Course Name
Course number
Language
Credts
Branch
Course outline
Polymeric Materials Chemistry
3
Korean course
Major
본원
-
Course Name
Polymeric Materials Chemistry
Summary
Lecture Objectives
- The objective of this course is to provide a comprehensive understanding of polymer chemistry, polymer physics, and composite materials. Synthetic methods for polymers and composites will be discussed, including step-growth, free radical, ionic, emulsion, and ring-opening approaches. The molecular weight determination, phase behavior, microstructure, and various analysis techniques for polymers and composites will be covered, as well as current topics of interest in the literature.
Solid State Chemistry
3
Korean course
Major
본원
-
Course Name
Solid State Chemistry
Summary
Lecture Objectives
- 이 강의에서는 화학의 관점에서 고체 물질의 원리와 특성을 이해하는 것을 목표로 한다. 고체 물질의 정의를 습득하고, 고체 물질의 다양한 합성법 및 분석 방법을 소개 한다. 또한, 고체 물질의 전자 구조 이해를 바탕으로 금속 및 반도체 물질의 특성을 설명할 수 있는 모델들을 습득하고, 촉매 및 전기 화학에 응용되는 예를 살펴본다. ( The goal of this lecture is understanding the principles and properties of the solid state materials in the point view of chemistry. This course covers the definition of the solid state material, crystal structure, and lattice, and also introduce various chemical synthesis method of solid state materials and their material characterization techniques. In addition, we will focus on the understanding the electronic band structures of the metallic and semiconducting solid state materials, and lastly, their applications for catalysts will be discussed.)
Process Design and Optimization
3
Korean course
Major
본원
-
Course Name
Process Design and Optimization
Summary
Lecture Objectives
- In this class, numerical analysis, process synthesis, and optimization methodologies for chemical process design will be introduced. Also ethylene glycol process design, economic analysis, and optimization will be practiced based on them. Through this, students acquire techniques to understand thermodynamic equations of state that simulate gas/liquid equilibrium, reactor modeling using homogeneous/heterogeneous catalysts, separation process modeling with azeotrope, and quantify changes in economics due to changes in process structure and operating conditions. In addition, a methodology that can improve process economics through process optimizations will be introduced.
Engineering Biology
3
Korean course
Major
본원
-
Course Name
Engineering Biology
Summary
Lecture Objectives
- This course aims to provide an understanding of synthetic biology for application
in the fields of energy and environment. Specifically, it covers the introduction of
engineering enzymes, microorganisms, and biosensor, and their application to
provide the solution for energy and environmental issues.
Physical Chemistry
3
Korean course
Major
본원
-
Course Name
Physical Chemistry
Summary
Lecture Objectives
- This class will introduce concepts of physical chemistry particularly relevant to the energy
and environmental engineering. The course focuses on thermodynamics, transport and
reaction rates and their application to energy and environmental systems. Topics include
applications of thermodynamics to chemical and biochemical equilibria, electrochemistry,
solutions, and chemical kinetics.
Biomass Materials and Biorefinery
3
Korean course
Major
본원
-
Course Name
Biomass Materials and Biorefinery
Summary
Lecture Objectives
- A biorefinery is a process that converts biomass resources into innovative products (biofuels, chemicals, bioplastics, etc.) using environmentally sustainable methods. This course provides 1) an in-depth knowledge of biomass materials and 2) an introduction to a variety of biorefinery processes. Students will learn biological, chemical, and thermal approaches for utilizing renewable biomass resources to produce biofuels and bioproducts.
Biomolecular Engineering
3
Korean course
Major
본원
-
Course Name
Biomolecular Engineering
Summary
Lecture Objectives
- The purpose of this course is to acquire basic knowledge of biological molecules and to
learn how to apply, utilize, and manipulate biological molecules in environmental and
energy-related research. The lectures will introduce what biological molecules such as DNA,
antibodies, and enzymes are, how they are used, and how they can be analyzed and
applied in research.
Application of Artificial Intelligence Technologies for Energy-Environment Research
3
Korean course
Major
본원
-
Course Name
Application of Artificial Intelligence Technologies for Energy-Environment Research
Summary
Lecture Objectives
- This lecture aims to understand the fundamental principles of artificial intelligence (AI)
technologies and to develop the ability to apply them to energy and environmental
research. First, we will examine applicable AI technologies according to data characteristics
and learn examples of applications in several technology fields. In addition, we will
simultaneously learn theoretical calculator methods, such as the first principle, to identify
the advantages and disadvantages of each technology and apply them to energy and
environmental research.
Introduction to Energy and Environment
3
Korean course
Major
본원
-
Course Name
Introduction to Energy and Environment
Summary
Lecture Objectives
- This course support invited seminars that introduce recent research trends and hot topic in energy and environment fields. Therefore, this course helps the student have insights for their own research theme.
