UST-KITECH School

Convergence Manufacturing system Engineering
Green Process and Energy System Engineering

산업소재/스마트제조공학

The Department of Green Process and Energy System Engineering studies clean materials, processes, and high-efficiency energy technologies essential for converting Korea's industrial structure into a low-carbon economic structure to enable sustainable industrial development. The department also aims to foster green technology professionals in the chemical industry, including minimizing pollutants, producing eco-friendly raw materials and products, resource recycling technology, and in the (2) energy industry, reducing greenhouse gas emission, digitalization of energy plants, high efficiency energy production technology using unused resources such as biomass, low grade fuel and waste, and high-efficiency design technology for thermal fluid machines.

지도
Completion
Division
Subject Name (Korean and English)
Credit
Course Objectives

Course Objectives

This lecture aims at understanding fundamental theories of clean combustion engineering including gas, liquid and solid fuels. Various engineering approaches for physico-chemical phenomena of combustion will be presented.

Course Objectives

This lecture aims at understanding the materials based on silicates and their applications through analysis tools.

Course Objectives

This course deals with the optimization procedure for providing the solution of various engineering problems. The course includes a design of experiments, various surrogate models, single- and multi-objective numerical optimizations and practical engineering applications using in-house code.

Course Objectives

This lecture aims at understanding the basic concept of thermo-chemical fuel conversion systems for various kinds of energy(heat and electricity) production system.

Course Objectives

This lecture aims at learning CO2 conversion technology using various active catalyst systems and understanding knowledgies about their structures and reactivities.

Course Objectives

This lecture aims at understanding thermo-chemical conversion methods of low rank fuels. Pyrolysis, gasification, and combustion of solid and liquid fuels will be discussed.

Course Objectives

This course deals with the numerical simulation of fluid flow and heat transfer. The course includes an introduction to numerical methods, FDM & FVM, turbulence modeling and practical application of commercial CFD code. The optimized numerical design methods combined with DOE are also important subjects.

Course Objectives

This lecture aims at understanding the basic concept of their major through the introduction of 'Green Process and System Engineering.

Course Objectives

This course deals with an introduction to the broad diversity of turbomachinery including pumps, compressors and turbines. The course includes coverage of basic physical understanding of the design and performance of turbomachines. The design process of impeller and other components of pumps and compressors are also important subjects.

Course Objectives

Green bioenergy engineering aim at overall basic understanding of biomass and organic biowaste derived biofuel and bioenergy.
It covers biocrop and biowaste feedstock preparation, bio-thermo-chemical production of biogas, biohydrogen, biofuel such as bioethanol and biodiesel and thermal regeneration in forms of heat, steam and electricity along with renewable energy energy mix and future biofuels for ship and airplane.

Course Objectives

Green biobased chemical engineering aims at overall basic understanding of natural biomass resource derived conversion and production of biobased chemical materials. It covers from biomass raw material preprocessing up to biobased platform chemicals and macromolecules such as bioplastics along with terminology, bio-thermo-chemical conversion and purification.

Course Objectives

This lecture aims at learning basic techniques in synthesis, applications, physical structures and properties of polymers.

Photo
Name
Detailed Major
Area
A Field of Study
Details
SEUNG-HAN SHIN 교수님
Clean Process/
Energy System Engineering
Cheonan
Polymer/Polymer Composites, Functional Materials, Green Chemistry

Details

  • Position

    Head Professor

  • Major

    Industrial Technology

  • Affiliation

    UST-KITECH School

  • Division

    Gren and Sustainable Materials R&D Department

Education

1992-02 / Seoul National University / Bachelor's

1994-02 / Seoul National University / Master's

1998-02 / Seoul National University / Doctor's

Representative Study

H.-W. Park, M. Toan, H.-J. Kim, J.H. Lee, S. Shin†, “Renewable epoxy thermosets with extremely high biomass content from furan derivatives and their flame retardancy”, J. Ind. Eng. Chem., 92, 184-190 (2020).

H.-W. Park, H.-S. Seo, J.H. Lee, S. Shin†, “Adhesion improvement of the acrylic pressure-sensitive adhesive to low-surface-energy substrates using silicone urethane dimethacrylates”, Eur. Polym. J., 137, 1009949 (2020).

T. Nguyen, Y.J. Kim, S.-K. Park, K.-Y. Lee, J.-Y. Park, J.K. Cho, S. Shin†, “Furan-2,5- and Furan-2,3-dicarboxylate Esters Derived from Marine Biomass as Plasticizers for Poly(vinyl chloride)”, ACS Omega, 5, 197-206 (2020).

