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College of Engineering

School of Chemical Engineering

Major

  • Major of Polymer & Biomaterials
  • Major of Chemical Engineering Systems
  • Chemical Engineering for Convergence
  • Chemical Engineering For Energy

Introduction

School of Chemical Engineering concentrates on educating students to make professionals required in the display industries, which are now the nation's most important industries, chemical, IT·energy and Biomaterial. For meeting these requirements, school of chemical engineering established four majors, which are Major of Polymer & Biomaterials, Major of Chemical Engineering Systems, Chemical Engineering for Convergence and Chemical Engineering for energy.

The school is currently composed of twenty seven full-time professors, three honorary professors, sixteen international research professors, seven adjunct professors and six staffs. Their job is to train students to make ready-to-work engineers for the chemical, IT·energy, bio materials, and display industries as well as other conventional chemical and materials-related industries.

All these efforts resulted in the Korea's first engineering education program accredited by ABEEK (Accreditation Board for Engineering Education of Korea) in 2001. Since then, a lot of students have been educated in the most upgraded Korean engineering education system. Since 2007, graduates from this ABEEK program are acknowledged internationally in the most developed countries. Therefore, the door is wide open for them to prominent Korean or international companies. Furthermore, in 2004, this school was selected as one of the Korean Government-supported New University Regional Innovation(NURI) programs, receiving one billion won each year for the last five years to support the regional display industry technically and to supply well-trained engineers. More than 40% of students have been recipients of scholarships and the educational equipments and facilities have been upgraded to become one of the most prominent chemical engineering departments in the nation. In 2009, the school became the axis of four-departments coalition and was selected as the Green Energy Leading Regional-Industry Research and Education Center.

School of Chemical Engineering has achieved a lot of goals not only in its undergraduate program but also in its graduate program. About 86 graduate students including both M.S. and Ph.D. courses are studying in various research fields. The graduate program of the school has also made a rapid progress by being selected as the Korean Government-supported 2nd stage Brain Korea 21st Century (BK21) program on display materials(2006~2013) and BK21 Plus program on IT·energy materials and processing(2013~2020). About 33% of the graduate students are from abroad and about 61% of graduate courses are being taught in English. Note that all the full-time students receive a full scholarship. Research covers every state-of-the-art technologies closely related to NT, IT, ET and BT which are expected to lead the 21st century.

This school was established as the Department of Applied Chemistry in Daegu University (one predecessor of Yeungnam University) in 1947, which was the second time in chemical engineering (or similar) department in Korea. In 1967, it became the Department of Chemical Engineering. From it the Department of Applied Chemistry (later Department of Industrial Chemistry) was separated but was unified into School of Chemical Engineering and Technology in 1996, which was re-named to School of Chemical Engineering in 2004. For more than 60 years, it has graduated more than 6,000 students, forming an axis of chemical engineering in Korea.

Job Fields

Display and green energy materials, IT and Bio materials, parts, elements, processes, process equipments, production, production management, quality control, environments/clean technologies, information-electronics materials and other new materials, polymers, energy, compound resins, compound fibers, plant engineering, petroleum and petrochemical industry, pharmaceuticals, foods, glasses, gun powder, dyes, paints, refined oil, etc.