Assessment of Performance and Material Reliability for Mechanical Components of Energy Conversion System
3
Korean course
Major
본원
-
Course Name
Assessment of Performance and Material Reliability for Mechanical Components of Energy Conversion System
Summary
Lecture Objectives
- 에너지변환 기계시스템은 다양한 부품의 조합으로 이루어져 있으며 작동환경에 따라 요구되는 성능을 충족시켜야 한다. 이러한 에너지 기계 부품의 트러블은 전체 시스템의 고장이나 파단과 직결되므로, 평소 모니터링 및 진단을 통한 관리와 더 나아가 수명을 예측하고 이를 기초로 교체 주기 방안을 수립하여 큰 손실을 입지 않도록 예방하여야 한다. 본 강의에서는 에너지변환 기기의 대표적인 부품 요소에 대한 성능 평가 기술 및 소재 파손의 주요 원인인 크리프, 피로 파괴, 마모 등의 원인을 학문적 견지에서 바라보며 이를 근거로 기계 부품의 신뢰성 평가를 위한 평가항목을 결정하며 내구 수명 평가 방법 등을 공부한다.
The energy machine consists of a combination of various components, such as bearing, seal and damper that meets the required performance according to the operating conditions. Failure of these energy mechanical components is directly linked to breakdown of the entire system, so life expectancy and replacement cycle should be predicted. In this lecture, the main causes of energy component damage, such as creep, fatigue and wear that are researched and studies evaluation lists for energy components to determine reliability evaluation and durability life evaluation.
Nanomaterials for Electrochemical Energy Storage & Conversion
3
Korean course
Major
본원
-
Course Name
Nanomaterials for Electrochemical Energy Storage & Conversion
Summary
Lecture Objectives
- 나노 크기의 소재 합성을 위한 다양한 합성 방법과 그 합성 원리를 이해하고, 소재의 크기가 벌크에서 나노화가 됨에 따라 발생하는 다양한 물성의 변화에 대해 습득한다. 또한 나노 크기 소재가 사용되는 에너지저장 및 변환 분야를 알아보고, 벌크소재 대비 나노소재 적용을 통해 발생하는 장·단점을 이해하며, 상기 에너지저장 및 변환 시스템에 적용하기 위한 물성 제어법을 다룬다.
This course deals with various methods and principles for manufacturing nanostructured materials, solid-state chemistry for nano-sized materials, and their applications in the fields of energy storage and conversion.
Toxic Environment Diagnosis and Control
3
Korean course
Major
본원
-
Course Name
Toxic Environment Diagnosis and Control
Summary
Lecture Objectives
- The purpose of this lecture is to introduce various hazardous toxic air pollutants diagnosis and control technology, and to provide understanding on its working principles in broad aspect of chemistry, materials, engineering, and system. The course will cover three corresponding ares : 1) understanding chemistry and material science of adsorbent and catalyst through synthesis, characterization, and remediation experiment 2) studying the principles of the analytical methods for diagnosing the hazardous environmental pollutants and state-of-art research trends 3) explaining principles and methodology of the cutting edge analytical instrument and portable analytical systems
Materials and System for Secondary Battery Application
3
Korean course
Major
본원
-
Course Name
Materials and System for Secondary Battery Application
Summary
Lecture Objectives
- 이차전지 시스템별 반응 원리 및 이의 핵심 소재에 대한 이해
Understanding on the working principle of secondary battery systems and its major component materials.
? This course will cover the fundamentals of secondary batteries and its applicatios as electrodes for energy storage devices. The course is intended for those in the master or Ph.D. course related to batteries based on electrochemistry. The topic includes the currently commercialized lithium ion batteries as well as the novel secondary batteries for next generation.
Introduction to Materials Science and Engineering
3
Korean course
Major
본원
-
Course Name
Introduction to Materials Science and Engineering
Summary
Lecture Objectives
- The goal of this lecture is offering general introduction to different types of materials usedin engineering designs of energy materials. The materials covered in this class are metals,ceramics, polymers, and composites and this course will provide core knowledge to designmaterials for energy applications based on the understanding of material’s fundamentalproperties, crystallography, and computational materials science.
Introduction to Electrochemical Energy Materials
3
Korean course
Major
본원
-
Course Name
Introduction to Electrochemical Energy Materials
Summary
Lecture Objectives
- 에너지와 환경 관련 다양한 연구에서 나노 및 고분자 소재등이 밀접하게 연관된다. 본 교과목에서 전기화학 기반 에너지 변환과정에서 적용되는 주요 소재 및 현상 관련 기초지식 학습함을 목적으로 한다. / Many research groups for energy and enviroment in the department carry out research involving nano- and polymer materials for electrochemical energy conversion applications which are related to materials covered in this class.
