For more details on the courses, please refer to the Course Catalog
| Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
|---|---|---|---|---|---|---|---|---|---|
| ECH3064 | Chemical Engineering Foundation Practice | 3 | 6 | Major | Bachelor | 3-4 | Korean | Yes | |
| This lecture will provide general view on the chemical engineering foundation practice. - Initial support program - Initial activity support - Guide tax problem and marketing ※ This course is a curriculum that recognizes Startup Activity as a credit. This course is recognized as a credit when it is possible to achieve the learning goal through establishment. Only students who start-up can take classes. Only students who are approved according to the procedures of the school can take courses in the field trips. Be sure to check the requirements and procedures before taking this course. | |||||||||
| ECH3065 | Nano-bio-fusion Technology | 3 | 6 | Major | Bachelor | 2-3 | Korean,Korean | Yes | |
| Nanobio fusion technology, which represents a fusion technology merging BT and NT, is the core of 21 century information-integrating industry. This course deals with the most up-to-date application of nanotechnology and information technology to the life sciences. Encouraged by a matter of common interest from both chemical engineers and advanced materials engineers, it focuses on several issues of nanobiotechnology including a nanomedicine, a nanobiosensor, a nanofluidics, and a related system process. Students who take this course could be educated to be an expert in the modern biological and biotechnological applications of nanoscience in biotechnology field. They will be an outstanding global leader in such bionanotechnological fields. | |||||||||
| ECH3066 | Introduction to battery engineering | 3 | 6 | Major | Bachelor | Korean,Korean | Yes | ||
| The major goals of this course are to understand basic concepts of electrochemistry related to energy conversion and storage systems and to provide a firm foundation of the electrochemical energy devices such as lithium ion batteries, fuel cells, supercapacitors, and next-generation batteries. The design of electrodes and electrolytes as well as device structure and operation will be addressed to further understand how to apply the aforementioned theories for a better knowledge of electrochemical energy systems. Additionally, this course will cover a recent research trend and future direction of energy storage fields, as well as emerging applications such as electrical vehicle (EV) and energy storage system (ESS). | |||||||||
| ECH3067 | Process Control & Design | 3 | 6 | Major | Bachelor | 3-4 | Korean,English | Yes | |
| This course presents introductory concepts of process dynamics and control, dynamic modeling, transfer function models, system identification, feedback control concepts and design methods, their application to controller design, and advanced control strategies including feed-forward, and cascade designs. MATLAB/SIMULINK will be introduced and used to simulate and examine the process dynamics and effectiveness of various control strategies. This module is targeted at chemical engineering students who already have a basic knowledge of chemical engineering processes. After successful completion of the course, students will be able to: (1) Simplify a first-principles dynamic model by linearization and convert it to a transfer function model convenient for analysis and controller design (2) Classify the dynamic behavior of complex processes based on their time domain and transfer function representations and obtain empirical models using step response and regression methods (3) Analyze stability and performance of feedback control systems (4) Design PID controllers using conventional tuning rules (5) Implement enhanced control strategies including, feedforward control, and cascade control, to achieve improved performance compared to the conventional feedback system (6) Use computer-based tools (MATLAB) to simulate process dynamic and feedback control systems | |||||||||
| ECH3068 | Basic Experiments in Physical Chemistry | 2 | 4 | Major | Bachelor | 2-4 | Korean,English | Yes | |
| This experiment class covers basic concepts of thermodynamic and chemical reaction kinetics in the Applied Physical Chemistry. | |||||||||
| ECH3069 | Artificial Intelligence in Chemical Engineering | 3 | 6 | Major | Bachelor | - | No | ||
| n this class, it is a practical subject that solves various decision-making problems in the chemical industry using various technologies of artificial intelligence. In addition to basic AI theory classes, we learn the theory of defining and solving various field problems (material development, process design, process operation, environmental evaluation, etc.) in the chemical industry using AI technology such as machine learning. Through this class, we learn various problems in the chemical industry, acquire artificial intelligence-related technologies, and experience advantages and disadvantages of solving artificial intelligence-based problems compared to traditional methods. | |||||||||
