using several modern tools and techniques to solve engineering problems. This course will help you develop the skills necessary to solve the real engineering problems facing engineers today. You will learn underlying principles an master techniques to solve engineering problems. | ||||||
| 1 | 2 | CUL3012 | General Physics & Experiment 2 | Basic Major | 3-2-2 | |
| The goal of this course is to make you familiar, at the conceptual and basic problem-solving level, with the physics of electricity, magnetism, heat, and waves, optics and modern physics. The basic philosophy of CUL312 can be summarized as follows: The approaches used to achieve these goals involve 1) lectures to interactively discuss and demonstrate the principles, 2) laboratory experiments allowing you to actively explore these principles, and 3) interaction with instructors in discussion sections to provide one-on-one help with concepts and problem solving. | ||||||
| 1 | 2 | GEN2053 | Calculus 2 | Basic Major | 3-3-0 | |
| This course is a continuation of CALCULUS1, which aims at preparing the students for their study in their respective major subjects in natural sciences or engineering by equipping them with the knowledge of calculus and some basics of analytic geometry so that they may have the necessary mathematical background and the ability to take logical approaches when they confront the various problems in their study. The course presents the part of calculus and analytic geometry which include linear algebra, matrices and systems of linear equations, functions of several variables, partial differentiation, double integration and vector calculus, which are more advanced subjects then those of CALCULUS1. | ||||||
| 1 | 2 | GEN4091 | Philosophical Understanding of Science and Technology | Compulsory General Studies | 3-3-0 | |
| This course aims to cultivate among students the comprehensive understanding of science and technology in modern society, employing philosophical methods and concepts. To do this, the course offers a survey of some important theoretical results recently obtained in science and technology studies. We will carefully examime a number of concrete case-studies, ranging from the electrification of America, quantum revolution to the introduction of western science to traditional Korea. We will then discuss the intrinsic nature of modern science and technology as well as its socio-cultural aspects in the context of modern society. Students who take the course shall appreciate how modern science and technology from the nineteenth century has come to manifest a number of unique characteristics, which can be clearly distinguished from the science and technology of even, the eighteenth century. We will discuss in the class the significance of this difference. The course will also highlights the importance of dialogue between experts with different background and encourage more interactions between humanities and natural sciences, so that we can make well-informed and reasonable decisions concerning complicated issues which are so common in our multi-layered society. | ||||||
| 2 | 1 | CHE2001 | Industrial Physical Chemistry 1 | Elective Major | 3-3-0 | |
| 2 | 1 | CHI2002 | Chinese 1 | Elective General Studies | 3-3-0 | |
| 2 | 1 | COE2001 | Applied Mathematics 1 | Compulsory General Studies | 3-3-0 | |
| 2 | 1 | GEN0001 | Genral Ethics 1 | Elective General Studies | 2-2-0 | |
| 2 | 1 | GEN0024 | German 1 | Elective General Studies | 3-3-0 | |
| 2 | 1 | GEN0027 | French 1 | Elective General Studies | 3-3-0 | |
| 2 | 1 | GEN0052 | Japanese 1 | Elective General Studies | 3-3-0 | |
| 2 | 1 | GEN1002 | English in Major | Elective Major | 2-2-0 | |
| 2 | 1 | PHY2054 | Atomic Physics | Compulsory Major | 3-3-0 | |
| 2 | 1 | PHY3005 | Electromagnetism 1 | Elective Major | 3-3-0 | |
| 2 | 1 | CHE2011 | Industrial Physical Chemistry | Elective Major | 3-3-0 | |
| 2 | 1 | COE3051 | Engineering Mathematics 1 | Compulsory General Studies | 3-3-0 | |
| In this subject, we learn ordinary differential equation(O.D.E.), linear differential equation(L.D.E.), series, series solution in differential equations and Laplace transportation systematically based on differential and integral calculus (fundamental prerequisite). Moreover, we improve ability to make these basic concepts and principles applicable. The aim of this course is to allow students to interpret engineering phenomenon from their major field using mathematical knowledge. Engineering Mathematics course is mandatory course. Exams and grades are managed by the engineering mathematics committee, comprising all professors. | ||||||
| 2 | 1 | NUE2003 | Applied Nuclear Physics 1 | Compulsory Major | 3-3-0 | |
| 2 | 1 | NUE3008 | Nuclear Engineering 1 | Compulsory Major | 3-3-0 | |
| 2 | 1 | PHY3005 | Electromagnetism 1 | Elective Major | 3-3-0 | |
| 2 | 1 | COE3051 | Engineering Mathematics 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
| In this subject, we learn ordinary differential equation(O.D.E.), linear differential equation(L.D.E.), series, series solution in differential equations and Laplace transformation systematically based on differential and integral calculus (fundamental prerequisite). Moreover, we improve ability to make these basic concepts and principles applicable. | ||||||
| 2 | 1 | GEN6032 | PROFESSIONAL ACADEMIC ENGLISH | (Compulsory) Requirement in Fundamental Studies | 3-4-0 | |
| The Professional Academic English for students at Hanyang University focuses on the development of the oral and written communication skills, which are required in the globalized world community. The course aims to help students develop the competencies that are required in their future studies and career: professional knowledge, interpersonal and communicative competences. The course requires the students to develop creative problem solving skills. For this, the students perform various tasks by investigating and analyzing engineering topics as well as developing solutions. The students’ communication and negotiation skills are systematically supported by language skill development such as learning academic forms and structures of the language that are used in formal oral presentations and essays. The expected course outcome is that students are able to write academic reports, participate in discussions and make oral presentations in English on their major topics. Throughout the course, the students are encouraged to explore various major-related topics, to conduct systematic problem analyses, and to collaborate for creative problem solutions. Classroom activities mainly focus on the oral presentation and writing skills, and the preparatory activities of the essay writing. The course requires the students to make three oral presentations and write three essays in English on their major-related topics. Students are required to make a portfolio of their work, to be submitted and assessed. This will be discussed in class. | ||||||
| 2 | 1 | MAT2017 | Probability & Statistics | Core Major | 3-3-0 | |
| MAT217ProbabilityandStatistics. Basicprobabilitydistributionfunctionsofprobabilitydensityandcumulativedistributionfunctions,binomialdistribution,normaldistribution,Poissondistribution,exponentialdistribution,gammadistribution,etc.,andbasicstatisticsincludingtreatmentsofsamples,maximumlikelihoodmethod,pointestimate,intervalestimate,hypothesistest,goodness-of-fittest,etc.arediscussed. | ||||||
| 2 | 1 | NUE2007 | Overview of Nuclear Engineering | Core Major | 3-3-0 | |
| NUE207OverviewofNuclearEngineering Thiscoursewillcovertheoverviewofthenuclearengineeringincludingnuclearphysics,neutroncrosssection,neutronattenuation,neutronenerylossmechanism,radiationinteractionswithmatter,fissionreaction,nuclearreactors,nuclearfuelcycle,radiationapplications,etc.Thiscoursewillpreparethestudentsfortheadvancednuclearengineeringcourses. | ||||||
| 2 | 1 | NUE2008 | Applied Nuclear Physics | Core Major | 3-3-0 | |
| NUE208APPLIEDNUCLEARPHYSICS Thiscourseincludesatomicspectra,atomicstructure,elementsofquantummechanics,nuclearstructureandproperties,nuclearmodels(LiquidDropModel,ShellModel),nuclearforces,radioactivity,radioactivedecays(alphadecay,betadecay,gammadecay),nuclearreactions,neutronphysics,nuclearfission,artificialnucleardisintegration,andapplicationsofnuclearphysics. | ||||||
| 2 | 1 | NUE3062 | RADIATION INTERACTIONS | Core Major | 3-3-0 | |
| NUE362RadiationInteractions Discussthecharacteristicsofradiation,interactionofheavychargedparticles,neutron,andphotonswithmatter,kinematicsandcrosssectionsofinteractions.Conceptofradiationdoseresultingfromenergytransferthroughinteractionsisalsocovered. | ||||||
| 2 | 1 | COE3051 | Engineering Mathematics 1 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
| In this subject, we learn ordinary differential equation(O.D.E.), linear differential equation(L.D.E.), series, series solution in differential equations and Laplace transformation systematically based on differential and integral calculus (fundamental prerequisite). Moreover, we improve ability to make these basic concepts and principles applicable. | ||||||
| 2 | 1 | GEN6032 | PROFESSIONAL ACADEMIC ENGLISH | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
| The Professional Academic English for students at Hanyang University focuses on the development of the oral and written communication skills, which are required in the globalized world community. The course aims to help students develop the competencies that are required in their future studies and career: professional knowledge, interpersonal and communicative competences. The course requires the students to develop creative problem solving skills. For this, the students perform various tasks by investigating and analyzing engineering topics as well as developing solutions. The students’ communication and negotiation skills are systematically supported by language skill development such as learning academic forms and structures of the language that are used in formal oral presentations and essays. The expected course outcome is that students are able to write academic reports, participate in discussions and make oral presentations in English on their major topics. Throughout the course, the students are encouraged to explore various major-related topics, to conduct systematic problem analyses, and to collaborate for creative problem solutions. Classroom activities mainly focus on the oral presentation and writing skills, and the preparatory activities of the essay writing. The course requires the students to make three oral presentations and write three essays in English on their major-related topics. Students are required to make a portfolio of their work, to be submitted and assessed. This will be discussed in class. Professional Academic English (PAE) is a required course for all HYU students that develops students’ academic presentation and writing skills using major-related content. Instruction will focus on the concepts and strategies needed in order to both organize and deliver a presentation, along with informal and formal opportunities to practice them. Students will also learn to improve their academic writing through assignments that require the dem | ||||||
| 2 | 1 | MAT2017 | Probability & Statistics | Core Major | 3-3-0 | |
| MAT217ProbabilityandStatistics. Basicprobabilitydistributionfunctionsofprobabilitydensityandcumulativedistributionfunctions,binomialdistribution,normaldistribution,Poissondistribution,exponentialdistribution,gammadistribution,etc.,andbasicstatisticsincludingtreatmentsofsamples,maximumlikelihoodmethod,pointestimate,intervalestimate,hypothesistest,goodness-of-fittest,etc.arediscussed. | ||||||
| 2 | 1 | NUE2007 | Overview of Nuclear Engineering | Core Major | 3-3-0 | |
| This cours ewill cover the over view ofthe nuclear engineering in cluding nuclear physics, neutron crosssection, neutron attenuation, neutronenery lossmechanism ,radiation interactions with matter, fissionreaction, nuclearreactors, nuclearfuelcycle, radiation applications, etc.This course will prepare the students forthe advanced nuclearengineering courses. | ||||||
| 2 | 1 | NUE2058 | FUNDAMENTALS OF NUCLEAR PHYSICS | Core Major | 3-3-0 | |
| This course includes atomic spectra, atomic structure, elements of quantum mechanics, nuclear structure and properties, nuclear models (Liquid Drop Model, Shell Model), nuclear forces, radioactivity, radioactive decays (alpha decay, beta decay, gamma decay), nuclear reactions, neutron physics, nuclear fission, artificial nuclear disintegration, and applications of nuclear physics. | ||||||
| 2 | 1 | NUE3062 | RADIATION INTERACTIONS | Core Major | 3-3-0 | |
| NUE362RadiationInteractions Discussthecharacteristicsofradiation,interactionofheavychargedparticles,neutron,andphotonswithmatter,kinematicsandcrosssectionsofinteractions.Conceptofradiationdoseresultingfromenergytransferthroughinteractionsisalsocovered. | ||||||
| 2 | 1 | COE3051 | Engineering Mathematics 1 | Basic Major | 3-3-0 | |
| In this subject, we learn ordinary differential equation(O.D.E.), linear differential equation(L.D.E.), series, series solution in differential equations and Laplace transformation systematically based on differential and integral calculus (fundamental prerequisite). Moreover, we improve ability to make these basic concepts and principles applicable. | ||||||
| 2 | 1 | GEN6032 | PROFESSIONAL ACADEMIC ENGLISH | Compulsory General Studies | 3-3-0 | |
| The Professional Academic English for students at Hanyang University focuses on the development of the oral and written communication skills, which are required in the globalized world community. The course aims to help students develop the competencies that are required in their future studies and career: professional knowledge, interpersonal and communicative competences. The course requires the students to develop creative problem solving skills. For this, the students perform various tasks by investigating and analyzing engineering topics as well as developing solutions. The students’ communication and negotiation skills are systematically supported by language skill development such as learning academic forms and structures of the language that are used in formal oral presentations and essays. The expected course outcome is that students are able to write academic reports, participate in discussions and make oral presentations in English on their major topics. Throughout the course, the students are encouraged to explore various major-related topics, to conduct systematic problem analyses, and to collaborate for creative problem solutions. Classroom activities mainly focus on the oral presentation and writing skills, and the preparatory activities of the essay writing. The course requires the students to make three oral presentations and write three essays in English on their major-related topics. Students are required to make a portfolio of their work, to be submitted and assessed. This will be discussed in class. | ||||||