Faculty

※ sorted by the position and Korean name

Curriculum

School Of Chemical Engineering

Curriculum
1-1
CALCULUS I
Calculus(1) covers the following: Sequences, limits and continuity of functions of single variable, derivatives, properties of derivatives, differentiation rules, higher order derivatives, applications of derivatives, definite integrals, indefinite integrals, properties of integrals, integration rules, applications of integrals, infinite series power series.
1-1
GENERAL CHEMISTRY EXPERIMENT(I)
This is a laboratory course for the General Chemistry (1). Experience of the laboratory increases the ability of the application of the chemistry.
1-1
GENERAL CHEMISTRY I
The General Chemistry(I) introduces the basic concepts of the properties, constitution, structure and the reaction of matters, which is essential in modern chemistry, physics, biology and engineering.
1-1
GENERAL PHYSICS I
Introduces classical mechanics. Space and time: straight-line kinematics; motion in a plane; forces and equilibrium; experimental basis of Newton's laws; particle dynamics; universal gravitation; collisions and conservation laws; work and potential energy; vibrational motion; conservative forces; inertial forces and non-inertial frames; central force motions; rigid bodies and rotational dynamics.
1-1
GENERAL PHYSICS LABORATORY I
This course is designed to introduce the basic experiments in general physics. This course includes physical experiments related to classical mechanics ; Projectile Motion, Free Fall, Borda's Pendulum, Air Track, Resonance Tube App, force Table, Centripetal Force, Torsional Rigidity Pendulum
1-1
SEMINAR FOR ACADEMIC LIFE
1. Summary of the course This course is to assist university freshmen in CRM designing to adapt university life well through the instruction and counselling of supervising professor. (This course is composed of self analysis, personality type test, career research, instruction for the success of university life, career plan and direction setting, CRM designing method and CRM designing. The course should be teaching in classes of the students by supervising professor.) 2. Course objectives This course is to motivate the students before the mid term exam and provide students with self analysis, personality type test (MBTI or TCI) and career research (YAT test). Also, this course shall has a plan to instruct the students to enhance the efficiency of university life through career and time management. In addition, this course is to make a chance for the students to have practical assistance to university life by providing study method, report designing strategy and the information on academic system and various kinds of internal programs of the university. After the mid term exam, the students will be instructed to set the direction of career designing through continuous counselling of supervising professor and the students will be able to establish CRM designing and execution plan.
1-1
SOFTWARE AND AI
Software and AI (Artificial Intelligence) course aims to educate the basic concepts of software and computational thinking to use them in various applications. It allows students of various majors to experience the core technologies of the 4th industrial revolution, such as big data, machine learning, and AI. It also introduces various applications of AI so that students can easily apply these technologies to their field of study. This course classifies the lecture types into three categories, and adjust the lecture difficulty according to the student's academic ability.
1-2
GENERAL CHEMISTRY EXPERIMENT(Ⅱ)
This is a laboratory course for the General Chemistry (2). Experience of the laboratory increases the ability of the application of the chemistry.
1-2
GENERAL PHYSICS LABORATORY Ⅱ
This course is designed to introduce the basic experiments in general physics. This course includes physical experiments related to electromagnetism ; Electromotive Force, Coulomb's Law, Equipotential Line, Inductance of Solenoid, Velocity of Light, Current Balance, Magnetic Field of Single Coil, Magnetic Field of straight Conductor.
1-2
PYTHON PROGRAMMING
The core competencies required in the era of the Fourth Industrial Revolution is the ability to come up with idea for solving a given problem and realize it in software. In this course, as the first step this, we will learn Python programming language. This course aims to cultivate basic programming skills and problem-solving skills based on creative thinking. The topics covered in this course are as follows. - Python language grammar (basic and advanced levels) - Python library for GUI programming (tkinter) - Python library for image processing (pillow) - Python libraries for data analysis (Matplotlib, Numpy, and Pandas)
1-2
SOCIAL CONTRIBUTION AND SERVICE
This course is to cultivate community sense as members of society and the global village for students in order to develop the basic knowledge required as global citizens. Especially, this course is to foster the spirit of cooperation, sharing, service, and creativity and study the social contribution and leadership to solving the challenges the global community faces. As a liberal arts course, it is centered to nurture a leader having the global capability to contribute to community development through learning the knowledge and the case on the value & logic of social responsibility focused on environmental preservation, social contribution, and good governance(ESG). This course aims to foster a generous mind, learn knowledge and technology and build the capacity to contribute to building a society towards a safer and happier world through the study of theory and practice.
1-2
SPECIALIZED ACADEMIC ENGLISH
The aim of the course is to help students increase their fluency and accuracy in English. The course will be co-taught by Korean and Native English instructors. Korean instructors will provide students with an opportunity to practice English structure, vocabulary, and expressions, and students will be encouraged to enhance their verbal skills by actively participating in classroom activities. Students will further practice expressing themselves in English with native English instructors.
1-2
INTRODUCTION TO CHEMICAL PROCESS FUNDAMENTALS & DESIGN
The objective of this class is to introduce the fields and methodologies of chemical engineering discipline to the newcomers of the school of chemical engineering and technology and the students majoring in other engineering. this class emphasizes the chemical engineering principles in treating the industrial problems with illustrated simple examples, thus the students will have clear picture after this class in choosing their majors and future advanced classes.