Performance

Thermal/photo-curable materials for automotive and electronic application

Polymer-based smart coating materials

Sustainable chemicals and polymers from renewable resources

In Park 교수님
Clean Process/
Energy System Engineering
Cheonan
Silicate Chemistry, Organic-Inorganic Composite, Adsorbent, Solid Catalyst

Details

  • Position

    Professor

  • Major

    Industrial Technology

  • Affiliation

    UST-KITECH School

  • Division

    Gren and Sustainable Materials R&D Department

  • e-Mail

    inpark@kitech.re.kr

  • Homepage

  • TEL

    041-589-8225

Education

1998-02 / Yonsei University / Bachelor's

2000-02 / Seoul National University / Master's

2006-05 / Michigan State Univ / Doctor's

Representative Study

Facile Fabrication of Transparent Superhydrophobic Surfaces by Spray-Deposition / ACS Appl. Mater. Interf. / 2011.07.27

Fabrication of raspberry-like superhydrophobic hollow silica particles / Mater. Letters / 2010.10.31

Water adsorption capacity enhancement of ferroaluminophosphate (FAPO4-5) by impregnation of CaCl2 / Mater. Letters / 2018.06.21

Performance

Development of artificial skin using nano-catalyst for improved anti-wrinkle

Cost-effective Chemical Process for Organosilicon Polymers with High Durability

Green Slippery Packaging Development

Development, Standardization and Field Test of High Energy-Efficient Freezer/Refrigerator System

MAN SIG LEE 교수님
Clean Process/
Energy System Engineering
Ulsan
Nanoparticle catalytsts, Eco-friendly material Synthesis, Development of eco-friendly chemical materials

Details

  • Position

    Professor

  • Major

    Industrial Technology

  • Affiliation

    UST-KITECH School

  • Division

    Ulsan Division

  • e-Mail

    lms5440@kitech.re.kr

  • Homepage

  • TEL

    052-980-6630

Education

1992-02 / Pukyong National University / Bachelor's

1994-08 / Dong-A University / Master's

2003-08 / Pukyong National University / Doctor's

Representative Study

Man Sig Lee, Seong-Soo Hong, Madjid Mohseni, "Synthesis of Photocatalytic Nanosized TiO2-Ag Particles with Sol-Gel Method using Reduction Agent", Journal molecular catalysis, 242, pp. 135-140 (2005)

Chinh Nguyen-Huy, Ji Sun Kim, Sinmyung Yoon, Euiseop Yang, Ja Hoon Kwak, Kwangjin An, and Man Sig Lee+, “Supported Pd nanoparticle catalysts with high activities and selectivities in Liquid-phase furfural hydrogenation”, Fuel, 226, pp607-617(2018)

Performance

Young-Seok Choi 교수님
Clean Process/
Energy System Engineering
Cheonan
Turbomachinery

Details

  • Position

    Professor

  • Major

    Industrial Technology

  • Affiliation

    UST-KITECH School

  • Division

    Clean Energy R&D Department

  • e-Mail

    yschoi@kitech.re.kr

  • Homepage

  • TEL

    041-589-8337

Education

1988-02 / Seoul National University / Bachelor's

1990-02 / Seoul National University / Master's

1996-02 / Seoul National University / Doctor's

Representative Study

Numerical study on the cavitation phenomenon for the head drop and unsteady bubble patterns with a difference in the incidence angle of a mixed-flow pump[ADVANCES IN MECHANICAL ENGINEERING,2020-02-19]

Design Optimization for Mixed-flow Pump Impeller by Improved Suction Performance and Efficiency with Variables of Specific Speeds[JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY,2020-03-19]

Effect of Interface Condition on the Hydraulic Characteristics of a Pump-Turbine at Various Guide Vane Opening Conditions in Pump Mode[RENEWABLE ENERGY,2020-03-12]

Numerical Investigation of Performance and Flow Characteristics of a Tunnel Ventilation Axial Fan with Thickness Profile Treatments of NACA Airfoil[ENERGIES,2020-11-08]

Performance

Development of design program for centrifugal and mixed-flow pump(Ns 150-1200)

Development of Reversible Axial Fan for Forward Driving

Flow Characteristics Prediction Technique Development on the Transient Behaviour of a Pump-Turbine unit for Pumped Storage Power Plant

Development of 500RT Class High Efficiency Turbo Chiller Using Low GWP Refrigerant

Design of 2 stage centrifugal impeller using refrigerant

OH KYUNG KWON 교수님
Clean Process/
Energy System Engineering
Cheonan
Thermal driven(Absorption, Adsorption) cooling and heating system, Heat pump system using renewable energy source, Improvement of heat exchanger efficiency