| 2 | 1 | MAT2017 | Probability & Statistics | Basic Major | 3-3-0 | |
| MAT217ProbabilityandStatistics. Basicprobabilitydistributionfunctionsofprobabilitydensityandcumulativedistributionfunctions,binomialdistribution,normaldistribution,Poissondistribution,exponentialdistribution,gammadistribution,etc.,andbasicstatisticsincludingtreatmentsofsamples,maximumlikelihoodmethod,pointestimate,intervalestimate,hypothesistest,goodness-of-fittest,etc.arediscussed. | ||||||
| 2 | 1 | NUE2007 | Overview of Nuclear Engineering | Core Major | 3-3-0 | |
| This cours ewill cover the over view ofthe nuclear engineering in cluding nuclear physics, neutron crosssection, neutron attenuation, neutronenery lossmechanism ,radiation interactions with matter, fissionreaction, nuclearreactors, nuclearfuelcycle, radiation applications, etc.This course will prepare the students forthe advanced nuclearengineering courses. | ||||||
| 2 | 1 | NUE2059 | Introduction to Heat Transfer | Core Major | 3-3-0 | |
| This course is an introduction to the principal concepts and methods of heat transfer. The specific objectives of this integrated subject are as follows: -To develop the fundamental principles and laws of heat transfer and to explore the implications of these principles for system behavior, -To formulate the models necessary to study, analyze and design heat transfer systems through the application of these principles. - To develop the problem-solving skills essential to good engineering practice of heat transfer in real-world applications. | ||||||
| 2 | 1 | NUE3062 | RADIATION INTERACTIONS | Core Major | 3-3-0 | |
| NUE362RadiationInteractions Discussthecharacteristicsofradiation,interactionofheavychargedparticles,neutron,andphotonswithmatter,kinematicsandcrosssectionsofinteractions.Conceptofradiationdoseresultingfromenergytransferthroughinteractionsisalsocovered. | ||||||
| 2 | 1 | COE3051 | Engineering Mathematics 1 | Basic Major | 3-3-0 | |
| In this subject, we learn ordinary differential equation(O.D.E.), linear differential equation(L.D.E.), series, series solution in differential equations and Laplace transformation systematically based on differential and integral calculus (fundamental prerequisite). Moreover, we improve ability to make these basic concepts and principles applicable. | ||||||
| 2 | 1 | GEN6032 | PROFESSIONAL ACADEMIC ENGLISH | Compulsory General Studies | 3-3-0 | |
| The Professional Academic English for students at Hanyang University focuses on the development of the oral and written communication skills, which are required in the globalized world community. The course aims to help students develop the competencies that are required in their future studies and career: professional knowledge, interpersonal and communicative competences. The course requires the students to develop creative problem solving skills. For this, the students perform various tasks by investigating and analyzing engineering topics as well as developing solutions. The students’ communication and negotiation skills are systematically supported by language skill development such as learning academic forms and structures of the language that are used in formal oral presentations and essays. The expected course outcome is that students are able to write academic reports, participate in discussions and make oral presentations in English on their major topics. Throughout the course, the students are encouraged to explore various major-related topics, to conduct systematic problem analyses, and to collaborate for creative problem solutions. Classroom activities mainly focus on the oral presentation and writing skills, and the preparatory activities of the essay writing. The course requires the students to make three oral presentations and write three essays in English on their major-related topics. Students are required to make a portfolio of their work, to be submitted and assessed. This will be discussed in class. | ||||||
| 2 | 1 | MAT2017 | Probability & Statistics | Basic Major | 3-3-0 | |
| MAT217ProbabilityandStatistics. Basicprobabilitydistributionfunctionsofprobabilitydensityandcumulativedistributionfunctions,binomialdistribution,normaldistribution,Poissondistribution,exponentialdistribution,gammadistribution,etc.,andbasicstatisticsincludingtreatmentsofsamples,maximumlikelihoodmethod,pointestimate,intervalestimate,hypothesistest,goodness-of-fittest,etc.arediscussed. | ||||||
| 2 | 1 | NUE2007 | Overview of Nuclear Engineering | Core Major | 3-3-0 | |
| This cours ewill cover the over view ofthe nuclear engineering in cluding nuclear physics, neutron crosssection, neutron attenuation, neutronenery lossmechanism ,radiation interactions with matter, fissionreaction, nuclearreactors, nuclearfuelcycle, radiation applications, etc.This course will prepare the students forthe advanced nuclearengineering courses. | ||||||
| 2 | 1 | NUE2059 | Introduction to Heat Transfer | Core Major | 3-3-0 | |
| This course is an introduction to the principal concepts and methods of heat transfer. The specific objectives of this integrated subject are as follows: -To develop the fundamental principles and laws of heat transfer and to explore the implications of these principles for system behavior, -To formulate the models necessary to study, analyze and design heat transfer systems through the application of these principles. - To develop the problem-solving skills essential to good engineering practice of heat transfer in real-world applications. | ||||||
| 2 | 1 | NUE3062 | RADIATION INTERACTIONS | Core Major | 3-3-0 | |
| NUE362RadiationInteractions Discussthecharacteristicsofradiation,interactionofheavychargedparticles,neutron,andphotonswithmatter,kinematicsandcrosssectionsofinteractions.Conceptofradiationdoseresultingfromenergytransferthroughinteractionsisalsocovered. | ||||||
| 2 | 2 | CHE2002 | Industrial Physical Chemistry 2 | Elective Major | 3-3-0 | |
| 2 | 2 | CHI2003 | Chinese 2 | Elective General Studies | 3-3-0 | |
| 2 | 2 | COE2002 | Applied Mathematics 2 | Compulsory General Studies | 3-3-0 | |
| 2 | 2 | GEN0002 | General Ethics 2 | Elective General Studies | 2-2-0 | |
| 2 | 2 | GEN0012 | History of Korea | Elective General Studies | 2-2-0 | |
| 2 | 2 | GEN0025 | German 2 | Elective General Studies | 3-3-0 | |
| 2 | 2 | GEN0028 | French 2 | Elective General Studies | 3-3-0 | |
| 2 | 2 | GEN0053 | Japanese 2 | Elective General Studies | 3-3-0 | |
| 2 | 2 | NUE2002 | Nuclear Physics | Compulsory Major | 3-3-0 | |
| 2 | 2 | PHY3006 | Electromagnetism 2 | Elective Major | 3-3-0 | |
| 2 | 2 | COE3052 | Engineering Mathematics 2 | Compulsory General Studies | 3-3-0 | |
| 2 | 2 | NUE2004 | Applied Nuclear Physics 2 | Compulsory Major | 3-3-0 | |
| 2 | 2 | NUE2053 | Nuclear Engineering Laboratory 1 | Elective Major | 1-0-2 | |
| 2 | 2 | NUE2055 | APPLIED MATERIALS AND SCIENCE | Elective Major | 3-3-0 | |
| 2 | 2 | NUE2056 | Engineering Thermodynamics for Nuclear Engineering Scientist | Elective Major | 3-3-0 | |
| 2 | 2 | NUE3007 | Nuclear Chemistry | Elective Major | 3-3-0 | |
| 2 | 2 | NUE3009 | Nuclear Engineering 2 | Compulsory Major | 3-3-0 | |
| 2 | 2 | PHY3006 | Electromagnetism 2 | Elective Major | 3-3-0 | |
| 2 | 2 | COE3052 | Engineering Mathematics 2 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
| In this subject, we learn complex functions, complex analysis fuctions, fundamental complex functions, Conformal mapping, linear fractional transformation, line integral in the complex plane, Cauchy's integral theorem and integral formula, derivatives in analysis function, power seriesm Taylor's series, Laurent's series, residue integration, ideal integration, matrix multiplication systematically. This subject is a prerequisite for understanding special subjects and helps us improve mathematical and scientific way of thinking. | ||||||
| 2 | 2 | MAT3008 | Numerical Analysis | Core Major | 3-3-0 | |
| Thiscoursewillcoverthebasicnumerialanalysistechniquesincludingrootfinding,integration,differentialequation,partialdifferentialequation,matrix,etc.Thiscourseinvolvesasignificantamountofprogrammingassignmentstoimprovestudnets'programmingskills.Thiscourseisdesignedmainlyfornuclearengineeringmajorstudents. | ||||||
| 2 | 2 | NUE2010 | INTRODUCTION TO NUCLEAR REACTOR ENGINEERING | Core Major | 3-3-0 | |
| NUE210NuclearReactorEngineering Lecturediscussesthebasicnuclearreactorprinciplesincludingtheinteractionsofneutronwithmatters,nuclearreactionandreactioncrosssections,structureofnuclearreactors,neutrondiffusionandslowingdown,neutrondiffusionequation,nuclearreactorcriticality,multiplicationfactor,nuclearreactorkineticsequationsfortransientreactors,reactivitycoefficients,reactivitycontrolmethods,etc.. | ||||||
| 2 | 2 | NUE2057 | Nuclear Instrumentation and Signal Processing | Extended Major | 3-3-0 | |
| Basicelectronicsprovidecircuitcharacteristicsofradiationmeasurementelectronicsandbasicconceptsofhardwaretostudentsstudyingnuclearengineeringandnuclearinstrumentation.Wediscussderivationofcurrent-voltagerelationindiodes;rectifierandfiltercircuitusingdiodes,etc.Thiscoursealsodiscussthesignalprocessingfromthenuclearinstruments. | ||||||
| 2 | 2 | NUE3004 | Radiation Detection and Management | Core Major | 3-3-0 | |
| NUE304RadiationDetectionandMeasurement Operatingprinciplesandcharacteristicsofvarietiesofradiationdetectorsincludinggas-filleddetectors,scintillator,semi-conductor,solidstatetrackdetector,thermoluminescencedosimeters,andneutrondetectorsarediscussed.Discussionsoncounterelectronics,pulseheightanalysis,countingstatisticsandbackgroundreductionarefollowed. | ||||||
| 2 | 2 | SYH0002 | GLOBAL LEADERSHIP | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |
| Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The second step of this program, Global Leadership(HELP2) is the core course for sophomores. In the 21st century, we are moving into a global society where all countries are interconnected. Everything is changing at the speed of light. Competition is increasing. Digital convergence is occurring. Global leaders are the key to success for all organizations. In the global society, you can prepare for your future through HELP2. The purpose of HELP is to prepare students to be global leaders for the next generation. HELP2 teaches students: Global Leadership, Global Paradigm, Global Literacy, Global Manners and Global Mindset. Hanyang University students will be global leaders through HELP2. | ||||||
| 2 | 2 | COE3052 | Engineering Mathematics 2 | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
| In this subject, we learn complex functions, complex analysis fuctions, fundamental complex functions, Conformal mapping, linear fractional transformation, line integral in the complex plane, Cauchy's integral theorem and integral formula, derivatives in analysis function, power seriesm Taylor's series, Laurent's series, residue integration, ideal integration, matrix multiplication systematically. This subject is a prerequisite for understanding special subjects and helps us improve mathematical and scientific way of thinking. | ||||||
| 2 | 2 | MAT3008 | Numerical Analysis | Core Major | 3-3-0 | |
| Thiscoursewillcoverthebasicnumerialanalysistechniquesincludingrootfinding,integration,differentialequation,partialdifferentialequation,matrix,etc.Thiscourseinvolvesasignificantamountofprogrammingassignmentstoimprovestudnets'programmingskills.Thiscourseisdesignedmainlyfornuclearengineeringmajorstudents. | ||||||
| 2 | 2 | NUE2008 | Applied Nuclear Physics | Core Major | 3-3-0 | |
| NUE208APPLIEDNUCLEARPHYSICS Thiscourseincludesatomicspectra,atomicstructure,elementsofquantummechanics,nuclearstructureandproperties,nuclearmodels(LiquidDropModel,ShellModel),nuclearforces,radioactivity,radioactivedecays(alphadecay,betadecay,gammadecay),nuclearreactions,neutronphysics,nuclearfission,artificialnucleardisintegration,andapplicationsofnuclearphysics. | ||||||
| 2 | 2 | NUE2010 | INTRODUCTION TO NUCLEAR REACTOR ENGINEERING | Core Major | 3-3-0 | |
| NUE210NuclearReactorEngineering Lectured iscusses the basic nuclear reactor principles including the interaction so fneutron with matters, nuclear reaction and reaction crosssections, structure of nuclear reactors, neutron diffusion and slowing down, neutron diffusion equation, nuclear reactor criticality, multiplication factor, nuclear reactor kinetic sequations for transient reactors, reactivity coefficients, reactivity control methods, etc.. | ||||||
| 2 | 2 | NUE3004 | Radiation Detection and Management | Core Major | 3-3-0 | |
| NUE304RadiationDetectionandMeasurement Operatingprinciplesandcharacteristicsofvarietiesofradiationdetectorsincludinggas-filleddetectors,scintillator,semi-conductor,solidstatetrackdetector,thermoluminescencedosimeters,andneutrondetectorsarediscussed.Discussionsoncounterelectronics,pulseheightanalysis,countingstatisticsandbackgroundreductionarefollowed. | ||||||
| 2 | 2 | SYH0002 | GLOBAL LEADERSHIP | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |
| Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The second step of this program, Global Leadership(HELP2) is the core course for sophomores. In the 21st century, we are moving into a global society where all countries are interconnected. Everything is changing at the speed of light. Competition is increasing. Digital convergence is occurring. Global leaders are the key to success for all organizations. In the global society, you can prepare for your future through HELP2. The purpose of HELP is to prepare students to be global leaders for the next generation. HELP2 teaches students: Global Leadership, Global Paradigm, Global Literacy, Global Manners and Global Mindset. Hanyang University students will be global leaders through HELP2. | ||||||
| 2 | 2 | COE3052 | Engineering Mathematics 2 | Basic Major | 3-3-0 | |
| In this subject, we learn complex functions, complex analysis fuctions, fundamental complex functions, Conformal mapping, linear fractional transformation, line integral in the complex plane, Cauchy's integral theorem and integral formula, derivatives in analysis function, power seriesm Taylor's series, Laurent's series, residue integration, ideal integration, matrix multiplication systematically. This subject is a prerequisite for understanding special subjects and helps us improve mathematical and scientific way of thinking. | ||||||