Major Of Polymer & Biomaterials

Curriculum
2-1
MATERIAL SCIENCE
Molecules structure, solid structure and material's physicochemical analysis of organic and inorganic materials are is basic knowledge in materials science. Polymers characters will be clearly understood.
2-1
MOLECULAR BIOLOGY
Molecular biology is the branch of biology that deals with the molecular basis of biological activity. This field overlaps with other areas of biology and chemistry, particularly genetics and biochemistry. Molecular biology chiefly concerns itself with understanding the interactions between the various systems of a cell, including the interactions between the different types of DNA, RNA and protein biosynthesis as well as learning how these interactions are regulated.
2-1
ANALYTICAL CHEMISTRY
Basic theories for qualitative and quantitative analysis, evaluation for analysis results, extraction and separation analyses, chromatography, and the analytical procedure for organic materials will be studied.
2-1
ENGINEERING MATHEMATICS I
Explain the most important standard methods for solving differential equations(DE). Particular attention to the derivation of DE from given physical situations Ordinary Differential Equations, Systems of Differential Equations, Series Solutions of Differential Equations, Laplace Transforms and Its Applications.
2-1
ORGANIC CHEMISTRY I
Organic chemistry (1) is one of the required subjects in the program. As prerequisite course for dyeing chemistry, textile chemistry, and polymer chemistry, organic chemistry deals with the moleculer structure, reactions, and properties of organic compounds.
2-2
BIOLOGICAL CHEMISTRY
Biochemistry is the study of chemical processes in living organisms, including living matter. Much of biochemistry deals with the structures and functions of cellular components such as proteins, carbohydrates, lipids, nucleic acids and other biomolecules ?although increasingly processes rather than individual molecules are the main focus.
2-2
EXPERIMENTAL DESIGN
The experimental design related with polymer materials and process is studied in this course, which includes experimental design such as a single factor, randomized complete block designs, and factorial designs.
2-2
POLYMERS AND BIOMATERIALS BASIC LABORTORY
Basic experiments required for understanding of polymers and biomaterials are lectured and practiced in the laboratory : the synthesis of organic molecules, polymers, and the characterization of their various properties.
2-2
POLYMERS IN LIFE
Polymeric bio-material major starts many subjects related to macromolecules in the third grade due to the academic speciality, and students lack basic knowledge of polymers, which makes the students difficult to understand the major in depth. In order to solve these fundamental problems, The major opened “Polymers in Life” as a subject to introduce the general contents related to macromolecules in the second semester of the second year. This course teaches the definition of polymers and how macromolecules are made, the difference in their properties, the simple method of analyzing various thermo-chemicals of macromolecules, as well as the physical properties of polymers what they are used for in everyday life.
2-2
UNIT OPERATION
This lecture covers history and practice of unit operations in chemical engineering. Unit operations include a physical change or chemical transformation such as separation, crystallization, evaporation, filtration, polymerization, and other reactions and/or processes.
2-2
MATERIALS INTERFACE CHEMISTRY
In this course, the basic theory of surface chemistry and colloid systems are introduced and various interfacial phenomena are studied with emphasis on the organic materials applications.
2-2
ORGANIC CHEMISTRY Ⅱ
This lecture is for the students who have taken Organic Chemistry (1) course. Properties and synthesizing methods for organic materials will be taught via selected experiments. Students will practice techniques of identifying organic functional groups and handling glasswares and instruments.
2-2
PHYSICAL CHEMISTRY
Physical chemistry which treats the fundamental principles of chemistry is requisite for getting a deep insight into the chemistry. This subject is divided into two parts Ⅰ and II, and the main contents of physical chemistry I are as follows: properties of gas, thermodynamics, chemical equilibrium, solutions, electrochemistry, etc.
2-2
PHYSICAL PROPERTIES OF POLYMERS
Introduce theories about the interrelationship among the polymer structure, physical properties, and useful behavior. This course covers chain structure and configuration, polymer morphology, amorphous and crystalline state structure, polymer solution and phase behavior, transition behavior.

