For more details on the courses, please refer to the Course Catalog
| Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
|---|---|---|---|---|---|---|---|---|---|
| GWR5001 | Flow Analysis for River Systems | 3 | 6 | Major | Master/Doctor | 1-8 | Water Resources | - | No |
| Theoretical aspects of flow in open channels. Derivation of one-dimensional form of continuity, momentum, and energy equations. Flow resistance. Steady uniform and nonuniform flow in open channels including lateral inflow and outflow. Significance of the Froude Number; sub- and supercritical flow and channel transitions. Flow around hydraulic structures; weirs, sluice gates, spillways, stilling basins. Unsteady flows: flood routing, dam-breaking waves; overland flow. | |||||||||
| GWR5004 | Analysis and Management of River Water Quality | 3 | 6 | Major | Master/Doctor | 1-8 | Water Resources | Korean | Yes |
| Course objective is to develop an understanding of the physics and mathematical description of molecular and turbulent diffusion, and their contribution to environmental dispersion, with emphasis on natural waterways. Topics include: Fickian diffusion, random-walk interpretation, analytic solutions to advective diffusion equation, statistical interpretation of diffusion in turbulent flows, Taylor's theory of longitudinal dispersion, Dispersion in turbulent shear flow, dispersion in natural channel, and dispersion of non-conservative contaminants, river water quality modeling, and water quality management. | |||||||||
| GWR5005 | Hydrologic Modeling: Theory and Practice | 3 | 6 | Major | Master/Doctor | 1-8 | Water Resources | - | No |
| Focuses on modeling of hydrologic processes for engineering applications based on the understanding of each component of the hydrologic cycle. Rainfall-runoff models. Flood routing. Urban hydrology. Flood/drought frequency analysis. Loss estimation. Groundwater models. Hydrologic data analysis. Model limitations. | |||||||||
| GWR5007 | Integrated Water Resources Management | 3 | 6 | Major | Master/Doctor | Water Resources | - | No | |
| Inrtoductory course on concept, background, elements and procedures for integrated water resources management. Topics include governance and community approaches for IWRM, organizational and management issues, procedures for IWRM planning process, economic analysis, legal and institutional aspects, integrated watershed management, integrated flood management, and examples and lessons learnt in IWRM. | |||||||||
| GWR5009 | Scientific Computing: Theory and Practice | 3 | 6 | Major | Master/Doctor | Water Resources | - | No | |
| Intermediate course on numerical algorithms and their implementation for solving scientific/engineering problems. Topics include nonlinear algebraic equations, computational linear algebra, approximation theory, numerical differentiation and integration, ordinary/partial differential equations. | |||||||||
| GWR5010 | Introduction to U-IT | 3 | 6 | Major | Master/Doctor | 1-8 | Water Resources | - | No |
| Introductory course on ubiquitous information and telecommunication. Topics include concept and history of IT, signal and frequency spectrum, analog/digital transmission, protocol, network equipment, internet and web, TCP/IP, internet security, wireless communication, mobile communication, digital broadcasting, DVD, IPTV, location-based service, smart card, RFID and USN, home network. | |||||||||
| GWR5012 | Advanced Biological Water Treatment | 3 | 6 | Major | Master/Doctor | 1-8 | Water Resources | - | No |
| Advanced Biological Water Treatment utilize microorganisms to improve environmental quality. These improvement includes preventing the discharge of pollutants to the environment, cleaning up contaminated environments, and generating valuable resources for human society. The topics included are basic theories of microbiology such as basics of microbiology, microbial kinetics, and bacterial energetics. It also includes biological treatment processes such as activated sludge process and nutrient removal processes. | |||||||||
| GWR5013 | Management of Aqueous Micropollutants | 3 | 6 | Major | Master/Doctor | 1-8 | Water Resources | - | No |
| Management of Aqueous Micropollutants focuses on the technical control of the discharge of toxic compounds into the natural water environmental system. In addition, environmental fate and transport modeling in hydrosphere is also important element of the subject. It also include learning the current regulations and the policies for effective management of toxic compounds. | |||||||||
| GWR5014 | Water Chemistry | 3 | 6 | Major | Master/Doctor | 1-8 | Water Resources | - | No |
| Water Chemistry addresses the theory and applications of basic chemical reactions in water including acid-base chemistry, complexation, and oxidation-reduction. Understanding these theory are required to interpret the various chemical reactions in natural water system. It also delivers the theoretical background for optimal design of both chemical and biological water treatment processes. | |||||||||
| GWR5015 | Environmental Organic Chemistry | 3 | 6 | Major | Master/Doctor | Water Resources | - | No | |
| Environmental organic chemistry focuses on environmental factors that govern the processes that determine the fate of organic chemicals in natural and engineered systems. The information discovered is then applied to quantitatively assessing the environmental behavior of organic chemicals. It includes aspects of gas/solid partitioning, bioaccumulation, and transformations in the atmosphere, and illustrative examples, problems and case studies - applied to environmentally relevant problems addresses problems. | |||||||||
| GWR5019 | Smart Water Grid | 3 | 6 | Major | Master/Doctor | 1-8 | Water Resources | - | No |
| Learn the monitoring skill and harmful substance treatment applying the environmental convergence and integration technique (NT, BT, ET) and multiple water resource blending skill, the understanding of micro/meso/macro grid and the design/operation/construction/monitoring methods are studied. | |||||||||
| GWR5021 | Membrane Manufacturing | 3 | 6 | Major | Master/Doctor | 1-8 | Water Resources | - | No |
| Study for manufacturing the membrane widely used, based on the characteristics of the membrane, the technique of membrane manufacturing and the changes of membrane properties with manufacturing technique are learned. | |||||||||
| GWR5022 | Membrane Water Treatment | 3 | 6 | Major | Master/Doctor | 1-8 | Water Resources | Korean | Yes |
| Give a lecture about the water treatment process using the membrane. Study about the theories and designing of drinking water treatment, sewage treatemtn, desalination and reused water. | |||||||||
| GWR5023 | Advanced Water Treatment Unit Operation | 3 | 6 | Major | Master/Doctor | 1-8 | Water Resources | Korean | Yes |
| Give a lecture about the advanced water treatment applied to drinking water treatment and reused water. Study about physical, chemical and biological treatment process, and mass transfer and modeling of water reuse | |||||||||
| GWR5024 | Water Circulation Plant Engineering | 3 | 6 | Major | Master/Doctor | 1-8 | Water Resources | - | No |
| Give a lecture about water resource treatment plant applying for the membrane. Study about drinking water, desalination and hybrid membrane design technique, and operation and management skill. | |||||||||