| 2 | 2 | MAT3008 | Numerical Analysis | Core Major | 3-3-0 | |
| Thiscoursewillcoverthebasicnumerialanalysistechniquesincludingrootfinding,integration,differentialequation,partialdifferentialequation,matrix,etc.Thiscourseinvolvesasignificantamountofprogrammingassignmentstoimprovestudnets'programmingskills.Thiscourseisdesignedmainlyfornuclearengineeringmajorstudents. | ||||||
| 2 | 2 | NUE2008 | Applied Nuclear Physics | Core Major | 3-3-0 | |
| NUE208APPLIEDNUCLEARPHYSICS Thiscourseincludesatomicspectra,atomicstructure,elementsofquantummechanics,nuclearstructureandproperties,nuclearmodels(LiquidDropModel,ShellModel),nuclearforces,radioactivity,radioactivedecays(alphadecay,betadecay,gammadecay),nuclearreactions,neutronphysics,nuclearfission,artificialnucleardisintegration,andapplicationsofnuclearphysics. | ||||||
| 2 | 2 | NUE2010 | INTRODUCTION TO NUCLEAR REACTOR ENGINEERING | Core Major | 3-3-0 | |
| Lectured iscusses the basic nuclear reactor principles including the interaction so fneutron with matters, nuclear reaction and reaction crosssections, structure of nuclear reactors, neutron diffusion and slowing down, neutron diffusion equation, nuclear reactor criticality, multiplication factor, nuclear reactor kinetic sequations for transient reactors, reactivity coefficients, reactivity control methods, etc.. | ||||||
| 2 | 2 | NUE3004 | Radiation Detection and Measurement | Core Major | 3-3-0 | |
| NUE304RadiationDetectionandMeasurement Operatingprinciplesandcharacteristicsofvarietiesofradiationdetectorsincludinggas-filleddetectors,scintillator,semi-conductor,solidstatetrackdetector,thermoluminescencedosimeters,andneutrondetectorsarediscussed.Discussionsoncounterelectronics,pulseheightanalysis,countingstatisticsandbackgroundreductionarefollowed. | ||||||
| 2 | 2 | NUE3038 | Radiation Doses & Biological Effects | Core Major | 3-3-0 | |
| NUE338RadiationDosesandBiologicalEffects Conceptandquantitiesinvolvingradiationexposurearediscussedindepth.Focusedontheequivalentdose,effectivedose,committeddose,doseequivalent,andoperationalquantitiesdefinedbytheICRU.Anthropomorphicphantomsaswellasthestandardphantomfordosimetryarediscussed.AlsoinductionofDNAlesionsandrepairmechanism,deterministiceffects,stochasticeffects,andtheresultingriskofradiationexposurearecovered. | ||||||
| 2 | 2 | SYH0002 | GLOBAL LEADERSHIP | Compulsory General Studies | 2-2-0 | |
| Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The second step of this program, Hanyang Leadership(HELP2) is the core course for Sophomores. In the 21st century, we are moving into a global soceity where all countries are interconnected. Everything is changing at the speed of light. Competition is increasing. Digital Convergence is occurring. Global leaders are the key to success for all organizations. In a global soceity, you can prepare for your future through HELP2. The purpose of HELP is to prepare students to be global leaders for the next generation. HELP2 teaches students: Global Leadership, Global Paradigm, Global Literacy, Global Manners, and Global Mindset. Hanyang university students will be global leaders through HELP2. | ||||||
| 2 | 2 | COE3052 | Engineering Mathematics 2 | Basic Major | 3-3-0 | |
| In this subject, we learn complex functions, complex analysis fuctions, fundamental complex functions, Conformal mapping, linear fractional transformation, line integral in the complex plane, Cauchy's integral theorem and integral formula, derivatives in analysis function, power seriesm Taylor's series, Laurent's series, residue integration, ideal integration, matrix multiplication systematically. This subject is a prerequisite for understanding special subjects and helps us improve mathematical and scientific way of thinking. | ||||||
| 2 | 2 | MAT3008 | Numerical Analysis | Core Major | 3-3-0 | |
| Thiscoursewillcoverthebasicnumerialanalysistechniquesincludingrootfinding,integration,differentialequation,partialdifferentialequation,matrix,etc.Thiscourseinvolvesasignificantamountofprogrammingassignmentstoimprovestudnets'programmingskills.Thiscourseisdesignedmainlyfornuclearengineeringmajorstudents. | ||||||
| 2 | 2 | NUE2008 | Applied Nuclear Physics | Core Major | 3-3-0 | |
| NUE208APPLIEDNUCLEARPHYSICS Thiscourseincludesatomicspectra,atomicstructure,elementsofquantummechanics,nuclearstructureandproperties,nuclearmodels(LiquidDropModel,ShellModel),nuclearforces,radioactivity,radioactivedecays(alphadecay,betadecay,gammadecay),nuclearreactions,neutronphysics,nuclearfission,artificialnucleardisintegration,andapplicationsofnuclearphysics. | ||||||
| 2 | 2 | NUE2010 | INTRODUCTION TO NUCLEAR REACTOR ENGINEERING | Core Major | 3-3-0 | |
| Lectured iscusses the basic nuclear reactor principles including the interaction so fneutron with matters, nuclear reaction and reaction crosssections, structure of nuclear reactors, neutron diffusion and slowing down, neutron diffusion equation, nuclear reactor criticality, multiplication factor, nuclear reactor kinetic sequations for transient reactors, reactivity coefficients, reactivity control methods, etc.. | ||||||
| 2 | 2 | NUE3004 | Radiation Detection and Measurement | Core Major | 3-3-0 | |
| NUE304RadiationDetectionandMeasurement Operatingprinciplesandcharacteristicsofvarietiesofradiationdetectorsincludinggas-filleddetectors,scintillator,semi-conductor,solidstatetrackdetector,thermoluminescencedosimeters,andneutrondetectorsarediscussed.Discussionsoncounterelectronics,pulseheightanalysis,countingstatisticsandbackgroundreductionarefollowed. | ||||||
| 2 | 2 | NUE3038 | Radiation Doses & Biological Effects | Core Major | 3-3-0 | |
| NUE338RadiationDosesandBiologicalEffects Conceptandquantitiesinvolvingradiationexposurearediscussedindepth.Focusedontheequivalentdose,effectivedose,committeddose,doseequivalent,andoperationalquantitiesdefinedbytheICRU.Anthropomorphicphantomsaswellasthestandardphantomfordosimetryarediscussed.AlsoinductionofDNAlesionsandrepairmechanism,deterministiceffects,stochasticeffects,andtheresultingriskofradiationexposurearecovered. | ||||||
| 2 | 2 | SYH0002 | GLOBAL LEADERSHIP | Compulsory General Studies | 2-2-0 | |
| Hanyang Leadership(HELP: Hanyang Essential Leadership Plus) is the leadership development program of Hanyang University that "helps" Hanyang students to be CEOs. The second step of this program, Hanyang Leadership(HELP2) is the core course for Sophomores. In the 21st century, we are moving into a global soceity where all countries are interconnected. Everything is changing at the speed of light. Competition is increasing. Digital Convergence is occurring. Global leaders are the key to success for all organizations. In a global soceity, you can prepare for your future through HELP2. The purpose of HELP is to prepare students to be global leaders for the next generation. HELP2 teaches students: Global Leadership, Global Paradigm, Global Literacy, Global Manners, and Global Mindset. Hanyang university students will be global leaders through HELP2. | ||||||
| 3 | 1 | COE3001 | Engineering Mathematics | Compulsory Major | 3-3-0 | |
| 3 | 1 | NUE3006 | NUCLEAR REACTOR MATERIALS AND SCIENCE | Elective Major | 3-3-0 | |
| 3 | 1 | NUE3008 | Nuclear Engineering 1 | Compulsory Major | 3-3-0 | |
| 3 | 1 | NUE3015 | Radiation Detection 1 | Compulsory Major | 3-3-0 | |
| 3 | 1 | NUE3017 | Radiation Detection Lab. | Compulsory Major | 1-0-3 | |
| 3 | 1 | NUE3018 | Nuclear Energy Policy | Elective Major | 2-2-0 | |
| 3 | 1 | NUE3019 | Micro Analysis | Elective Major | 3-2-2 | |
| 3 | 1 | COE1012 | Practical Engineering Research Initiative 3 | Elective Major | 1-0-2 | |
| 3 | 1 | COE3053 | Engineering Mathematics 3 | Compulsory General Studies | 3-3-0 | |
| 3 | 1 | NUE3020 | Power Reactor System Engineering | Compulsory Major | 3-3-0 | |
| 3 | 1 | NUE3021 | Nuclear Reactor Theory 1 | Compulsory Major | 3-3-0 | |
| 3 | 1 | NUE3023 | Introduction to Nuclear Fusion | Elective Major | 3-3-0 | |
| 3 | 1 | NUE4007 | Nuclear Reactor Shielding | Elective Major | 3-3-0 | |
| 3 | 1 | COE1012 | Practical Engineering Research Initiative 3 | Elective Major | 1-0-2 | |
| In this course, students can participate in research projects of professors. Student who chose one projects among others proposed by teacher makes his/her own specified proposal for the study, then do the research during the term. Students will present his research result at the end of the term. The course stresses creative thinking and research exprience. The course opens to shopomores to Juniors and can be taken no more than 4 terms. Achievement of the class is evaluated with Pass or Fail. | ||||||
| 3 | 1 | COE3053 | Engineering Mathematics 3 | Compulsory General Studies | 3-3-0 | |
| This course studies solution methodologies (separation of variables and integral transform technique) of partial differential equation with the baisc conepts of engineering mathematics 1 and 2. The involved partial differential equations are Laplace equation, diffusion equation, and vibration equation. | ||||||
| 3 | 1 | NUE2053 | Nuclear Engineering Laboratory 1 | Compulsory Major | 1-0-2 | |
| NUE253 Nuclear Engineering Lab. 1 Design of basic electronic circuits, laser diffraction, data acquisition and measurement; simple experiments to understand fluid theory and vacuum technology. | ||||||
| 3 | 1 | NUE2056 | Engineering Thermodynamics for Nuclear Engineering Scientist | Elective Major | 3-3-0 | |
| NUE256 Engineering Thermodynamics for Nuclear Engineering Scientists Consists of three parts. The first part is to introduce basic concepts: energy, entropy, free energy and the laws of engineering thermodynamics. In the second part, power plant cycles with emphasis of the Rankine cycle are thoroughly reviewed. The Third part covers phase equilibrium and its diagram, reactions, and gas phase reactions involving pure condensed phases and a gaseous phase. | ||||||
| 3 | 1 | NUE3020 | Power Reactor System Engineering | Elective Major | 3-3-0 | |
| NUE320 Power Reactor Engineering Types of nuclear power plants and their characteristics; thermodynamic cycle, engineered safety features and other auxiliary systems. | ||||||
| 3 | 1 | NUE3021 | Nuclear Reactor Theory 1 | Compulsory Major | 3-3-0 | |
| NUE321 Nuclear Reactor Theory 1 An introduction to the theory of nuclear fission reactors including such topics as interaction of neutrons with matter, neutron diffusion, the one-speed theory of nuclear reactors, multi-group diffusion theory, and criticality. | ||||||
| 3 | 1 | NUE4007 | Nuclear Reactor Shielding | Elective Major | 3-3-0 | |
| This course introduces concepts and analysis technology of radiation attenuation, absorption, and scattering within shielding material and teaches calculation of radiation flux distribution, technology of optimum shielding design, Monte Carlo calculation method, etc. Also, includes understanding and application of computational codes for shielding analysis. Objects of consideration are all nuclear facilities that need to protect, for example, design of core outer assembly, analysis of high-level radiation field within plant, treatment of high-level radioactive materials, radiation field analysis in storage facilities, design of radioactive material transport container, shielding and design of high energy accelerator and fusion reactor, etc | ||||||
| 3 | 1 | NUE4019 | Isotope Application | Elective Major | 3-3-0 | |
| Discuss principles and techniques applied to industrial gauges, tracer, radiation analysis, activation analysis, radiation processing, and radiography. Applications in life science and environmental protection are also included | ||||||
| 3 | 1 | CHE3014 | Applied Thermodynamics | Core Major | 3-3-0 | |
| CHE314APPLIEDTHERMODYNAMICS Consistsofthreeparts.Thefirstpartistointroducebasicconcepts:energy,entropy,freeenergyandthelawsofengineeringthermodynamics.Inthesecondpart,powerplantcycleswithemphasisontheRankinecyclearethoroughlyreviewd.Thethirdpartcoversphaseequilibriumanditsdiagram,reactions,andgasphasereactionsinvolvingpurecondensedphasesandagaseousphase. | ||||||
| 3 | 1 | COE1010 | Practical Engineering Research Initiative 1 | Extended Major | 1-0-2 | |
| nthiscourse,studentscanparticipateinresearchprojectsofprofessors.Studentwhochoseone projectsamongothersproposedbyteachermakeshis/herownspecifiedproposalforthestudy, thendotheresearchduringtheterm.Studentswillpresenthisresearchresultattheendoftheterm. Thecoursestressescreativethinkingandresearchexprience. ThecourseopenstoshopomorestoJuniorsandcanbetakennomorethan4terms. AchievementoftheclassisevaluatedwithPassorFail. | ||||||
| 3 | 1 | COE3053 | Engineering Mathematics 3 | Core Major | 3-3-0 | |
| Thiscoursestudiessolutionmethodologies(separationofvariablesandintegraltransformtechnique)ofpartialdifferentialequationwiththebaiscconeptsofengineeringmathematics1and2.ThisprovidestheunderstandingofthederivationsofPDEsthroughvectoranalysisandcoordinatetransformation.PDEssuchasLaplace,diffusion,andwaveequationsandtheirsolutionsthroughtheseparationofvariables,Fouriertransform,andLaplacetransform. | ||||||
| 3 | 1 | GEN5026 | Techno-Business Administration | (Compulsory) Requirement in Fundamental Studies | 3-2-2 | |
| The Techno-Business Administration program basically educates sophomore of engineering in both managerial principles and technological issues in order to deal with the future management environment. The program offers rigorous academic and applied courses along with an extensive international exposure. The program is also committed to educating future business leaders to successfully compete in global markets. The tracks include: Marketing Venture Management eBusiness Accounting, Finance & Business Analysis Strategy & Organization etc. | ||||||
| 3 | 1 | GEN6094 | Fieldwork 1 | Extended Major | 3-0-3 | |
| Experience practical nuclear engineering at a host company of nuclear industry as an intern for 4 weeks during vacations. Credit will be given for the next semester upon successful accomplishment of the internship. | ||||||
| 3 | 1 | INE4056 | RISK AND RELIABILITY ENGINEERING | Core Major | 3-3-0 | |
| NUE456RELIABILITYENGINEERING Theobjectofthiscourseistoprovideanelementaryandreasonablyself-containedoverviewofreliabilityengineeringthatissuitableforanupperlevelundergraduatecourseforstudentsofanyengineeringdiscipline.Itincludesprobability,continuousrandomvariables,qualitymeasures,distributions,reliability,loadsandcapacity,reliabilitytesting,redundancy,maintainedsystems,andsystemsafetyanalysis. | ||||||