Major Of Chemical Engineering Systems

Curriculum
2-1
ANALYTICAL CHEMISTRY LABORATORY Ⅰ
Basic experiments required for understanding of analytical chemistry are lectured and practiced in the laboratory : quantitative, qualitative, titration, product analysis, etc.
2-1
ENGINEERING MATHEMATICS I
Analytical methods for ordinary differential equations in engineering, Laplace transformation, vector and matrix.
2-1
MASS BALANCE
Basic principles and calculations of mass balances in chemical processes. Introduction to engineering calculations, process variables, process data representation and analysis, fundamentals of mass balances, single-phase system, and multiphase systems.
2-1
ORGANIC CHEMISTRY I
This course introduces basic theories and principles of organic chemistry. This class deals with structure and bonding, polar covalent bonding, stereochemistry, principles and outlines of organic reactions, reactions of alkenes and alkenes, and organic radical compounds.
2-1
PHYSICAL CHEMISTRY
Physical chemistry which treats the fundamental principles of chemistry is requisite for getting a deep insight into the chemistry. This subject is divided into two parts Ⅰ and II, and the main contents of physical chemistry I are as follows: properties of gas, thermodynamics, chemical equilibrium, solutions, electrochemistry, etc.
2-2
ENGINEERING MATH AND COMPUTER PACKAGE LABORATORY
This course teaches the way to solve the engineering problems via mathematical methods and students can get the ability of logical way of thought. It is a series course with the course of Engineering Mathematics which will be offered at every the first semester. It is composed with the remaining part of the subjects after the first semesters of Engineering Mathematics and the symbolic mathematical solving methods with computer. We may use the Mathematic or Maple as the course ware and the comprarison procedures between analytic and computational solutions also should be included in this course.
2-2
ORGANIC CHEMISTRY Ⅱ
This course will cover properties and reactions of more important organic compounds, with application to reaction mechanisms.
2-2
QUANTUM CHEMISTRY
Physical chemistry which treats the fundamental principles of chemistry is requisite for getting a deep insight into the chemistry. This subject is divided into two parts, I and II, and the main contents of physical chemistry II are as follows :atomic structure, chemical bonding, group theory, spectroscopy, chemical kinetics, statistical thermodynamics, etc.
2-2
ANALYTICAL CHEMISTRY LABORATORY Ⅱ
The purpose of this subject is to study the method of manipulating various instruments used in the research of physical chemistry and to know the chemical principles through the experiment.
2-2
ENERGY BALANCE
This course prepares the student to fomulate and solve energy balances on chemical process systems and lays the foundation for sequent courses in thermodynamics, unit operation, and kinetics. Finally, The case study introduce the common engineering discipline of starting with large, multifaced problem and systematically building up the blend of information and technique needed to solve it.
2-2
FLUID MECHANICS IN CHEMICAL ENGINEERING
Fluid Mechanics is one of the basic courses in Chemical Engineering and necessary to understand separation processes, reaction engineering, plant design, and etc. In this course static and flow properties of the fluid and their mathematical analysis will be discussed and be applied to the problems occurring in real chemical engineering processes.