| ECH3070 | Digital Biotechnology | 3 | 6 | Major | Bachelor | English | Yes | ||
| Digital biotechnology is the convergence of biology, systems engineering, and information technology. It involves the utilization of various digital tools and technologies, including data analysis and modeling approaches, to understand, design, and control diverse biological processes such as cells, bioprocesses, and bioproducts (e.g., biopharmaceuticals, bioenergy, and biocosmetics). The goal of digital biotechnology is to leverage digital technology to collect and analyze large amounts of biological data, ultimately understanding and improving the functioning principles of living organisms. This field encompasses research areas such as bioinformatics, life sciences data analysis, cellular and metabolic modeling, as well as innovative approaches to therapies and bio-material production. The digital twin technology, combining sensor monitoring and virtual simulation, in the context of biological processes will also be introducted and explored. Through its applications, novel solutions can be found in various domains, including new therapies, biofuels, and bio-materials. The course focuses on fostering students' ability to creatively solve problems by integrating biological knowledge and digital technology. Ultimately, the course aims to equip students with the capabilities to tackle diverse challenges in modern society. | |||||||||
| ECH4001 | Advanced Instrumental Analysis | 3 | 6 | Major | Bachelor/Master |
3-4
1-4 |
English | Yes | |
| In this subject, general techniques, their principles and the informations of the material characterization will be discussed. The most useful techniques, such as, gas chromatography, liquid chromatography, nuclear magnetic resonance spectroscopy, infrared spectroscopy, UV-Vis spectroscopy, will be throughly discussed. | |||||||||
| ECH4001 | Advanced Instrumental Analysis | 3 | 6 | Major | Bachelor/Master |
3-4
1-4 |
Chemical Engineering | English | Yes |
| In this subject, general techniques, their principles and the informations of the material characterization will be discussed. The most useful techniques, such as, gas chromatography, liquid chromatography, nuclear magnetic resonance spectroscopy, infrared spectroscopy, UV-Vis spectroscopy, will be throughly discussed. | |||||||||
| ECH4002 | Experimental Design and Analysis | 3 | 6 | Major | Bachelor/Master |
3-4
1-4 |
- | No | |
| This course deals with the fundamentals of experiment design and data analysis methods. It covered the statistics for experiments and new methods for data analysis. | |||||||||
| ECH4002 | Experimental Design and Analysis | 3 | 6 | Major | Bachelor/Master |
3-4
1-4 |
Chemical Engineering | - | No |
| This course deals with the fundamentals of experiment design and data analysis methods. It covered the statistics for experiments and new methods for data analysis. | |||||||||
| ECH4003 | Advanced Chemical Reaction Engineering | 3 | 6 | Major | Bachelor/Master |
3-4
1-4 |
English | Yes | |
| Characteristics of real commercial reactors are examined. Analysis and design of homogeneous nonisothermal reactors, reactors with nonideal flow, noncatalytic heterogeneous reactors are dealt with. Effects of mass and heat transfer, solution of simultaneous material and energy balance equations, the concept of residence time distribution are introduced. This subject focuses on formulation and solution of equations for each type of reactors and discussion of the results, thereby enhancing the capability dealing with reactor analysis and design. | |||||||||
| ECH4003 | Advanced Chemical Reaction Engineering | 3 | 6 | Major | Bachelor/Master |
3-4
1-4 |
Chemical Engineering | English | Yes |
| Characteristics of real commercial reactors are examined. Analysis and design of homogeneous nonisothermal reactors, reactors with nonideal flow, noncatalytic heterogeneous reactors are dealt with. Effects of mass and heat transfer, solution of simultaneous material and energy balance equations, the concept of residence time distribution are introduced. This subject focuses on formulation and solution of equations for each type of reactors and discussion of the results, thereby enhancing the capability dealing with reactor analysis and design. | |||||||||
| ECH4004 | Interface Engineering | 3 | 6 | Major | Bachelor/Master |
3-4
1-4 |
English | Yes | |
| A course dealing with the principles and applications of colloidal and interfacial phenomena, examing topics such as capillarity of fluid-fluid interfaces, fluid-solid interfaces, electronic double layer theory, surfactants and dynamic phenomena at interfaces. | |||||||||
| ECH4004 | Interface Engineering | 3 | 6 | Major | Bachelor/Master |
3-4
1-4 |
Chemical Engineering | English | Yes |
| A course dealing with the principles and applications of colloidal and interfacial phenomena, examing topics such as capillarity of fluid-fluid interfaces, fluid-solid interfaces, electronic double layer theory, surfactants and dynamic phenomena at interfaces. | |||||||||