| 3 | 1 | NUE3035 | Radiation Shielding Design | Core Major | 3-3-0 | |
| NUE335RadiationShieldingDesign Thiscourseintroducesconceptsandanalysistechnologyofradiationattenuation,absorption,andscatteringwithinshieldingmaterial,teachescalculationofradiationfluxdistribution,technologyofoptimumshieldingdesign,montecarlocalculationmethodandsoon,andalsoincludesunderstandingandapplicationofcomputationalcodesforshieldinganalysis.Objectsofconsiderationareallnuclearfacilitiesthatneedtoprotect,forexample,designofcoreouterassembly,analysisofhigh-levelradiationfieldwithinplant,treatmentofhigh-levelradioactivematerials,radiationfieldanalysisinstoragefacilities,designofradioactivematerialtransportcontainer,shieldinganddesignofhighenergyacceleratorandfusionreactor,etc. | ||||||
| 3 | 1 | NUE3040 | RADIATION DETECTION AND MANAGEMENT LABORATORY | Extended Major | 1-0-2 | |
| NUE340NuclearEngineeringLaboratory Precisionmeasurementofmassandtemperature,materialanalysis,materialtesting,andradiationcountingandmeasurementsusingGMcounter,scintillationcounter,SCAandMCA,surveytechniquesforradiationandcontaminationlevelsarepracticed. | ||||||
| 3 | 1 | NUE3061 | MOMENTUM AND HEAT TRANSFER | Core Major | 3-3-0 | |
| NUE361MOMENTUMANDHEATTRANSFER AnIntroductiontotheconservationofmass/momentum/energyandthebasicmechanismsofconduction/convection/radiationheattransfer.Thiscourseaimedforthelearningfundamentalknowledgeonheatandmasstransfer. | ||||||
| 3 | 1 | CHE3014 | Applied Thermodynamics | Core Major | 3-3-0 | |
| CHE314APPLIEDTHERMODYNAMICS Consists of three parts. The first part istointroducebasicconcepts:energy,entropy,freeenergyandthelawsofengineeringthermodynamics.Inthesecondpart,powerplantcycleswithemphasisontheRankinecyclearethoroughlyreviewd.Thethirdpartcoversphaseequilibriumanditsdiagram,reactions,andgasphasereactionsinvolvingpurecondensedphasesandagaseousphase. | ||||||
| 3 | 1 | COE3053 | Engineering Mathematics 3 | Core Major | 3-3-0 | |
| Thiscoursestudiessolutionmethodologies(separationofvariablesandintegraltransformtechnique)ofpartialdifferentialequationwiththebaiscconeptsofengineeringmathematics1and2.ThisprovidestheunderstandingofthederivationsofPDEsthroughvectoranalysisandcoordinatetransformation.PDEssuchasLaplace,diffusion,andwaveequationsandtheirsolutionsthroughtheseparationofvariables,Fouriertransform,andLaplacetransform. | ||||||
| 3 | 1 | GEN5026 | Techno-Business Administration(Startup Capstone Design) | (Compulsory) Requirement in Fundamental Studies | 3-3-0 | |
| The Techno-Business Administration program basically educates sophomore of engineering in both managerial principles and technological issues in order to deal with the future management environment. The program offers rigorous academic and applied courses along with an extensive international exposure. The program is also committed to educating future business leaders to successfully compete in global markets. The tracks include: Marketing Venture Management eBusiness Accounting, Finance & Business Analysis Strategy & Organization etc. | ||||||
| 3 | 1 | GEN6094 | Fieldwork 1 | Extended Major | 3-0-3 | |
| Experience practical nuclear engineering at a host company of nuclear industry as an intern for 4 weeks during vacations. Credit will be given for the next semester upon successful accomplishment of the internship. | ||||||
| 3 | 1 | NUE2012 | BASIC NUCLEAR ENGINEERING LABORATORY | Extended Major | 1-0-2 | |
| NUE212BASICNUECLEARENGINEERINGLABORATORY Inordertolearnthebasicquestionengineering,thefollowingarehandled:Dataacquisition,fittinganderroranalysis.Designandconstructionofsimplediagnostics,measurementoffieldintensityandplasma,principlesofacceleratorsanddiognostics,measurementofvelocitiesofplasimaandchargedparticle,opticsexperiment. | ||||||
| 3 | 1 | NUE3035 | Radiation Shielding Design | Core Major | 3-3-0 | |
| NUE335RadiationShieldingDesign Thiscourseintroducesconceptsandanalysistechnologyofradiationattenuation,absorption,andscatteringwithinshieldingmaterial,teachescalculationofradiationfluxdistribution,technologyofoptimumshieldingdesign,montecarlocalculationmethodandsoon,andalsoincludesunderstandingandapplicationofcomputationalcodesforshieldinganalysis.Objectsofconsiderationareallnuclearfacilitiesthatneedtoprotect,forexample,designofcoreouterassembly,analysisofhigh-levelradiationfieldwithinplant,treatmentofhigh-levelradioactivematerials,radiationfieldanalysisinstoragefacilities,designofradioactivematerialtransportcontainer,shieldinganddesignofhighenergyacceleratorandfusionreactor,etc. | ||||||
| 3 | 1 | NUE3037 | Nuclear Reactor Theory | Core Major | 3-3-0 | |
| NUE337NuclearReactorTheory Lectureisfocusedontheprinciplesofcompoundnuclearreactions,neutronchainreaction,thederivationsandapplicationsofonespeedandmulti-groupneutrondiffusionequations,analysisofcriticalreactor,numericalsolutionoftheneutrondiffusionequation,nuclearreactorkineticsforunderstandingrelationshipsbetweenreactivityandpower,etc.. | ||||||
| 3 | 1 | NUE3061 | MOMENTUM AND HEAT TRANSFER | Core Major | 3-3-0 | |
| NUE361MOMENTUMANDHEATTRANSFER AnIntroductiontotheconservationofmass/momentum/energyandthebasicmechanismsofconduction/convection/radiationheattransfer.Thiscourseaimedforthelearningfundamentalknowledgeonheatandmasstransfer. | ||||||
| 3 | 1 | CHE3014 | Applied Thermodynamics | Core Major | 3-3-0 | |
| CHE314APPLIEDTHERMODYNAMICS Consistsofthreeparts.Thefirstpartistointroducebasicconcepts:energy,entropy,freeenergyandthelawsofengineeringthermodynamics.Inthesecondpart,powerplantcycleswithemphasisontheRankinecyclearethoroughlyreviewd.Thethirdpartcoversphaseequilibriumanditsdiagram,reactions,andgasphasereactionsinvolvingpurecondensedphasesandagaseousphase. | ||||||
| 3 | 1 | COE1010 | Practical Engineering Research Initiative 1 | Extended Major | 1-0-1 | |
| nthiscourse,studentscanparticipateinresearchprojectsofprofessors.Studentwhochoseone projectsamongothersproposedbyteachermakeshis/herownspecifiedproposalforthestudy, thendotheresearchduringtheterm.Studentswillpresenthisresearchresultattheendoftheterm. Thecoursestressescreativethinkingandresearchexprience. ThecourseopenstoshopomorestoJuniorsandcanbetakennomorethan4terms. AchievementoftheclassisevaluatedwithPassorFail. | ||||||
| 3 | 1 | GEN5026 | Techno-Business Administration(Startup Capstone Design) | Compulsory General Studies | 3-3-0 | |
| Techno-business Administration is a practical and strategic course for producing techno-leaders of the New Millennium that the university pursues strategically. In this course, students will learn business process from the discovery of business items to sales through project based class. Through this, students develop entrepreneurship and collaboration ability and understand business process of enterprise through practice as well as theory. | ||||||
| 3 | 1 | NUE3035 | Radiation Shielding Design | Extended Major | 3-3-0 | |
| NUE335RadiationShieldingDesign Thiscourseintroducesconceptsandanalysistechnologyofradiationattenuation,absorption,andscatteringwithinshieldingmaterial,teachescalculationofradiationfluxdistribution,technologyofoptimumshieldingdesign,montecarlocalculationmethodandsoon,andalsoincludesunderstandingandapplicationofcomputationalcodesforshieldinganalysis.Objectsofconsiderationareallnuclearfacilitiesthatneedtoprotect,forexample,designofcoreouterassembly,analysisofhigh-levelradiationfieldwithinplant,treatmentofhigh-levelradioactivematerials,radiationfieldanalysisinstoragefacilities,designofradioactivematerialtransportcontainer,shieldinganddesignofhighenergyacceleratorandfusionreactor,etc. | ||||||
| 3 | 1 | NUE3037 | Nuclear Reactor Theory | Core Major | 3-3-0 | |
| NUE337NuclearReactorTheory Lectureisfocusedontheprinciplesofcompoundnuclearreactions,neutronchainreaction,thederivationsandapplicationsofonespeedandmulti-groupneutrondiffusionequations,analysisofcriticalreactor,numericalsolutionoftheneutrondiffusionequation,nuclearreactorkineticsforunderstandingrelationshipsbetweenreactivityandpower,etc.. | ||||||
| 3 | 1 | NUE3040 | Radiation Measurement and Application Lab. | Extended Major | 3-1-4 | |
| NUE340NuclearEngineeringLaboratory Precisionmeasurementofmassandtemperature,materialanalysis,materialtesting,andradiationcountingandmeasurementsusingGMcounter,scintillationcounter,SCAandMCA,surveytechniquesforradiationandcontaminationlevelsarepracticed. | ||||||
| 3 | 1 | NUE3061 | MOMENTUM AND HEAT TRANSFER | Core Major | 3-3-0 | |
| NUE361MOMENTUMANDHEATTRANSFER AnIntroductiontotheconservationofmass/momentum/energyandthebasicmechanismsofconduction/convection/radiationheattransfer.Thiscourseaimedforthelearningfundamentalknowledgeonheatandmasstransfer. | ||||||
| 3 | 1 | NUE3065 | Introduction to nuclear fusion and plasma engineering | Extended Major | 3-3-0 | |
| 3 | 1 | CHE3014 | Applied Thermodynamics | Core Major | 3-3-0 | |
| CHE314APPLIEDTHERMODYNAMICS Consistsofthreeparts.Thefirstpartistointroducebasicconcepts:energy,entropy,freeenergyandthelawsofengineeringthermodynamics.Inthesecondpart,powerplantcycleswithemphasisontheRankinecyclearethoroughlyreviewd.Thethirdpartcoversphaseequilibriumanditsdiagram,reactions,andgasphasereactionsinvolvingpurecondensedphasesandagaseousphase. | ||||||
| 3 | 1 | COE1010 | Practical Engineering Research Initiative 1 | Extended Major | 1-0-1 | |
| nthiscourse,studentscanparticipateinresearchprojectsofprofessors.Studentwhochoseone projectsamongothersproposedbyteachermakeshis/herownspecifiedproposalforthestudy, thendotheresearchduringtheterm.Studentswillpresenthisresearchresultattheendoftheterm. Thecoursestressescreativethinkingandresearchexprience. ThecourseopenstoshopomorestoJuniorsandcanbetakennomorethan4terms. AchievementoftheclassisevaluatedwithPassorFail. | ||||||
| 3 | 1 | GEN5026 | Techno-Business Administration(Startup Capstone Design) | Compulsory General Studies | 3-3-0 | |
| Techno-business Administration is a practical and strategic course for producing techno-leaders of the New Millennium that the university pursues strategically. In this course, students will learn business process from the discovery of business items to sales through project based class. Through this, students develop entrepreneurship and collaboration ability and understand business process of enterprise through practice as well as theory. | ||||||
| 3 | 1 | NUE3037 | Nuclear Reactor Theory | Core Major | 3-3-0 | |
| NUE337NuclearReactorTheory Lectureisfocusedontheprinciplesofcompoundnuclearreactions,neutronchainreaction,thederivationsandapplicationsofonespeedandmulti-groupneutrondiffusionequations,analysisofcriticalreactor,numericalsolutionoftheneutrondiffusionequation,nuclearreactorkineticsforunderstandingrelationshipsbetweenreactivityandpower,etc.. | ||||||
| 3 | 1 | NUE3040 | Radiation Measurement and Application Lab. | Extended Major | 3-1-4 | |
| NUE340NuclearEngineeringLaboratory Precisionmeasurementofmassandtemperature,materialanalysis,materialtesting,andradiationcountingandmeasurementsusingGMcounter,scintillationcounter,SCAandMCA,surveytechniquesforradiationandcontaminationlevelsarepracticed. | ||||||
| 3 | 1 | NUE3061 | MOMENTUM AND HEAT TRANSFER | Core Major | 3-3-0 | |
| NUE361MOMENTUMANDHEATTRANSFER AnIntroductiontotheconservationofmass/momentum/energyandthebasicmechanismsofconduction/convection/radiationheattransfer.Thiscourseaimedforthelearningfundamentalknowledgeonheatandmasstransfer. | ||||||
| 3 | 1 | NUE3065 | Introduction to nuclear fusion and plasma engineering | Extended Major | 3-3-0 | |
| 3 | 2 | COE3002 | Numerical Computation | Compulsory Major | 3-3-0 | |
| 3 | 2 | MEE3007 | Fluid Dynamics | Elective Major | 3-3-0 | |
| 3 | 2 | NUE3007 | Nuclear Chemistry | Compulsory Major | 3-3-0 | |
| 3 | 2 | NUE3009 | Nuclear Engineering 2 | Compulsory Major | 3-3-0 | |
| 3 | 2 | NUE3016 | Radiation Detection 2 | Compulsory Major | 3-3-0 | |
| 3 | 2 | NUE3057 | Nuclear Chemistry Experiment | Compulsory Major | 1-0-3 | |
| 3 | 2 | COE1013 | Practical Engineering Research Initiative 4 | Elective Major | 1-0-2 | |
| 3 | 2 | COE3002 | Numerical Computation | Compulsory General Studies | 3-3-0 | |
| 3 | 2 | NUE3004 | Radiation Detection and Management | Compulsory Major | 3-3-0 | |
| 3 | 2 | NUE3022 | Nuclear Reactor Theory 2 | Compulsory Major | 3-3-0 | |
| 3 | 2 | NUE3024 | Fusion Plasma Physics | Elective Major | 3-3-0 | |
| 3 | 2 | NUE3026 | Nuclear Materials/Chemistry Lab. | Elective Major | 1-0-2 | |
| 3 | 2 | NUE3027 | Nuclear Materials 1 | Elective Major | 3-3-0 | |
| 3 | 2 | NUE4003 | Experiment in Nuclear Reactor 1 | Compulsory Major | 1-0-2 | |
| 3 | 2 | NUE4014 | Nuclear Reactor Thermo-Hydraulics | Elective Major | 3-3-0 | |
| 3 | 2 | COE1013 | Practical Engineering Research Initiative 4 | Elective Major | 1-0-2 | |
| In this course, students can participate in research projects of professors. Student who chose one projects among others proposed by teacher makes his/her own specified proposal for the study, then do the research during the term. Students will present his research result at the end of the term. The course stresses creative thinking and research exprience. The course opens to shopomores to Juniors and can be taken no more than 4 terms. Achievement of the class is evaluated with Pass or Fail. | ||||||
| 3 | 2 | NUE2054 | Nuclear Engineering Laboratory 2 | Compulsory Major | 1-0-2 | |
| . NUE254 Nuclear Engineering Lab. 2 Characteristics of Geiger-Mueller counters; Statistics of counting; determination of half-life of simple radioactive decay; specifics of ionization of alpha particles in Au; absorption of beta particles, absorption of gamma rays, and analysis of complex radioactive decay curve; backscattering of beta particles, calibration of End-Window Geiger-Mueller counters, and activation analysis. | ||||||
| 3 | 2 | NUE3006 | NUCLEAR REACTOR MATERIALS AND SCIENCE | Elective Major | 3-3-0 | |
| NUE306 Nuclear Reactor Materials Fundamental aspects of nuclear reactor materials science are covered. Severe environments, in which nuclear reactor materials are used, are reviewed first. Then, the mechanical, physical, chemical and thermal property changes of nuclear reactor materials due to imperfect generation in the nuclear reactor are thoroughly discussed. | ||||||
| 3 | 2 | NUE3022 | Nuclear Reactor Theory 2 | Compulsory Major | 3-3-0 | |
| NUE322 Nuclear Reactor Theory 2 A continuation of NUE321 including Pn approximation, numerical methods for solving the multi-groups neutron diffusion equation, flux synthesis, neutron slowing down and thermalization. Prerequisite: Nuclear Reactor Theory 1 | ||||||