Major Of Chemical Engineering For Convergence

Curriculum
2-1
ANALYTICAL CHEMISTRY LABORATORY Ⅰ
Basic experiments required for understanding of analytical chemistry are lectured and practiced in the laboratory : quantitative, qualitative, titration, product analysis, etc.
2-1
ENGINEERING MATHEMATICS I
Analytical methods for ordinary differential equations in engineering, Laplace transformation, vector and matrix.
2-1
MASS BALANCE
Basic principles and calculations of mass balances in chemical processes. Introduction to engineering calculations, process variables, process data representation and analysis, fundamentals of mass balances, single-phase system, and multiphase systems.
2-1
ORGANIC CHEMISTRY I
This course will cover the elementary principles of organic chemistry, including structure, properties, stereo-chemistry, and reaction of organic compounds.
2-1
PHYSICAL CHEMISTRY
Physical chemistry which treats the fundamental principles of chemistry is requisite for getting a deep insight into the chemistry. This subject is divided into two parts Ⅰ and II, and the main contents of physical chemistry I are as follows: properties of gas, thermodynamics, chemical equilibrium, solutions, electrochemistry, etc.
2-2
ORGANIC CHEMISTRY Ⅱ
This course will cover properties and reactions of more important organic compounds, with application to reaction mechanisms.
2-2
QUANTUM CHEMISTRY
Physical chemistry which treats the fundamental principles of chemistry is requisite for getting a deep insight into the chemistry. This subject is divided into two parts, I and II, and the main contents of physical chemistry II are as follows :atomic structure, chemical bonding, group theory, spectroscopy, chemical kinetics, statistical thermodynamics, etc.
2-2
SOLID STATE CHEMISTRY
A variety of advanced materials are being developed in inorganic solids, and the related technology is becoming a leading technology in the chemical engineering field. This class emphasizes the fundamental principles of the solid state chemistry, and it covers the topics including the structures and bounding in solids, the physical and thermodynamic properties of solids, and the characterization techniques of solids.
2-2
ANALYTICAL CHEMISTRY LABORATORY Ⅱ
The purpose of this subject is to study the method of manipulating various instruments used in the research of physical chemistry and to know the chemical principles through the experiment.
2-2
ENERGY BALANCE
This course prepares the student to fomulate and solve energy balances on chemical process systems and lays the foundation for sequent courses in thermodynamics, unit operation, and kinetics. Finally, The case study introduce the common engineering discipline of starting with large, multifaced problem and systematically building up the blend of information and technique needed to solve it.
2-2
ENGINEERING MATH AND COMPUTER PACKAGE LABORATORY
This course teaches the way to solve the engineering problems via mathematical methods and students can get the ability of logical way of thought. It is a series course with the course of Engineering Mathematics which will be offered at every the first semester. It is composed with the remaining part of the subjects after the first semesters of Engineering Mathematics and the symbolic mathematical solving methods with computer. We may use the Mathematic or Maple as the course ware and the comprarison procedures between analytic and computational solutions also should be included in this course.
2-2
FLUID MECHANICS IN CHEMICAL ENGINEERING
Fluid Mechanics is one of the basic courses in Chemical Engineering and necessary to understand separation processes, reaction engineering, plant design, and etc. In this course static and flow properties of the fluid and their mathematical analysis will be discussed and be applied to the problems occurring in real chemical engineering processes.