Colloid and Interfacial Chemistry
3
Korean course
Major
본원
-
Course Name
Colloid and Interfacial Chemistry
Summary
Lecture Objectives
- 에너지와 환경 관련 다양한 연구에서 콜로이드 및 계면 현상이 밀접하게 연관된다. 본 교과목에서 콜로이드와 계면 현상 관련 기초지식 학습함을 목적으로 한다. / Many research groups for energy and enviroment in the department carry out research involving colloidal and interfacial systems which are related to materials covered in this class.
Soil & Groundwater Environmental Engineering
3
Korean course
Major
본원
-
Course Name
Soil & Groundwater Environmental Engineering
Summary
Lecture Objectives
- This course covers the fundamentals of water flow and contaminant transport in subsurface
with various bio-geochemical reactions. Understanding the characteristics of contaminants
under various site conditions will be discussed. In addition, the risk assessment technologies
are introduced.
Water and Wastewater Treatment Engineering
3
Korean course
Major
본원
-
Course Name
Water and Wastewater Treatment Engineering
Summary
Lecture Objectives
- 생활하수 및 폐수 처리와 관련된 기존의 생물학적, 화학적, 물리적 방법을 소개하고, 이와 관련된 이론 및 설계에 필요한 지식을 습득하는 것을 목표로 한다. 최근 연구 및 기술개발 동향을 소개함으로써 하폐수 처리기술에 대한 폭 넓은 이해와 더불어 실제로 현장에서 어떻게 응용되고 있는지를 살펴본다.
This course covers the fundamental theories and design principles of biological, chemical and physical methods for wastewater treatment process. The recent research trends including the real applications in related fields will be also introduced towards a broader understanding of the wastewater engineering industry.
Fundamentals of Chemical Catalysis
3
Korean course
Major
본원
-
Course Name
Fundamentals of Chemical Catalysis
Summary
Lecture Objectives
- The class introduces fundamental knowledge about homogeneous and heterogeneous
catalysts. Basics of catalyst design, reaction kinetics, and catalyst characterizations methods
are studied, and reaction pathway interpretation for homogeneous and heterogeneous
catalysts are discussed.
Applications of Chemical Catalysis
3
Korean course
Major
본원
-
Course Name
Applications of Chemical Catalysis
Summary
Lecture Objectives
- Recommended for students who completed the “Fundametals of Chemical Catalysis” class.Practical applications using homogeneous and heterogeneous catalysts, methods forinterpreting catalytic reactions including heat and mass transfer, and catalyst manufacturingtechniques are studied. The approaches to interpreting potential issues in real laboratoryand scaled-up processes are also examined.
Environmental Membrane Technology
3
Korean course
Major
본원
-
Course Name
Environmental Membrane Technology
Summary
Lecture Objectives
- The goal of this lecture is understanding the membrane-based technologies which can be applied to the various water treatment processes. This course covers the fabrication and modification of the membrane, membrane module and system, various water treatment processes using the membranes such as water production, wastewater treatment and desalination, etc, membrane fouling, analytic methods based on the molecular biology. In addition, we will provide recent applications of membrane technologies to the field tests and design methods of the membrane systems.
Introduction to Advanced Materials for Water Treatment
3
Korean course
Major
본원
-
Course Name
Introduction to Advanced Materials for Water Treatment
Summary
Lecture Objectives
- This course focuses on recent advances in material sciences for water treatment. The goals in this course are to provide (1) the fundamentals of advanced water treatment technologies, (2) the design and synthetic protocols of organic/inorganic/nano-materials for water treatment, and (3) the up-to-date overviews of material-based water purification techniques.
Environmental Biophysics and Bioenergetics
3
Korean course
Major
본원
-
Course Name
Environmental Biophysics and Bioenergetics
Summary
Lecture Objectives
- This lecture is an introductory course covering basics of environmental biophysics and
bioenergetics. First, we quantitatively overview the influence of physical environmental
factors on cells, tissues, organisms, and ecosystems, based on thermodynamics and
heat/mass transfer theory. Next, we briefly deal with diverse energy-related phenomena
ranging from microscopic energy conversions in the single cell-level to macroscopic energy
flows in ecological networks.
Environmental Energy Materials Engineering
3
Korean course
Major
본원
-
Course Name
Environmental Energy Materials Engineering
Summary
Lecture Objectives
- This course is based on a comprehensive evaluation of the entire process, starting from
carbon energy sources to renewable energy. It extensively covers energy consumption and
the associated environmental implications and ecological impacts. The course content
encompasses fundamental theories and materials involved in the generation processes of
fossil fuels and renewable energy. The primary objective is to study the effects of energy
consumption on environmental pollution, including its generation, distribution, movement,
and transformation, along with the resulting environmental consequences and ecological
impacts.