| 3 | 2 | NUE4005 | Health Physics | Elective Major | 3-3-0 | |
| NUE405 Heath Physics Radiation prerequisite and practical applications. Interaction of ionization radiation with matter. Radiation dosimetry-units and quantities (S.I units) , biological effects of ionization radiation, ICROP-recommendation of MPD (MPC), and protection against external and internal exposure. | ||||||
| 3 | 2 | NUE4014 | Nuclear Reactor Thermo-Hydraulics | Elective Major | 3-3-0 | |
| NUE414 Nuclear Reactor Thermal-Hydraulics Heat generation and distribution in the reactor core, mechanism of heat removal by coolant flow, critical thermal factor and the related theory for reactor design and boiling and two-phase flow phenomena. Also, basic fundamentals for heat transfer in reactor core and reactor thermal design. | ||||||
| 3 | 2 | NUE4016 | Numerical Methods in Nuclear Engineering Analysis | Elective Major | 3-3-0 | |
| The aim of this course is to look at computational procedures including direct and iterative solution of linear and nonlinear equations, matrices and eigenvalue calculations, function approximation by least squares, smoothing functions, and minimax approximations. | ||||||
| 3 | 2 | COE1011 | Practical Engineering Research Initiative 2 | Extended Major | 1-0-2 | |
| nthiscourse,studentscanparticipateinresearchprojectsofprofessors.Studentwhochoseone projectsamongothersproposedbyteachermakeshis/herownspecifiedproposalforthestudy, thendotheresearchduringtheterm.Studentswillpresenthisresearchresultattheendoftheterm. Thecoursestressescreativethinkingandresearchexprience. ThecourseopenstoshopomorestoJuniorsandcanbetakennomorethan4terms. AchievementoftheclassisevaluatedwithPassorFail. | ||||||
| 3 | 2 | GEN6095 | Fieldwork 2 | Extended Major | 3-0-3 | |
| Experience practical nuclear engineering at a host company of nuclear industry as an intern for 4 weeks during vacations. Credit will be given for the next semester upon successful accomplishment of the internship. | ||||||
| 3 | 2 | NUE2012 | BASIC NUCLEAR ENGINEERING LABORATORY | Extended Major | 1-0-2 | |
| NUE212BASICNUECLEARENGINEERINGLABORATORY Inordertolearnthebasicquestionengineering,thefollowingarehandled:Dataacquisition,fittinganderroranalysis.Designandconstructionofsimplediagnostics,measurementoffieldintensityandplasma,principlesofacceleratorsanddiognostics,measurementofvelocitiesofplasimaandchargedparticle,opticsexperiment. | ||||||
| 3 | 2 | NUE2055 | APPLIED MATERIALS AND SCIENCE | Core Major | 3-3-0 | |
| NUE255INTRODUCTIONTONUCLEARREACTORMATERIALSSCIENCE Electriccurrents,magneticfields;biot-Savartslawofmagnetization;Faraday'slawofinduction;time-varyingfields;Maxwell'sequationsandelectromagneticwaves. | ||||||
| 3 | 2 | NUE3037 | Nuclear Reactor Theory | Core Major | 3-3-0 | |
| NUE337NuclearReactorTheory Lectureisfocusedontheprinciplesofcompoundnuclearreactions,neutronchainreaction,thederivationsandapplicationsofonespeedandmulti-groupneutrondiffusionequations,analysisofcriticalreactor,numericalsolutionoftheneutrondiffusionequation,nuclearreactorkineticsforunderstandingrelationshipsbetweenreactivityandpower,etc.. | ||||||
| 3 | 2 | NUE3038 | Radiation Doses & Biological Effects | Core Major | 3-3-0 | |
| NUE338RadiationDosesandBiologicalEffects Conceptandquantitiesinvolvingradiationexposurearediscussedindepth.Focusedontheequivalentdose,effectivedose,committeddose,doseequivalent,andoperationalquantitiesdefinedbytheICRU.Anthropomorphicphantomsaswellasthestandardphantomfordosimetryarediscussed.AlsoinductionofDNAlesionsandrepairmechanism,deterministiceffects,stochasticeffects,andtheresultingriskofradiationexposurearecovered. | ||||||
| 3 | 2 | NUE3060 | INTRODUCTION TO PROBABILISTIC SATETY ASSESSMENTS | Core Major | 3-3-0 | |
| NUE360INTRODUCTIONTOPROBABILISTICSATETYASSESSMENTS Fundamentalconceptsandtechniquesoflevel1,2and3probabilisticriskanalysisforcomplexsystems,initialincidentandresponseofplantandoperators,extensionofaccidenteffects,safetyfunctionsandunavailabilityanalysisofsafetysystems,analysisofhumanerrors,quantificationofaccidentsequence.,etc.arediscussed. | ||||||
| 3 | 2 | NUE3063 | NUCLEAR ELECTRONICS DESIGN | Extended Major | 3-3-0 | |
| This course discusses the electric circuit design for radiation detection. The fundamental knowledges which are needed for detection of various radiations as gamma-ray, neutron, alpha and beta are obtained and detection principle will be understood. This course also discusses the dominant factors for circuit design that affect radiation detection system and improves ability of design through performance of radiation detection circuit design by themselves. | ||||||
| 3 | 2 | NUE4014 | Nuclear Reactor Thermo-Hydraulics | Core Major | 3-3-0 | |
| NUE414NuclearReactorThermal-Hydraulics Heatgenerationanddistributioninthereactorcore,mechanismofheatremovalbycoolantflow,criticalthermalfactorandtherelatedtheoryforreactordesignandboilingandtwo-phaseflowphenomena.Also,basicfundamentalsforheattransferinreactorcoreandreactorthermaldesign. | ||||||
| 3 | 2 | SYH0003 | BUSINESS LEADERSHIP | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |
| Businesss Leadership (HELP 3) program is a course for juniors, which aims to help students 1) understand principles of capitalism and market economy and learn common sense in relation to economy and finance, 2) learn principles and nature of corporations and how to develop a critical view toward them, and 3) acquire an administrative mind through self-management. | ||||||
| 3 | 2 | GEN5100 | Career Development II (Portfolio and Business model Creation) | (Compulsory) Requirement in Fundamental Studies | 1-1-0 | |
| His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan. | ||||||
| 3 | 2 | GEN6095 | Fieldwork 2 | Extended Major | 3-0-3 | |
| Experience practical nuclear engineering at a host company of nuclear industry as an intern for 4 weeks during vacations. Credit will be given for the next semester upon successful accomplishment of the internship. | ||||||
| 3 | 2 | INE4056 | RISK AND RELIABILITY ENGINEERING | Core Major | 3-3-0 | |
| NUE456RELIABILITYENGINEERING Theobjectofthiscourseistoprovideanelementaryandreasonablyself-containedoverviewofreliabilityengineeringthatissuitableforanupperlevelundergraduatecourseforstudentsofanyengineeringdiscipline.Itincludesprobability,continuousrandomvariables,qualitymeasures,distributions,reliability,loadsandcapacity,reliabilitytesting,redundancy,maintainedsystems,andsystemsafetyanalysis. | ||||||
| 3 | 2 | NUE2055 | Applied Materials Science and Engineering | Core Major | 3-3-0 | |
| NUE255INTRODUCTIONTONUCLEARREACTORMATERIALSSCIENCE Electriccurrents,magneticfields;biot-Savartslawofmagnetization;Faraday'slawofinduction;time-varyingfields;Maxwell'sequationsandelectromagneticwaves. | ||||||
| 3 | 2 | NUE2057 | Nuclear Instrumentation and Signal Processing | Extended Major | 3-3-0 | |
| Basicelectronicsprovidecircuitcharacteristicsofradiationmeasurementelectronicsandbasicconceptsofhardwaretostudentsstudyingnuclearengineeringandnuclearinstrumentation.Wediscussderivationofcurrent-voltagerelationindiodes;rectifierandfiltercircuitusingdiodes,etc.Thiscoursealsodiscussthesignalprocessingfromthenuclearinstruments. | ||||||
| 3 | 2 | NUE3038 | Radiation Doses & Biological Effects | Core Major | 3-3-0 | |
| NUE338RadiationDosesandBiologicalEffects Conceptandquantitiesinvolvingradiationexposurearediscussedindepth.Focusedontheequivalentdose,effectivedose,committeddose,doseequivalent,andoperationalquantitiesdefinedbytheICRU.Anthropomorphicphantomsaswellasthestandardphantomfordosimetryarediscussed.AlsoinductionofDNAlesionsandrepairmechanism,deterministiceffects,stochasticeffects,andtheresultingriskofradiationexposurearecovered. | ||||||
| 3 | 2 | NUE3040 | RADIATION DETECTION AND MANAGEMENT LABORATORY | Extended Major | 1-0-2 | |
| NUE340NuclearEngineeringLaboratory Precisionmeasurementofmassandtemperature,materialanalysis,materialtesting,andradiationcountingandmeasurementsusingGMcounter,scintillationcounter,SCAandMCA,surveytechniquesforradiationandcontaminationlevelsarepracticed. | ||||||
| 3 | 2 | NUE3064 | INTRODUCTION TO REACTOR SAFETY ENGINEERING | Core Major | 3-3-0 | |
| Because the study of reactor safety must necessarily cut across many scientific and engineering disciplines, it is impossible to cover any one aspect of the subject with the depth available in more specialized publications. This course needs to understand the more important phenomena such as Neutronics, heat transfer, fluid mechanics, reliability engineering and consequence analysis. This course is concerned about the engineering discipline of Heat Transfer and thermal design problem. The First Law of Thermodynamics will be reviewed: closed and open system forms required for heat transfer analysis for evaluating the reactor safety are developed. The three important modes of heat transfer: heat conduction, thermal radiation, and heat convection. In practical reactor accident problems, these modes of heat transfer usually occur simultaneously. | ||||||
| 3 | 2 | NUE4014 | Nuclear Reactor Thermo-Hydraulics | Core Major | 3-3-0 | |
| NUE414NuclearReactorThermal-Hydraulics Heatgenerationanddistributioninthereactorcore,mechanismofheatremovalbycoolantflow,criticalthermalfactorandtherelatedtheoryforreactordesignandboilingandtwo-phaseflowphenomena.Also,basicfundamentalsforheattransferinreactorcoreandreactorthermaldesign. | ||||||
| 3 | 2 | NUE4037 | Nuclear Reactor Physics | Core Major | 3-3-0 | |
| NUE437NuclearReactorPhysics Thiscourseincludesdifferentialscatteringcrosssection,neutron-nucleustwobodycollisionmechanics,compoundnucleusreactions,fissionchainreactions,neutrontransporttheoryforneutronbehavioranalysiswithinreactorcore,one-andmulti-groupneutrontransportequations,neutrondiffusionequation,neutronslowingdowntheory,calculationofneutronspectrumandgroupconstants. | ||||||
| 3 | 2 | SYH0003 | ENTREPRENEURSHIP AND BUSINESS LEADERSHIP | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |
| Businesss Leadership (HELP 3) program is a course for juniors, which aims to help students 1) understand principles of capitalism and market economy and learn common sense in relation to economy and finance, 2) learn principles and nature of corporations and how to develop a critical view toward them, and 3) acquire an administrative mind through self-management. | ||||||
| 3 | 2 | COE1011 | Practical Engineering Research Initiative 2 | Extended Major | 1-0-1 | |
| nthiscourse,studentscanparticipateinresearchprojectsofprofessors.Studentwhochoseone projectsamongothersproposedbyteachermakeshis/herownspecifiedproposalforthestudy, thendotheresearchduringtheterm.Studentswillpresenthisresearchresultattheendoftheterm. Thecoursestressescreativethinkingandresearchexprience. ThecourseopenstoshopomorestoJuniorsandcanbetakennomorethan4terms. AchievementoftheclassisevaluatedwithPassorFail. | ||||||
| 3 | 2 | GEN5100 | Career Development II (Portfolio and Business model Creation) | Compulsory General Studies | 1-1-0 | |
| His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan. | ||||||
| 3 | 2 | INE4056 | RISK AND RELIABILITY ENGINEERING | Core Major | 3-3-0 | |
| NUE456RELIABILITYENGINEERING Theobjectofthiscourseistoprovideanelementaryandreasonablyself-containedoverviewofreliabilityengineeringthatissuitableforanupperlevelundergraduatecourseforstudentsofanyengineeringdiscipline.Itincludesprobability,continuousrandomvariables,qualitymeasures,distributions,reliability,loadsandcapacity,reliabilitytesting,redundancy,maintainedsystems,andsystemsafetyanalysis. | ||||||
| 3 | 2 | NUE2012 | BASIC NUCLEAR ENGINEERING LABORATORY | Extended Major | 1-0-2 | |
| NUE212BASICNUECLEARENGINEERINGLABORATORY Inordertolearnthebasicquestionengineering,thefollowingarehandled:Dataacquisition,fittinganderroranalysis.Designandconstructionofsimplediagnostics,measurementoffieldintensityandplasma,principlesofacceleratorsanddiognostics,measurementofvelocitiesofplasimaandchargedparticle,opticsexperiment. | ||||||
| 3 | 2 | NUE2055 | Applied Materials Science and Engineering | Core Major | 3-3-0 | |
| NUE255INTRODUCTIONTONUCLEARREACTORMATERIALSSCIENCE Electriccurrents,magneticfields;biot-Savartslawofmagnetization;Faraday'slawofinduction;time-varyingfields;Maxwell'sequationsandelectromagneticwaves. | ||||||
| 3 | 2 | NUE2057 | Nuclear Instrumentation and Signal Processing | Extended Major | 3-3-0 | |
| Basicelectronicsprovidecircuitcharacteristicsofradiationmeasurementelectronicsandbasicconceptsofhardwaretostudentsstudyingnuclearengineeringandnuclearinstrumentation.Wediscussderivationofcurrent-voltagerelationindiodes;rectifierandfiltercircuitusingdiodes,etc.Thiscoursealsodiscussthesignalprocessingfromthenuclearinstruments. | ||||||
| 2 | 2 | NUE3038 | Radiation Doses & Biological Effects | Core Major | 3-3-0 | |
| NUE338RadiationDosesandBiologicalEffects Conceptandquantitiesinvolvingradiationexposurearediscussedindepth.Focusedontheequivalentdose,effectivedose,committeddose,doseequivalent,andoperationalquantitiesdefinedbytheICRU.Anthropomorphicphantomsaswellasthestandardphantomfordosimetryarediscussed.AlsoinductionofDNAlesionsandrepairmechanism,deterministiceffects,stochasticeffects,andtheresultingriskofradiationexposurearecovered. | ||||||
| 3 | 2 | NUE4014 | Nuclear Reactor Thermo-Hydraulics | Core Major | 3-3-0 | |
| NUE414NuclearReactorThermal-Hydraulics Heatgenerationanddistributioninthereactorcore,mechanismofheatremovalbycoolantflow,criticalthermalfactorandtherelatedtheoryforreactordesignandboilingandtwo-phaseflowphenomena.Also,basicfundamentalsforheattransferinreactorcoreandreactorthermaldesign. | ||||||
| 3 | 2 | NUE4014 | Nuclear Reactor Thermo-Hydraulics | Core Major | 3-3-0 | |
| NUE414NuclearReactorThermal-Hydraulics Heatgenerationanddistributioninthereactorcore,mechanismofheatremovalbycoolantflow,criticalthermalfactorandtherelatedtheoryforreactordesignandboilingandtwo-phaseflowphenomena.Also,basicfundamentalsforheattransferinreactorcoreandreactorthermaldesign. | ||||||
| 3 | 2 | NUE4037 | Nuclear Reactor Physics | Core Major | 3-3-0 | |
| NUE437NuclearReactorPhysics Thiscourseincludesdifferentialscatteringcrosssection,neutron-nucleustwobodycollisionmechanics,compoundnucleusreactions,fissionchainreactions,neutrontransporttheoryforneutronbehavioranalysiswithinreactorcore,one-andmulti-groupneutrontransportequations,neutrondiffusionequation,neutronslowingdowntheory,calculationofneutronspectrumandgroupconstants. | ||||||