Major Of Chemical Engineering For Energy

Curriculum
2-1
GREEN ENERGY ENGINEERING
This subject covers the fundamental information concerning green energy technology, including the introduction of green energy, resources of energy and its supply & demand, fossil fuel and its environmental effect, nuclear energy, photovoltaics, fuel cell, battery and C1 chemistry. The objectives are as follows: (1) Explore the current energy resources and environmental effects. (2) Introduce the solar cells and their operation principle.
2-1
ANALYTICAL CHEMISTRY LABORATORY Ⅰ
Basic experiments required for understanding of analytical chemistry are lectured and practiced in the laboratory : quantitative, qualitative, titration, product analysis, etc.
2-1
ENGINEERING MATHEMATICS I
Analytical methods for ordinary differential equations in engineering, Laplace transformation, vector and matrix.
2-1
MASS BALANCE
Basic principles and calculations of mass balances in chemical processes. Introduction to engineering calculations, process variables, process data representation and analysis, fundamentals of mass balances, single-phase system, and multiphase systems.
2-1
ORGANIC CHEMISTRY I
This course will cover the elementary principles of organic chemistry, including structure, properties, stereo-chemistry, and reaction of organic compounds.
2-1
PHYSICAL CHEMISTRY
Physical chemistry which treats the fundamental principles of chemistry is requisite for getting a deep insight into the chemistry. This subject is divided into two parts Ⅰ and II, and the main contents of physical chemistry I are as follows: properties of gas, thermodynamics, chemical equilibrium, solutions, electrochemistry, etc.
2-2
AI APPLICATION FOR GLOBAL COEXISTENCE
From the history of AI, learn about the development process of AI and types of AI. Students will also learn the programming methods that have led to the development of AI structure and performance and the principles of how AI programs work. Students will look at the application of modern AI and its achievements, examine the application history of AI, discuss the application areas of AI for global coexistence, and discuss its usability, Problems of AI, and complementary measures that may arise from the application of AI too.
2-2
ORGANIC CHEMISTRY Ⅱ
This course will cover properties and reactions of more important organic compounds, with application to reaction mechanisms.
2-2
QUANTUM CHEMISTRY
Physical chemistry which treats the fundamental principles of chemistry is requisite for getting a deep insight into the chemistry. This subject is divided into two parts, I and II, and the main contents of physical chemistry II are as follows :atomic structure, chemical bonding, group theory, spectroscopy, chemical kinetics, statistical thermodynamics, etc.
2-2
SOLID STATE CHEMISTRY
A variety of advanced materials are being developed in inorganic solids, and the related technology is becoming a leading technology in the chemical engineering field. This class emphasizes the fundamental principles of the solid state chemistry, and it covers the topics including the structures and bounding in solids, the physical and thermodynamic Properties of solids, and the characterization techniques of solids.
2-2
ANALYTICAL CHEMISTRY LABORATORY Ⅱ
The purpose of this subject is to study the method of manipulating various instruments used in the research of physical chemistry and to know the chemical principles through the experiment.
2-2
ENERGY BALANCE
This lecture is intended to serve as an introduction to the principles and techniques used in the field of chemical engineering as well as biological, petroleum,and environmental engineering. Although the range of subjects deemed to be in the province of chemical engineering has broadened over the last twenty years, the basic principles of this field of study remain the same. This lecture presents the foundation of specific skills and information that are required for the successful undergraduate and postgraduate study of chemical engineering as well as the professional practice of chemical engineering. Moreover, your remaining chemical engineering classes will rely heavily on the skills that you will develop in this course: your ability to solve abstract problems as well as the application of material and energy balances. One can view the study of the field of chemical engineering as a tree with material and energy balances being the trunk and the subjects of thermodynamics, fluid flow, heat transfer, mass transfer, reactor kinetics, process control, and process design being the branches off the trunk. From this perspective, it is easy to see the importance of mastering the material that follows.
2-2
ENGINEERING MATH AND COMPUTER PACKAGE LABORATORY
This course teaches the way to solve the engineering problems via mathematical methods and students can get the ability of logical way of thought. It is a series course with the course of Engineering Mathematics which will be offered at every the first semester. It is composed with the remaining part of the subjects after the first semesters of Engineering Mathematics and the symbolic mathematical solving methods with computer. We may use the Mathematic or Maple as the course ware and the comprarison procedures between analytic and computational solutions also should be included in this course.
2-2
FLUID MECHANICS IN CHEMICAL ENGINEERING
Fluid Mechanics is one of the basic courses in Chemical Engineering and necessary to understand separation processes, reaction engineering, plant design, and etc. In this course static and flow properties of the fluid and their mathematical analysis will be discussed and be applied to the problems occurring in real chemical engineering processes.

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