Details

  • Position

    Professor

  • Major

    Industrial Technology

  • Affiliation

    UST-KITECH School

  • Division

    Clean Energy R&D Department

  • e-Mail

    kwonok@kitech.re.kr

  • Homepage

  • TEL

    041-589-8528

Education

2000-02 / Pukyong National University / Doctor's

Representative Study

Sang Woo Hong, Sang Hyeok Ahn, Oh Kyung Kwon, and Jae Dong Chung/Optimization of a fin-tube type adsorption chiller by design of experiment/International Journal of Refrigeration, Vol.49, pp.49~56/2015.01.05

Oh Kyung Kwon, Kyung Jin Bae and Cha Sik Park/Cooling characteristics of ground source heat pump with heat exchange methods/Renewable Energy Vol.71, pp.651~657/2014.07.04

Ohkyung Kwon, Dongan Cha, Chasik Park/Performance evaluation of a two-stage compression heat pump system for district heating using waste energy/Energy, Vol.57, pp.375~381/2013.08.06

Performance

Development of waste heat driven chilled water and steam generation absorption heat pump for industrial process

Development of low temperature waste driven low power adsorption cooling system

Development of a smart hybrid dryer and waste heat recovery type hot air flow

Seon Chang Kim 교수님
Clean Process/
Energy System Engineering
Cheonan
Absorption Chiller, Desiccant Cooling System, Heat Pump, Heat Exchanger

Details

  • Position

    Professor

  • Major

    Industrial Technology

  • Affiliation

    UST-KITECH School

  • Division

    Clean Energy R&D Department

  • e-Mail

    kimsc@kitech.re.kr

  • Homepage

  • TEL

    041-589-8353

Education

1989-02 / Inha University / Bachelor's

1991-02 / Inha University / Master's

1997-08 / Hanyang University / Doctor's

Representative Study

High efficiency waste heat recovery power system using supercritical organic Rankine cycle

350 kW vapor compression refrigeration system using natural refrigerant (R-718)

Cooling capacity of 200RT class triple effect gas fired absorption chiller

Performance

Development of Core Technologies for Low GWP Refrigeration System

The development of cooling capacity 200RT class triple effect gas fired absorption chiller

Development of 10 HP Hybrid(Decompression Type-Heat Pump System) Dryer for Drying of Marine Products(Sea Cucumber, Oyster)

Development of 350 kW vapor compression refrigeration system using natural refrigerant (R-718)

Development of core technology for waste heat recovery power system using supercritical organic Rankine cycle

Won Yang 교수님
Clean Process/
Energy System Engineering
Cheonan
Clean coal combustion, Carbon capture, Thermochemical conversion of Waste/Biomass

Details

  • Position

    Professor

  • Major

    Industrial Technology

  • Affiliation

    UST-KITECH School

  • Division

    Clean Energy R&D Department

  • e-Mail

    yangwon@kitech.re.kr

  • Homepage

  • TEL

    041-589-8265

Education

1995-02 / Korea Advanced Institute of Science and Technology / Bachelor's

1997-02 / Korea Advanced Institute of Science and Technology / Master's

2004-02 / Korea Advanced Institute of Science and Technology / Doctor's

Representative Study

Carbon capture technology through oxy-fuel combustion

Technologies on fuel substitution and clean combustion for reducing pollutant emissions and CO2 emission

Energy systems for renewable fuels (waste, biomass. etc)

Performance

Development of a smart management system for large-scale boilers purposed to reduction of CO2 emissions

Development of countmeasure technologies for operational problems in energy plants using variable fuels

Development of a high efficient, zero-emission boiler and a CO2 capture/purification technology for thermal power generation based on pressurized oxy-combustion

A Study on moisture re-absorption characteristics of dried coals

Establishement of a on-site test bed for technology demonstration based on a real-scale thermal power plant

Demonstration of biomass torrefaction system of high efficiency targeted to biomass upgrading for thermal power plant

Development of ultra low NOx combustion technology for coal thermal power plant

Uen Do Lee 교수님
Clean Process/
Energy System Engineering
Cheonan
Thermochemical Conversion of Biomass, Combustion Engineering, Fluidized Bed, Gasification, Pyrolysis, Laser Measurement

Details

  • Position

    Professor

  • Major

    Industrial Technology

  • Affiliation

    UST-KITECH School

  • Division

    Clean Energy R&D Department

Education

1997/Korea Advanced Institute of Science and Technology/Mechanical Engineering/B.S.

1999/Korea Advanced Institute of Science and Technology/Mechanical Engineering/M.S.