| 3 | 2 | SYH0003 | ENTREPRENEURSHIP AND BUSINESS LEADERSHIP | Compulsory General Studies | 2-2-0 | |
| Businesss Leadership (HELP 3) program is a course for juniors, which aims to help students 1) understand principles of capitalism and market economy and learn common sense in relation to economy and finance, 2) learn principles and nature of corporations and how to develop a critical view toward them, and 3) acquire an administrative mind through self-management. | ||||||
| 3 | 2 | COE1011 | Practical Engineering Research Initiative 2 | Extended Major | 1-0-1 | |
| nthiscourse,studentscanparticipateinresearchprojectsofprofessors.Studentwhochoseone projectsamongothersproposedbyteachermakeshis/herownspecifiedproposalforthestudy, thendotheresearchduringtheterm.Studentswillpresenthisresearchresultattheendoftheterm. Thecoursestressescreativethinkingandresearchexprience. ThecourseopenstoshopomorestoJuniorsandcanbetakennomorethan4terms. AchievementoftheclassisevaluatedwithPassorFail. | ||||||
| 3 | 2 | GEN5100 | Career Development II (Portfolio and Business model Creation) | Compulsory General Studies | 1-1-0 | |
| His career as a wide range of knowledge and lessons learned in the previous semester plan to explore in depth the process. Employment working in the industry of major interest to seniors invited to hear the information about the industry to prepare for what you need to learn knowhow. In addition, students who already have a job that aim to visit seniors plan their careers and the skills necessary to equip determined to develop a career that any plan. | ||||||
| 3 | 2 | INE4056 | RISK AND RELIABILITY ENGINEERING | Core Major | 3-3-0 | |
| NUE456RELIABILITYENGINEERING Theobjectofthiscourseistoprovideanelementaryandreasonablyself-containedoverviewofreliabilityengineeringthatissuitableforanupperlevelundergraduatecourseforstudentsofanyengineeringdiscipline.Itincludesprobability,continuousrandomvariables,qualitymeasures,distributions,reliability,loadsandcapacity,reliabilitytesting,redundancy,maintainedsystems,andsystemsafetyanalysis. | ||||||
| 3 | 2 | NUE2012 | BASIC NUCLEAR ENGINEERING LABORATORY | Extended Major | 1-0-2 | |
| NUE212BASICNUECLEARENGINEERINGLABORATORY Inordertolearnthebasicquestionengineering,thefollowingarehandled:Dataacquisition,fittinganderroranalysis.Designandconstructionofsimplediagnostics,measurementoffieldintensityandplasma,principlesofacceleratorsanddiognostics,measurementofvelocitiesofplasimaandchargedparticle,opticsexperiment. | ||||||
| 3 | 2 | NUE2055 | Applied Materials Science and Engineering | Core Major | 3-3-0 | |
| NUE255INTRODUCTIONTONUCLEARREACTORMATERIALSSCIENCE Electriccurrents,magneticfields;biot-Savartslawofmagnetization;Faraday'slawofinduction;time-varyingfields;Maxwell'sequationsandelectromagneticwaves. | ||||||
| 3 | 2 | NUE2057 | Nuclear Instrumentation and Signal Processing | Extended Major | 3-3-0 | |
| Basicelectronicsprovidecircuitcharacteristicsofradiationmeasurementelectronicsandbasicconceptsofhardwaretostudentsstudyingnuclearengineeringandnuclearinstrumentation.Wediscussderivationofcurrent-voltagerelationindiodes;rectifierandfiltercircuitusingdiodes,etc.Thiscoursealsodiscussthesignalprocessingfromthenuclearinstruments. | ||||||
| 3 | 2 | NUE4014 | Nuclear Reactor Thermo-Hydraulics | Extended Major | 3-3-0 | |
| NUE414NuclearReactorThermal-Hydraulics Heatgenerationanddistributioninthereactorcore,mechanismofheatremovalbycoolantflow,criticalthermalfactorandtherelatedtheoryforreactordesignandboilingandtwo-phaseflowphenomena.Also,basicfundamentalsforheattransferinreactorcoreandreactorthermaldesign. | ||||||
| 3 | 2 | NUE4037 | Nuclear Reactor Physics | Core Major | 3-3-0 | |
| NUE437NuclearReactorPhysics Thiscourseincludesdifferentialscatteringcrosssection,neutron-nucleustwobodycollisionmechanics,compoundnucleusreactions,fissionchainreactions,neutrontransporttheoryforneutronbehavioranalysiswithinreactorcore,one-andmulti-groupneutrontransportequations,neutrondiffusionequation,neutronslowingdowntheory,calculationofneutronspectrumandgroupconstants. | ||||||
| 3 | 2 | SYH0003 | Love in deed and truth3(Entrepreneurship) | Compulsory General Studies | 2-2-0 | |
| Businesss Leadership (HELP 3) program is a course for juniors, which aims to help students 1) understand principles of capitalism and market economy and learn common sense in relation to economy and finance, 2) learn principles and nature of corporations and how to develop a critical view toward them, and 3) acquire an administrative mind through self-management. | ||||||
| 4 | 1 | NUE4001 | Reactor Theory 1 | Compulsory Major | 3-3-0 | |
| 4 | 1 | NUE4003 | Experiment in Nuclear Reactor 1 | Compulsory Major | 1-0-3 | |
| 4 | 1 | NUE4005 | Health Physics | Elective Major | 3-3-0 | |
| 4 | 1 | NUE4007 | Nuclear Reactor Shielding | Elective Major | 3-3-0 | |
| 4 | 1 | NUE4008 | Nuclear Reactor Chemistry | Elective Major | 3-3-0 | |
| 4 | 1 | NUE4014 | Nuclear Reactor Thermo-Hydraulics | Elective Major | 3-3-0 | |
| 4 | 1 | NUE4053 | Nuclear Fusion Engineering | Elective Major | 3-3-0 | |
| 4 | 1 | COE1014 | Practical Engineering Research Initiative 5 | Elective Major | 1-0-2 | |
| 4 | 1 | NUE2054 | Nuclear Engineering Laboratory 2 | Compulsory Major | 1-0-2 | |
| 4 | 1 | NUE3028 | Nuclear Materials 2 | Elective Major | 3-3-0 | |
| 4 | 1 | NUE4004 | Experiment in Nuclear Reactor 2 | Compulsory Major | 1-0-2 | |
| 4 | 1 | NUE4005 | Health Physics | Elective Major | 3-3-0 | |
| 4 | 1 | NUE4011 | Nuclear Reactor Safety | Elective Major | 3-3-0 | |
| 4 | 1 | NUE4016 | Numerical Methods in Nuclear Engineering Analysis | Elective Major | 3-3-0 | |
| 4 | 1 | NUE4017 | Nuclear Reactor Kinetics | Elective Major | 3-3-0 | |
| 4 | 1 | NUE4023 | Nuclear Engineering 3 | Elective Major | 3-3-0 | |
| 4 | 1 | NUE4024 | Nuclear Reactor Experiments | Compulsory Major | 1-0-2 | |
| 4 | 1 | COE1014 | Practical Engineering Research Initiative 5 | Elective Major | 1-0-2 | |
| In this course, students can participate in research projects of professors. Student who chose one projects among others proposed by teacher makes his/her own specified proposal for the study, then do the research during the term. Students will present his research result at the end of the term. The course stresses creative thinking and research exprience. The course opens to shopomores to Juniors and can be taken no more than 4 terms. Achievement of the class is evaluated with Pass or Fail. | ||||||
| 4 | 1 | NUE4011 | Nuclear Reactor Safety | Elective Major | 3-3-0 | |
| The scope of this nuclear reactor safety course includes power reactor accidents that may lead to releases of radioactive materials to the environment. Ths nuclear systems during the course of accident to prevent core damage, retain the core within the vessel if it fails, maintain the containment integrity, and minimize off-site releases are lectured. The course involves safety characteristics, quantitative risk assessment, system reliability, loss of coolant accident, cotainment pressurization, core meltdown, behavior of fission products, containment release, dispersal of radioactive materials, radiological consequences and accident management srategies. | ||||||
| 4 | 1 | NUE4017 | Nuclear Reactor Kinetics | Elective Major | 3-3-0 | |
| Types of nuclear power plants and their characteristics; thermodynamic cycle, engineered safety features and other auxiliary systems. | ||||||
| 4 | 1 | NUE4023 | Nuclear Engineering 3 | Elective Major | 3-3-0 | |
| NUE423 Nuclear Engineering 3 Special topics on heat removal from nuclear reactors, radiation protection, radiation shielding, reactor safety and the environment | ||||||
| 4 | 1 | NUE4024 | Nuclear Reactor Experiments | Compulsory Major | 1-0-2 | |
| NUE424 Nuclear Reactor Experiment This course provides experiment/practice in nuclear reactor engineering and experiment in nuclear reactor use. The first topic covered includes operating procedure of nuclear reactor, console gauge, relation between reactivity and reactor cycle, control rod calibration, power calibration, measurement of fuel temperature coefficient, measurement of critical mass, compensative effect of ion chamber, measurement of fuel ring coefficient, etc. The second includes measurement of thermal neutron flux, measurement of cadmium ratio, radioactivation analysis, isotope production, disposal of radioactive wastes, health physics experiment, etc. | ||||||
| 4 | 1 | NUE4025 | Nuclear Reactor Materials Science Laboratory | Elective Major | 1-0-2 | |
| Majou issues in nuclear reactor materials science are reviewed. Oxidation of zirconium alloys, nuclear fuel performance, nuclear fuel swelling, fission gas release, irradiation creep, radiation damage theories, and issues in thermonuclear fusion reactors are discussed. | ||||||
| 4 | 1 | NUE4026 | Applied Nuclear Reactor Materials Science | Elective Major | 3-3-0 | |
| NUE426 Applied Nuclear Reactor Materials Science Majou issues in nuclear reactor materials science are reviewed. Oxidation of zirconium alloys, nuclear fuel performance, nuclear fuel swelling, fission gas release, irradiation creep, radiation damage theories, and issues in thermonuclear fusion reactors are discussed. | ||||||
| 4 | 1 | NUE4027 | Fusion 1 | Elective Major | 3-3-0 | |
| Design of basic electronic circuits, laser diffraction, data acquisition and measurement; simple experiments to understand fluid theory and vacuum technology. | ||||||
| 4 | 1 | NUE4029 | Nuclear Chemical Engineering | Elective Major | 3-3-0 | |
| This course will cover current status of chemical engineering and industrial chemistry with special focus on recent development in the area of technologies and materials for future industries. This course ca serve as an introductory lecture for students who will be majoring chemical engineering. | ||||||
| 4 | 1 | NUE3006 | NUCLEAR REACTOR MATERIALS AND SCIENCE | Extended Major | 3-3-0 | |
| NUE306NUCLEARREACTORMATERIALS Majorissuesinnuclearreactormaterialssciencearereviewd.Oxidationofzirconiumalloys,nuclearfuelperformance,nuclearfuelswelling,fissiongasrelease,irradiationcreep,radiationdamagetheories,andissuesinthermonuclearfusionreactorsarediscussed. | ||||||
| 4 | 1 | NUE3018 | Nuclear Energy Policy | Extended Major | 3-3-0 | |
| NUE318NuclearEnergyPolicy Statusofdomesticnuclearenergyprogramsandforesight,nationalpolicytodevelopadvancednucleartechnology,nuclearsafety,nuclearroleinmitigationofclimatechange,publicrelationandacceptance,internationaltrendsandcooperationarediscussed. | ||||||
| 4 | 1 | NUE3031 | Radiation Engineering & Technologies | Extended Major | 3-3-0 | |
| NUE331ApplicationofRadioisotopesandRadiation Discussprinciplesandtechniquesappliedtoindustrialgauges,tracer,radiationanalysis,activationanalysis,radiationprocessing,andradiography.Applicationsinlifescienceandenvironmentalprotectionarealsoincluded. | ||||||
| 4 | 1 | NUE3033 | Nuclear Methods in Medical Science | Extended Major | 3-3-0 | |
| NUE333RadiationMethodsinMedicalscience Discussionsonoverallutilitiesofradiationincontemporarymedicine.Includingdiagnosticx-rays,microtronsandcyclotronsastherapybeamsourceorradioisotopegenerator,varietiesofnuclearpharmaceuticals,radio-immunotechniques,invivo/invitroanalysis,CT,andSPECT/PETsystems. | ||||||
| 4 | 1 | NUE4024 | Nuclear Reactor Experiments | Extended Major | 1-0-2 | |
| NUE424NuclearReactorExperiment Thiscourseprovidesexperiment/practiceinnuclearreactorengineeringandexperimentinnuclearreactoruse.Thefirsttopiccoveredincludesoperatingprocedureofnuclearreactor,consolegauge,relationbetweenreactivityandreactorcycle,controlrodcalibration,powercalibration,measurementoffueltemperaturecoefficient,measurementofcriticalmass,compensativeeffectofionchamber,measurementoffuelringcoefficient,etc.Thesecondincludesmeasurementofthermalneutronflux,measurementofcadmiumratio,radioactivationanalysis,isotopeproduction,disposalofradioactivewastes,healthphysicsexperiment,etc. | ||||||
| 4 | 1 | NUE4031 | Radiological Safety Assessment | Core Major | 3-3-0 | |
| NUE431RadiologicalSafetyAssessment Discussmethodologyforassessmentofexternal/internalexposurebothatworkandintheenvironmentinaccordancewithradiationprotectionphilosophy,priciplesandstandards.Engineeringjudgementfordoseprediction,behaviorofradionuclidesintheenvironment,safetyofradiationsourcesandregulatoryprotectionstandardsarealsoinvolved.Healthphysicsprogramsincludingworkplacemonitoringareintroducedwithpracticalapproches.Aprojectondesignofprotectionsystemforaradiationfacilitywillbeassigned. | ||||||
| 4 | 1 | NUE4037 | Nuclear Reactor Physics | Core Major | 3-3-0 | |
| NUE437NuclearReactorPhysics Thiscourseincludesdifferentialscatteringcrosssection,neutron-nucleustwobodycollisionmechanics,compoundnucleusreactions,fissionchainreactions,neutrontransporttheoryforneutronbehavioranalysiswithinreactorcore,one-andmulti-groupneutrontransportequations,neutrondiffusionequation,neutronslowingdowntheory,calculationofneutronspectrumandgroupconstants. | ||||||
| 4 | 1 | NUE4038 | Radiation Engineering Seminar | Extended Major | 1-0-2 | |
| NUE438RadiologicalEngineeringSeminar Currenttopicsinvolvingradiationphysics,detectionandmeasurements,applicationtechnologiesinmedicine,industry,laboratory,agricultureandbio-engineering,dating,inspection,environmentalprotectionarediscussedbystaff/invitedspeakers. | ||||||
| 4 | 1 | NUE4054 | Radiation Instruments Design | Extended Major | 3-3-0 | |
| Thiscoursediscussthedesignmethodfortheinstrumentsusingtheradiationsourceanddetectors.Thiscoursefocusesonthetechniquesoftheradiationgaugesappliedtotheindustrialprocessautomation.Thiscoursealsodiscussestheprinciplesandapplicationareasofthelevelmeasurement,densitymeasurement,determiningmaterialcompositionwithradiationinstruments,andotherindustrialapplicationsofnuclearmethods. | ||||||
| 4 | 1 | NUE4056 | CAPSTON DESIGN 1 | Extended Major | 3-0-2 | |
| Students will plan and design to solve the problems, which they can face in the real fields, based on their work experiences acquired in the undergraduate course. The topic and a specific subject will be chosen from one of the two fields in Nuclear engineering (Nuclear Reactor, Radiation Technology). | ||||||
| 4 | 1 | NUE4058 | Applied Thermal System Design for Nuclear Energy Applications | Extended Major | 3-3-0 | |
| To be updated | ||||||
| 4 | 1 | SYH0004 | SELF-LEADERSHIP | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |
| HELP(Hanyang Essential Leadership Plus) is a key program of Hanyang University for educating students who want to be future CEOs. Self Leadership(HELP4) is a leadership development online program for seniors. This program aims to foster leaders based on an analysis of an individual's strengths and weaknesses and complete the Leadership Road Map. Learning contents of Self Leardership(HELP4) incluse Self-Assessment, Self-Management and Skills to apply in Social Practices. Learning objectives of each module are as follows; Self-Assessment: Grade value of the work to do and decide priority, understand importance and meaning of manners and improve manners in social life, and understand attitudes associated with success and put them into practice. Skills to Apply in Social Practice: Define followership, understand the principles of imagination and creativity. This 16 week length course had been developed by the high-tech teaching system and online course development methods. | ||||||
| 4 | 1 | NUE3025 | Introduction to Nuclear Materials Science and Engineering | Extended Major | 3-3-0 | |
| Majorissuesinnuclearreactormaterialssciencearereviewd.Oxidationofzirconiumalloys,nuclearfuelperformance,nuclearfuelswelling,fissiongasrelease,irradiationcreep,radiationdamagetheories,andissuesinthermonuclearfusionreactorsarediscussed. | ||||||
| 4 | 1 | NUE3031 | Radiation Engineering & Technologies | Extended Major | 3-3-0 | |
| NUE331ApplicationofRadioisotopesandRadiation Discussprinciplesandtechniquesappliedtoindustrialgauges,tracer,radiationanalysis,activationanalysis,radiationprocessing,andradiography.Applicationsinlifescienceandenvironmentalprotectionarealsoincluded. | ||||||
| 4 | 1 | NUE3033 | Nuclear Methods in Medical Science | Extended Major | 3-3-0 | |
| NUE333RadiationMethodsinMedicalscience Discussionsonoverallutilitiesofradiationincontemporarymedicine.Includingdiagnosticx-rays,microtronsandcyclotronsastherapybeamsourceorradioisotopegenerator,varietiesofnuclearpharmaceuticals,radio-immunotechniques,invivo/invitroanalysis,CT,andSPECT/PETsystems. | ||||||
| 4 | 1 | NUE4024 | Nuclear Reactor Experiments | Extended Major | 1-0-2 | |
| NUE424NuclearReactorExperiment Thiscourseprovidesexperiment/practiceinnuclearreactorengineeringandexperimentinnuclearreactoruse.Thefirsttopiccoveredincludesoperatingprocedureofnuclearreactor,consolegauge,relationbetweenreactivityandreactorcycle,controlrodcalibration,powercalibration,measurementoffueltemperaturecoefficient,measurementofcriticalmass,compensativeeffectofionchamber,measurementoffuelringcoefficient,etc.Thesecondincludesmeasurementofthermalneutronflux,measurementofcadmiumratio,radioactivationanalysis,isotopeproduction,disposalofradioactivewastes,healthphysicsexperiment,etc. | ||||||
| 4 | 1 | NUE4031 | Radiological Safety Assessment | Core Major | 3-3-0 | |
| NUE431RadiologicalSafetyAssessment Discussmethodologyforassessmentofexternal/internalexposurebothatworkandintheenvironmentinaccordancewithradiationprotectionphilosophy,priciplesandstandards.Engineeringjudgementfordoseprediction,behaviorofradionuclidesintheenvironment,safetyofradiationsourcesandregulatoryprotectionstandardsarealsoinvolved.Healthphysicsprogramsincludingworkplacemonitoringareintroducedwithpracticalapproches.Aprojectondesignofprotectionsystemforaradiationfacilitywillbeassigned. | ||||||
| 4 | 1 | NUE4054 | Radiation Instruments Design | Extended Major | 3-3-0 | |
| Thiscoursediscussthedesignmethodfortheinstrumentsusingtheradiationsourceanddetectors.Thiscoursefocusesonthetechniquesoftheradiationgaugesappliedtotheindustrialprocessautomation.Thiscoursealsodiscussestheprinciplesandapplicationareasofthelevelmeasurement,densitymeasurement,determiningmaterialcompositionwithradiationinstruments,andotherindustrialapplicationsofnuclearmethods. | ||||||
| 4 | 1 | NUE4056 | CAPSTON DESIGN 1 | Extended Major | 3-0-3 | |
| Students will plan and design to solve the problems, which they can face in the real fields, based on their work experiences acquired in the undergraduate course. The topic and a specific subject will be chosen from one of the two fields in Nuclear engineering (Nuclear Reactor, Radiation Technology). | ||||||
| 4 | 1 | NUE4058 | Applied Thermal System Design for Nuclear Energy Applications | Extended Major | 3-3-0 | |
| To learn introductory design process for various nuclear science and engineering applications. Commercial Computational Fluid Dynamics (CFD) code may be utilized to achieve satisfactory design for practical application. | ||||||
| 4 | 1 | NUE4059 | APPLIED THERMAL HYDRAULICS EXPERIMENT | Extended Major | 3-1-4 | |
| This course provides experimental programs to cultivate student’s hands-on experience through the lab scale experiments of nuclear thermal hydraulics occurs in the nuclear power plant systems. Measurements of forced convective pressure drop and heat transfer, onset of nucleate boiling, critical heat flux and nucleate boiling heat transfer coefficients, and thermophysical properties of thermal fluid will be performed in the various thermodynamic conditions. Co-run by the Department of Nuclear Engineering at Seoul National University and Kyunghee University, visualization of pool boiling phase change phenomena and single- and multi-phase flow will be experimented to nourish advanced and skilled nuclear engineers who can adapt themselves easily in the related fields of nuclear industry and research. | ||||||
| 4 | 1 | SYH0004 | SELF-LEADERSHIP | (Compulsory) Requirement in Fundamental Studies | 2-2-0 | |
| SELP Leadership(HELP4) program will give students chances to look back on themselves before they enter society and to analyze their advantages and weak points to complete the road map for leadership development. This class trains prepared leaders based on analysis of personal strengths and weaknesses and helps them to complete the Leadership Road Map. | ||||||
| 4 | 1 | COE1012 | Practical Engineering Research Initiative 3 | Extended Major | 1-0-1 | |
| 4 | 1 | NUE3025 | Introduction to Nuclear Materials Science and Engineering | Extended Major | 3-3-0 | |
| Majorissuesinnuclearreactormaterialssciencearereviewd.Oxidationofzirconiumalloys,nuclearfuelperformance,nuclearfuelswelling,fissiongasrelease,irradiationcreep,radiationdamagetheories,andissuesinthermonuclearfusionreactorsarediscussed. | ||||||
| 4 | 1 | NUE3033 | Application of Medical Radiation | Extended Major | 3-2-2 | |
| Medicine is a field where nuclear energy is widely applied. This course introduces the medical application of radiation based on the understanding of the principles of radiation generated by radioactive isotopes and radiation generators. In this course, the basic principles, equipments and methods of radiation therapy are discussed. Through team projects, we will explore the latest technologies and practical clinical applications. | ||||||
| 4 | 1 | NUE4024 | Nuclear Reactor Experiments | Extended Major | 1-0-2 | |
| NUE424NuclearReactorExperiment Thiscourseprovidesexperiment/practiceinnuclearreactorengineeringandexperimentinnuclearreactoruse.Thefirsttopiccoveredincludesoperatingprocedureofnuclearreactor,consolegauge,relationbetweenreactivityandreactorcycle,controlrodcalibration,powercalibration,measurementoffueltemperaturecoefficient,measurementofcriticalmass,compensativeeffectofionchamber,measurementoffuelringcoefficient,etc.Thesecondincludesmeasurementofthermalneutronflux,measurementofcadmiumratio,radioactivationanalysis,isotopeproduction,disposalofradioactivewastes,healthphysicsexperiment,etc. | ||||||
| 4 | 1 | NUE4054 | Radiation Instruments Design | Extended Major | 3-1-4 | |
| Thiscoursediscussthedesignmethodfortheinstrumentsusingtheradiationsourceanddetectors.Thiscoursefocusesonthetechniquesoftheradiationgaugesappliedtotheindustrialprocessautomation.Thiscoursealsodiscussestheprinciplesandapplicationareasofthelevelmeasurement,densitymeasurement,determiningmaterialcompositionwithradiationinstruments,andotherindustrialapplicationsofnuclearmethods. | ||||||
| 4 | 1 | NUE4059 | APPLIED THERMAL HYDRAULICS EXPERIMENT | Extended Major | 3-1-4 | |
| This course provides experimental programs to cultivate student’s hands-on experience through the lab scale experiments of nuclear thermal hydraulics occurs in the nuclear power plant systems. Measurements of forced convective pressure drop and heat transfer, onset of nucleate boiling, critical heat flux and nucleate boiling heat transfer coefficients, and thermophysical properties of thermal fluid will be performed in the various thermodynamic conditions. Co-run by the Department of Nuclear Engineering at Seoul National University and Kyunghee University, visualization of pool boiling phase change phenomena and single- and multi-phase flow will be experimented to nourish advanced and skilled nuclear engineers who can adapt themselves easily in the related fields of nuclear industry and research. | ||||||
| 4 | 1 | NUE4062 | CAPSTON DESIGN | Extended Major | 3-0-3 | |
| To improve the research and presentation skill by Capstone design | ||||||
| 4 | 1 | SYH0004 | SELF-LEADERSHIP | Compulsory General Studies | 2-2-0 | |
| HELP(Hanyang Essential Leadership Plus) is a key program of Hanyang University for educating students who want to be future CEOs. Self Leadership(HELP4) is a leadership development online program for seniors. This program aims to foster leaders based on an analysis of an individual's strengths and weaknesses and complete the Leadership Road Map. Learning contents of Self Leardership(HELP4) incluse Self-Assessment, Self-Management and Skills to apply in Social Practices. Learning objectives of each module are as follows; Self-Assessment: Grade value of the work to do and decide priority, understand importance and meaning of manners and improve manners in social life, and understand attitudes associated with success and put them into practice. Skills to Apply in Social Practice: Define followership, understand the principles of imagination and creativity. This 16 week length course had been developed by the high-tech teaching system and online course development methods. | ||||||
| 4 | 1 | COE1012 | Practical Engineering Research Initiative 3 | Extended Major | 1-0-1 | |
| 4 | 1 | NUE3025 | Introduction to Nuclear Materials Science and Engineering | Extended Major | 3-3-0 | |
| Majorissuesinnuclearreactormaterialssciencearereviewd.Oxidationofzirconiumalloys,nuclearfuelperformance,nuclearfuelswelling,fissiongasrelease,irradiationcreep,radiationdamagetheories,andissuesinthermonuclearfusionreactorsarediscussed. | ||||||
| 4 | 1 | NUE3033 | Application of Medical Radiation | Extended Major | 3-2-2 | |
| Medicine is a field where nuclear energy is widely applied. This course introduces the medical application of radiation based on the understanding of the principles of radiation generated by radioactive isotopes and radiation generators. In this course, the basic principles, equipments and methods of radiation therapy are discussed. Through team projects, we will explore the latest technologies and practical clinical applications. | ||||||
| 4 | 1 | NUE4024 | Nuclear Reactor Experiments | Extended Major | 1-0-2 | |
| NUE424NuclearReactorExperiment Thiscourseprovidesexperiment/practiceinnuclearreactorengineeringandexperimentinnuclearreactoruse.Thefirsttopiccoveredincludesoperatingprocedureofnuclearreactor,consolegauge,relationbetweenreactivityandreactorcycle,controlrodcalibration,powercalibration,measurementoffueltemperaturecoefficient,measurementofcriticalmass,compensativeeffectofionchamber,measurementoffuelringcoefficient,etc.Thesecondincludesmeasurementofthermalneutronflux,measurementofcadmiumratio,radioactivationanalysis,isotopeproduction,disposalofradioactivewastes,healthphysicsexperiment,etc. | ||||||
| 4 | 1 | NUE4054 | Radiation Instruments Design | Extended Major | 3-1-4 | |
| Thiscoursediscussthedesignmethodfortheinstrumentsusingtheradiationsourceanddetectors.Thiscoursefocusesonthetechniquesoftheradiationgaugesappliedtotheindustrialprocessautomation.Thiscoursealsodiscussestheprinciplesandapplicationareasofthelevelmeasurement,densitymeasurement,determiningmaterialcompositionwithradiationinstruments,andotherindustrialapplicationsofnuclearmethods. | ||||||
| 4 | 1 | NUE4059 | APPLIED THERMAL HYDRAULICS EXPERIMENT | Extended Major | 3-1-4 | |
| This course provides experimental programs to cultivate student’s hands-on experience through the lab scale experiments of nuclear thermal hydraulics occurs in the nuclear power plant systems. Measurements of forced convective pressure drop and heat transfer, onset of nucleate boiling, critical heat flux and nucleate boiling heat transfer coefficients, and thermophysical properties of thermal fluid will be performed in the various thermodynamic conditions. Co-run by the Department of Nuclear Engineering at Seoul National University and Kyunghee University, visualization of pool boiling phase change phenomena and single- and multi-phase flow will be experimented to nourish advanced and skilled nuclear engineers who can adapt themselves easily in the related fields of nuclear industry and research. | ||||||
| 4 | 1 | NUE4062 | CAPSTON DESIGN | Extended Major | 3-0-3 | |
| To improve the research and presentation skill by Capstone design | ||||||
| 4 | 1 | SYH0004 | SELF-LEADERSHIP | Compulsory General Studies | 2-2-0 | |
| HELP(Hanyang Essential Leadership Plus) is a key program of Hanyang University for educating students who want to be future CEOs. Self Leadership(HELP4) is a leadership development online program for seniors. This program aims to foster leaders based on an analysis of an individual's strengths and weaknesses and complete the Leadership Road Map. Learning contents of Self Leardership(HELP4) incluse Self-Assessment, Self-Management and Skills to apply in Social Practices. Learning objectives of each module are as follows; Self-Assessment: Grade value of the work to do and decide priority, understand importance and meaning of manners and improve manners in social life, and understand attitudes associated with success and put them into practice. Skills to Apply in Social Practice: Define followership, understand the principles of imagination and creativity. This 16 week length course had been developed by the high-tech teaching system and online course development methods. | ||||||
| 4 | 2 | NUE4002 | Reactor Theory 2 | Compulsory Major | 3-3-0 | |
| 4 | 2 | NUE4004 | Experiment in Nuclear Reactor 2 | Compulsory Major | 1-0-3 | |
| 4 | 2 | NUE4006 | Nuclear Reactor Control | Elective Major | 3-3-0 | |
| 4 | 2 | NUE4009 | Isotope Application | Elective Major | 3-3-0 | |
| 4 | 2 | NUE4010 | Nuclear Reactor Design | Elective Major | 3-3-0 | |
| 4 | 2 | NUE4011 | Nuclear Reactor Safety | Elective Major | 3-3-0 | |
