Curriculum
| Summary | English |
|---|---|
| Seminar in Environmental Science I | |
| Learn the contents related to the overall environmental studies such as water pollution sources, pollutant diffusion, removal techniques, air pollution material generation, statistical analysis, control and environmental destruction, the ecological effect of habitat destruction, etc. through topic presentations and discussion | |
| Atmospheric Chemistry I | |
| Study the theoretical background on the creation process of earth’s atmosphere and the air pollutant levels, etc., the pollution prevention and pollutant removal and refreshes the issues such as the greenhouse effect, ozone effect, ozone layer depletion, acid rain, visibility, etc | |
| Atmospheric Chemistry II | |
| Study the global scale of the air pollution phenomenon. For this, trace analysis, partial differential studies, advance statistics, etc. for air pollutants are to be learned. | |
| Special Tropic in Air Pollution I | |
| Try to review the various engineering technologies which can understand and address the current status on air pollution and recent issues. | |
| Special Tropic in Air Pollution I | |
| Try to help students’ understanding by understanding the general concept of air pollution and theoretical mechanism and presenting the cases of pollution phenomenon happening around the country. | |
| Air Pollution Control | |
| In order to learn the prevention technologies of particulate and gaseous contaminants, review physical and chemical characteristics of contaminants and deal with the principles of the overall protection device, application and design. | |
| Indoor Air Pollution | |
| Study the classification, impact and reduction measure of indoor air pollutants distinguishing with the outdoor atmosphere. Study the sampling, measurement and analysis of contaminants and research the indoor air quality model. | |
| Aerosol | |
| Study physicochemical characteristics of aerosols, sampling and analysis, generation of aerosols, extinction effects and harmfulness assessment and management strategies. | |
| Incineration and Energy Utilization | |
| Study the combustion process in terms of air pollution sources and learn thermal decomposition and incineration in parallel with harmful waste classification. Also, learn the principle and design of various incinerators | |
| Watershed Environmental Science | |
| Learn and apply overall water management practices by approaching in environmental studies for a variety of water systems such as rivers, lakes and groundwater and studying the effect factors influencing the water system. | |
| Lake Recovery Technology | |
| Identify Lake water system’s characteristics such as the eutrophication generated in lakes, dissolution of poor quality contamination, seasonal fluctuations in the water quality of the lake, mass balance, etc. and study the overall restoration techniques such as control methods for various sources, control methods for internal pollution of the lake and the ecological management of the lake’s watershed. | |
| Stream Recovery Technology | |
| Study about the various pollution of the river and changes in aquatic ecosystems and seek the measures through theoretically applying the various practices from foreign countries to domestic rivers. | |
| Management Technology of Water and Sediments Quality | |
| Seek fouling phenomenon of aquatic environment and its strategies of improving the quality of water and do the technical research on the characteristics and whether dredging or not of the riverbed sediment. | |
| Environmental Remediation and Survey Methods | |
| Try to discuss critically the ways of how to reduce and restore it with students by understanding the basic concept required for the environmental restoration and studying the characteristics and movement of toxic substances which cause environmental pollution. | |
| Resource recycle technology of wastes | |
| As a class dealing with landfills, incineration, energy recovery, recycling, etc. roughly for contents on waste management, learn with the goal of the active participation and opinions of students. | |
| Wastewater Treatment | |
| Study water quality and discharge patterns of wastewater from various sources and the purification methods with the physical, chemical and biological treatment. | |
| Life Cycle Assessment | |
| As a class targeting the introduction of Life Cycle Assessment which is recently known as LCA and its importance is growing, try to approach from environmental engineering perspective with LCA scoping, inventory analysis, interpretation of the results and alternatives in mind. | |
| Advanced Environmental Statistics and Analysis | |
| This class gives lectures about the introduction to environmental statistics area, theoretical concepts and advanced technology. For environmental data analysis, this course covers about the methodologies of basic statics, environmental data analysis, basic chemical informatics, univariate/ multivariate statistical monitoring, environmental quality management, environmental optimization. The lesson progresses focusing on the team projects submitting the final paper by applying environmental statistics theory and interpreting it using statistical software such as excel, Minitab, SPSS, Ec-miner, matlab, etc. about the thesis of students | |
| Geographic information system application | |
| Learn basic knowledge and application methodology for creating pollution map and building wide-scale information data base | |
| Environmental System Engineering | |
| Understand the basic concept of Environmental Systems Engineering and study the optimization techniques of Environmental Systems by understanding modeling, simulation, analysis and statistical monitoring study in order to utilize it. | |
| Advanced Environmental Process Control | |
| Utilize in the manufacturing process by understanding the principles and features of the controller required to environmental processes and the database storage, utilization, modeling and analysis which uses it. | |
| Environmental Optimization | |
| Research and learn a single or multi-variable optimization techniques (QP, SQP, LP, MILP, MINLP, GA, SA, NSGA-II, and MOSA) required for the environment optimization. | |
| Advanced Environmental Informatics | |
| It targets to give the overall introduction of the environmental informatics sector and learn the theoretical concepts about the database, information technology and associated software and the practical techniques. This course covers about the steps ranging from the data acquisition, storage, databases, geographic information systems, modeling, and analysis and up to problem solving. Furthermore, it covers about research trends of the calculation of the greenhouse gas inventory, ecosystem modeling, building U-eco city and ecological industrial park (EIP). | |
| Advanced Climate Change | |
| Discuss the phenomenon and effect of the climate change and study the main roles of IPCC (Intergovernmental Panel on Climate Change) on climate change and the climate change adaptation strategies from domestic and abroad. | |
| Soil Ecology | |
| Learn the basic principle of Soil Ecology and cultivate the applicability which can be used as the soil management strategies by connecting it with climate change. | |
| Environmental Biology and Technology | |
| Introduce the trends of environmental techniques using biotechnology and study the development plan of environmental techniques through the research and discussion on environmental biology techniques by using biotechnology. | |
| Ecophysiology | |
| Understand the metabolic pathway of the organism according to the external environmental change and try to raise the understanding of environmental physiology by conducting research and discussion for the metabolic pathway effect of the organism according to environmental changes and its evaluation methods. | |
| Ecotoxicology Research | |
| Learn the principles of toxic effects and risk assessment on environmental chemicals and introduce the associated environmental regulatory trends. | |
| Ecological Survey Methods | |
| Derive more accurate results after learning the investigation method on ecosystem systematically by applying it at actual investigation and understand ecological methods using molecular ecological techniques. | |
| Biological Energy Engineering | |
| Explain the definition of microorganisms, stoichiometry, bacterial energetics and biological separation characteristics and based on these basic theories, try to analyze the main mechanism of the system which can collect the actual energy biologically from waste resources such as bio-gas, bio-alcohols, biodiesel production, etc. and the latest technology trend for the biological energy production. | |
| Technology Using Biological Energy | |
| Promote the understanding of the techniques using biological energy and cover the overall theories and technical information required for the organic waste processing or environmental energy by understanding the energy recovery process according to the mechanism characteristics. | |
| Bio-Energy | |
| Understand the basic concept for the bio-energy production and learn the process principles of Methane and hydrogen production and the basic knowledge of MFC electrical energy as necessary. | |
| Environmental Transport Phenomena | |
| Understand and try to research the process control principles for the behavior mechanisms of organic materials in the environment, the biological conversion of the material and the characteristics of the chemical conversion. |