| 4 | 2 | PHY4014 | Plasma Physics | Elective Major | 3-3-0 | |
| 4 | 2 | COE1015 | Practical Engineering Research Initiative 6 | Elective Major | 1-0-2 | |
| 4 | 2 | NUE3018 | Nuclear Energy Policy | Elective Major | 2-2-0 | |
| 4 | 2 | NUE4008 | Nuclear Reactor Chemistry | Elective Major | 3-3-0 | |
| 4 | 2 | NUE4012 | Nuclear Fuel Management | Elective Major | 3-3-0 | |
| 4 | 2 | NUE4018 | Nuclear Reactor Design | Elective Major | 3-3-0 | |
| 4 | 2 | NUE4019 | Isotope Application | Elective Major | 3-3-0 | |
| 4 | 2 | NUE4020 | Radioactive Waste Management | Elective Major | 3-3-0 | |
| 4 | 2 | NUE4022 | Reactor Reliablity Analysis | Elective Major | 3-3-0 | |
| 4 | 2 | COE1015 | Practical Engineering Research Initiative 6 | Elective Major | 1-0-2 | |
| In this course, students can participate in research projects of professors. Student who chose one projects among others proposed by teacher makes his/her own specified proposal for the study, then do the research during the term. Students will present his research result at the end of the term. The course stresses creative thinking and research exprience. The course opens to shopomores to Juniors and can be taken no more than 4 terms. Achievement of the class is evaluated with Pass or Fail. | ||||||
| 4 | 2 | NUE4012 | Nuclear Fuel Management | Elective Major | 3-3-0 | |
| Types of nuclear power plants and their characteristics; thermodynamic cycle, engineered safety features and other auxiliary systems. | ||||||
| 4 | 2 | NUE4018 | Nuclear Reactor Design | Elective Major | 3-3-0 | |
| NUE418 Nuclear Reactor Design Elements of reactor system design, reactor materials, thermodynamics and nuclear design of nuclear power plants; thermal and fluid systems design, mechanical design, vessel and piping design and stress analysis, and fuel elements designs. | ||||||
| 4 | 2 | NUE4020 | Radioactive Waste Management | Elective Major | 3-3-0 | |
| Types, sources and characteristics of radioactive wastes; high-level waste treatment, low-level waste, treatment of fuel assembly; structural materials, treatment of waste containing volatile elements, treatment of spent fuel; shallow land disposal, and geologic disposal methods,, decontamination and decommissioning | ||||||
| 4 | 2 | NUE4021 | Fast Breeder Reactor Engineering | Elective Major | 3-3-0 | |
| Fast Breeder Reactor Engineering An undergraduate level course on the principles of fast breeder reactors, including basic physics, preliminary design considerations, neutronic analysis, dynamics, systems, and safety of fast reactors. | ||||||
| 4 | 2 | NUE4022 | Reactor Reliablity Analysis | Elective Major | 3-3-0 | |
| The object of this course is to provide an elementary and reasonably self-contained overview of reliability engineering that is suitable for an upper level undergraduate course for students of any engineering discipline. It includes probability, continuous random variables, quality measures, distributions, reliability, loads and capacity, reliability testing, redundancy, maintained systems, and system safety analysis. | ||||||
| 4 | 2 | NUE4028 | Fusion 2 | Elective Major | 3-3-0 | |
| Characteristics of Geiger-Mueller counters; Statistics of counting; determination of half-life of simple radioactive decay; specifics of ionization of alpha particles in Au; absorption of beta particles, absorption of gamma rays, and analysis of complex radioactive decay curve; backscattering of beta particles, calibration of End-Window Geiger-Mueller counters, and activation analysis. | ||||||
| 4 | 2 | GEN3058 | Engineering Economy | Core Major | 3-3-0 | |
| GEN358ENGINEERINGECONOMY Thissubjectisdesignedtointroducestudentstotheconceptsandmethodsnecessary forestimatingvaluesofsystems,products,andservicesinrelationtothecost.This subjectleadsstudentsbothtounderstandimportanceoftheeconomicpointofviewof engineeringalsotogetproficientinvaluatingtheeconomicalefficiencyofengineering proposal. | ||||||
| 4 | 2 | NUE4010 | Nuclear Reactor Design | Extended Major | 3-3-0 | |
| hiscourseincludesthetopicswhichisnecessaryforanoptimaldesignofanuclearreactor.Thetopicsincludethestructureofareactorcore,thesensitivityanalysisofcoredesignparameters,reactivitycontrol,powerdistributionanalysis,nucleardataanalysis,criticalbucklinganalysis,cellcalculation,thermalhydraulicanalysis,burn-upcalculation,loadfollowingoperation,andapplicationofcoreanalysiscodes.Thecoursealsoincludesaterm-projectforareactordesign,inwhichthestudentsdesignareactorwithaspecifictype,thermalpower,andlimitingtemperature. | ||||||
| 4 | 2 | NUE4011 | Nuclear Reactor Safety | Extended Major | 3-3-0 | |
| NUE411NUCLEARREACTORSAFETY Forsafetyassuranceofcomplexsystemssuchasnuclearpowerplants,multibarrierdefence,singlefailurecriterion,humanfactor,man-machineinterface,systematicfactors,safetyculture,qualitativeandquantitativesafetygoals,andsafetyregulationarediscussed.Safetymanagementsincludingtherisk,accidentandemergencymanagementsarealsodiscussed. | ||||||
| 4 | 2 | NUE4034 | Nuclear Radwaste Technology | Extended Major | 3-3-0 | |
| NUE434NUCLEARRADWASTETECHNOLOGY Types,sourcesandcharacteristicsofradioactivewastes;high-levelwastetreatment,low-levelwaste,treatmentoffuelassembly;structuralmaterials,treatmentofwastecontainingvolatileelements,treatmentofspentfuel;shallowlanddisposal,andgeologicdisposalmethods,,decontaminationanddecommissioning. | ||||||
| 4 | 2 | NUE4040 | Radiological Imaging | Extended Major | 3-3-0 | |
| NUE440RadiologicalImaging Principlesofimageformationandprocessing,analoganddigitalimage,transformationandreconstruction,conceptofMTFandpixel,qualityofimagearediscussed.Focusedonmedicalimaging,Specialtechniquestoimproveimagequalityandtoreducepatientdosesinmedicalradiographyarealsoincluded. | ||||||
| 4 | 2 | NUE4041 | Nuclear Energy Seminar | Extended Major | 1-1-0 | |
| NUE441NuclearEnergySeminar Currenttopicsonnuclearenergy,maybegeneralorspecific,nuclearsafety,reactorengineering,andnuclearweaponsandsafeguardarediscussedbystaff/invitedspeaker. | ||||||
| 4 | 2 | NUE4055 | NUCLEAR FUSION AND PLASMA ENGINEERING | Extended Major | 3-3-0 | |
| This course deals with fundamental principles of plasma physics, plasma fusion technology, and plasma chemistry and processing for senior students majoring nuclear engineering to understand the thermonuclear fusion power that is regarded as an emerging future energy source and plasma technologies that have been extensively utilized in many engineering industry nowadays. | ||||||
| 4 | 2 | NUE4057 | CAPSTON DESIGN 2 | Extended Major | 3-0-2 | |
| Students will plan and design to solve the problems, which they can face in the real fields, based on their work experiences acquired in the undergraduate course. The topic and a specific subject will be chosen from one of the two fields in Nuclear engineering (Nuclear Reactor, Radiation Technology). | ||||||
| 4 | 2 | NUE4059 | APPLIED THERMAL HYDRAULICS EXPERIMENT | Extended Major | 3-1-4 | |
| To be updated | ||||||
| 4 | 2 | GEN3058 | Engineering Economy | Core Major | 3-3-0 | |
| GEN358ENGINEERINGECONOMY Thissubjectisdesignedtointroducestudentstotheconceptsandmethodsnecessary forestimatingvaluesofsystems,products,andservicesinrelationtothecost.This subjectleadsstudentsbothtounderstandimportanceoftheeconomicpointofviewof engineeringalsotogetproficientinvaluatingtheeconomicalefficiencyofengineering proposal. | ||||||
| 4 | 2 | NUE3018 | Nuclear Energy Policy | Extended Major | 3-3-0 | |
| NUE318NuclearEnergyPolicy Statusofdomesticnuclearenergyprogramsandforesight,nationalpolicytodevelopadvancednucleartechnology,nuclearsafety,nuclearroleinmitigationofclimatechange,publicrelationandacceptance,internationaltrendsandcooperationarediscussed. | ||||||
| 4 | 2 | NUE4010 | Nuclear Reactor Design | Extended Major | 3-3-0 | |
| hiscourseincludesthetopicswhichisnecessaryforanoptimaldesignofanuclearreactor.Thetopicsincludethestructureofareactorcore,thesensitivityanalysisofcoredesignparameters,reactivitycontrol,powerdistributionanalysis,nucleardataanalysis,criticalbucklinganalysis,cellcalculation,thermalhydraulicanalysis,burn-upcalculation,loadfollowingoperation,andapplicationofcoreanalysiscodes.Thecoursealsoincludesaterm-projectforareactordesign,inwhichthestudentsdesignareactorwithaspecifictype,thermalpower,andlimitingtemperature. | ||||||
| 4 | 2 | NUE4011 | Nuclear Reactor Safety | Extended Major | 3-3-0 | |
| NUE411NUCLEARREACTORSAFETY Forsafetyassuranceofcomplexsystemssuchasnuclearpowerplants,multibarrierdefence,singlefailurecriterion,humanfactor,man-machineinterface,systematicfactors,safetyculture,qualitativeandquantitativesafetygoals,andsafetyregulationarediscussed.Safetymanagementsincludingtherisk,accidentandemergencymanagementsarealsodiscussed. | ||||||
| 4 | 2 | NUE4034 | Nuclear Radwaste Technology | Extended Major | 3-3-0 | |
| NUE434NUCLEARRADWASTETECHNOLOGY Types,sourcesandcharacteristicsofradioactivewastes;high-levelwastetreatment,low-levelwaste,treatmentoffuelassembly;structuralmaterials,treatmentofwastecontainingvolatileelements,treatmentofspentfuel;shallowlanddisposal,andgeologicdisposalmethods,,decontaminationanddecommissioning. | ||||||
| 4 | 2 | NUE4040 | Radiological Imaging | Extended Major | 3-3-0 | |
| NUE440RadiologicalImaging Principlesofimageformationandprocessing,analoganddigitalimage,transformationandreconstruction,conceptofMTFandpixel,qualityofimagearediscussed.Focusedonmedicalimaging,Specialtechniquestoimproveimagequalityandtoreducepatientdosesinmedicalradiographyarealsoincluded. | ||||||
| 4 | 2 | NUE4055 | NUCLEAR FUSION AND PLASMA ENGINEERING | Extended Major | 3-3-0 | |
| This course deals with fundamental principles of plasma physics, plasma fusion technology, and plasma chemistry and processing for senior students majoring nuclear engineering to understand the thermonuclear fusion power that is regarded as an emerging future energy source and plasma technologies that have been extensively utilized in many engineering industry nowadays. | ||||||
| 4 | 2 | NUE4057 | CAPSTON DESIGN 2 | Extended Major | 3-0-3 | |
| Students will plan and design to solve the problems, which they can face in the real fields, based on their work experiences acquired in the undergraduate course. The topic and a specific subject will be chosen from one of the two fields in Nuclear engineering (Nuclear Reactor, Radiation Technology). | ||||||
| 4 | 2 | COE1013 | Practical Engineering Research Initiative 4 | Extended Major | 1-0-1 | |
| 4 | 2 | NUE4011 | Nuclear Reactor Safety | Extended Major | 3-1-4 | |
| NUE411NUCLEARREACTORSAFETY Forsafetyassuranceofcomplexsystemssuchasnuclearpowerplants,multibarrierdefence,singlefailurecriterion,humanfactor,man-machineinterface,systematicfactors,safetyculture,qualitativeandquantitativesafetygoals,andsafetyregulationarediscussed.Safetymanagementsincludingtherisk,accidentandemergencymanagementsarealsodiscussed. | ||||||
| 4 | 2 | NUE4034 | Nuclear Radwaste Technology | Extended Major | 3-3-0 | |
| NUE434NUCLEARRADWASTETECHNOLOGY Types,sourcesandcharacteristicsofradioactivewastes;high-levelwastetreatment,low-levelwaste,treatmentoffuelassembly;structuralmaterials,treatmentofwastecontainingvolatileelements,treatmentofspentfuel;shallowlanddisposal,andgeologicdisposalmethods,,decontaminationanddecommissioning. | ||||||
| 4 | 2 | NUE4060 | Introduction to Nuclear Safety and Safety Related Laws | Core Major | 3-3-0 | |
| 4 | 2 | NUE4060 | Introduction to Nuclear Safety and Safety Related Laws | Core Major | 3-3-0 | |
| 4 | 2 | NUE4064 | Design of nuclear fusion reactors | Extended Major | 3-2-2 | |
| To generate electricity using nuclear fusion reactions, it requires designing a system, which is composed of many physics/engineering components. Through this subject, students learn the fundamental knowledge of fusion reactor and design several parts of the reactor based on the knowledge. The constraints of the nuclear fusion reactor design are based on either physics or engineering. The physics constraints are given by the knowledge of magneto-hydrodynamics (MHD),transport, and heating and current drive. In the class, students participate in the design examples using the physics knowledge, For the engineering constraints, students learn coils, blankets, divertor, plasma facing materials, tritium breeding in the reactors. Finally, as a team project, each component design is combined for the integrated system design, and the results of the final design will be presented in the class. | ||||||
| 4 | 2 | NUE4065 | Electrochemical corrosion in Nuclear Materials | Extended Major | 3-3-0 | |
| Electrochemical reactions are closely linked to several critical features of the modern industrial era, including corrosion, batteries and fuel cells. Nuclear materials undergo complex electrochemical reactions depending on the temperature, chemical environment, stress-state and chemical composition. Such electrochemical reactions deteriorate the structural and fuel components of nuclear reactors, often causing detrimental effect on its lifetime. In this course, we study the thermodynamics driving force behind electrochemical reactions and their chemical reaction kinetics. We will then apply these to various corrosion mechanisms including crevice corrosion, pitting corrosion, galvanic corrosion and stress corrosion cracking. The course will also discuss strategies to prevent or delay corrosion-induced structural degradation and applied electrochemical devices such as batteries and fuel cells. | ||||||
| 4 | 2 | COE1013 | Practical Engineering Research Initiative 4 | Extended Major | 1-0-1 | |
| 4 | 2 | NUE4011 | Nuclear Reactor Safety | Extended Major | 3-1-4 | |
| NUE411NUCLEARREACTORSAFETY Forsafetyassuranceofcomplexsystemssuchasnuclearpowerplants,multibarrierdefence,singlefailurecriterion,humanfactor,man-machineinterface,systematicfactors,safetyculture,qualitativeandquantitativesafetygoals,andsafetyregulationarediscussed.Safetymanagementsincludingtherisk,accidentandemergencymanagementsarealsodiscussed. | ||||||
| 4 | 2 | NUE4034 | Nuclear Radwaste Technology | Extended Major | 3-3-0 | |
| NUE434NUCLEARRADWASTETECHNOLOGY Types,sourcesandcharacteristicsofradioactivewastes;high-levelwastetreatment,low-levelwaste,treatmentoffuelassembly;structuralmaterials,treatmentofwastecontainingvolatileelements,treatmentofspentfuel;shallowlanddisposal,andgeologicdisposalmethods,,decontaminationanddecommissioning. | ||||||
| 4 | 2 | NUE4060 | Introduction to Nuclear Safety and Safety Related Laws | Extended Major | 3-3-0 | |
| 4 | 2 | NUE4064 | Design of nuclear fusion reactors | Extended Major | 3-2-2 | |