2005/Korea Advanced Institute of Science and Technology/Mechanical Engineering/Ph.D.

Representative Study

CW Yang et. al., “Oxy-CFB combustion technology for use in power-generation applications,” Fuel 267 (2020) 117-206

JY Jeong, CW Yang, UD Lee, SH Jeong, “Characteristics of the pyrolytic products from the fast pyrolysis of palm kernel cake in a bench-scale fluidized bed reactor,” Journal of Analytical and Applied Pyrolysis 145, (2020) 104-708

J Moon, W Jo, S Jeong, B Bang, Y Choi, J Hwang, U Lee, “Gas cleaning with molten tin for hydrogen sulfide and tar in producer gas generated from biomass gasification,” Energy 130, (2017) 318-326

YD Kim et. al., “Fischer–tropsch diesel production and evaluation as alternative automotive fuel in pilot-scale integrated biomass-to-liquid process,” Applied energy 180, (2016) 301-312

Performance

Development of 8 MWth class biomass gasification system and demonstration (2018-2022)

Development of the High-Efficiency Low-Emission Future Energy Production Technology (2015-2021)

Development of optimal fuel management and co-firing technology to respond to CFB boiler fuel diversification (2020-2021)

Development of Carno-battery technology for making renewable energy sources as base load (2019-2020)

Reduction of non-CO2 gas using liquid metal and high-value-added material production technology (2017-2019)

Baek-Jin Kim 교수님
Clean Process/
Energy System Engineering
Cheonan
High Molecular Material Synthesis and Physical Property

Details

  • Position

    Professor

  • Major

    Industrial Technology

  • Affiliation

    UST-KITECH School

  • Division

    Green and Sustainable Materials R&D Department

  • e-Mail

    bjkim@kitech.re.kr

  • Homepage

  • TEL

    041-5898-663

Education

2004-96 / Seoul National University /Ph.D.

1991-89 / Yonsei University / Master's

1987-82 / Hongik University / Bachelor's

Representative Study

From lignocellulosic biomass to furans via 5-acetoxymethylfurfural as an alternative to 5-hydroxymethylfurfural /Chem Sus Chem / 2015

Efficient preparation of DHMF and HMFA from biomass-derived HMF via a Cannizzaro reaction in ionic liquids/ J. InEC (ACS) /2011

Synthesis and photo-polymerization of bio-based furanic compounds functionalized by 2-hydroxypropyl methacrylate group(s) / JAPS / 2013

Synthesis of BaTiO3 nanoparticles as shape modified filler for high dielectric constant ceramic–polymer composite/ RSC Adv / 2020

Improved Electroadhesive Force by using Fumed Alumina/PDMS Composites / Smart materials and structure / 2021

Use acetate alkylammonium to prepare the new method of AcHMF, CN10416926B (2016)

Method for preparing 5-acetoxymethylfurfural using alkylammonium acetate, US9388150B2, (2016)

Method for Furan-based polyester and its manufacturing (10-1715220, KR. 2017)

Preparation method thereof,Dianehydrohexanehexol derivative, and polycarbonate prepared using the same (10-1867506, KR, 2018)

Method for Polyurethane containing furan-based polyester polyol and its manufacturing (10-1737326, KR, 2017)

Light source curable material for 3D printing containing isosorbide methacrylate (10-1855122, KR, 2018)

Performance

Innovative Technology Development Project

Core Technology Development Project for Industry

Common demand-based Project for Industrialization

Creative industrial Based Business Project

Clean Production based Professional Technology Development Project

YONG JIN KIM 교수님
Clean Process/
Energy System Engineering
Cheonan
Organometallics, Green chemistry, Ionic liquid, CO2 conversion

Details

  • Position

    Professor

  • Major

    Industrial Technology

  • Affiliation

    UST-KITECH School

  • Division

    Gren and Sustainable Materials R&D Department

  • e-Mail

    yjkim@kitech.re.kr

  • Homepage

  • TEL

    041-589-8469

Education

1996-08 / Sogang University / Bachelor's

1999-08 / Sogang University / Master's

2003-08 / Sogang University / Doctor's

Representative Study

YJKIM/Reusable Polystyrene-Functionalized Basic Ionic Liquids as Catalysts for Carboxylation of Amines to Disubstituted Ureas/ACS SUSTAINABLE CHEMISTRY & ENGINEERING/2016

YJKIM/Well-Defined Cesium Benzotriazolide as an Active Catalyst for Generating Disubstituted Ureas from Carbon Dioxide and Amines/CHEMCATCHEM/2017

YJKIM/MnCo2O4 spinel supported ruthenium catalyst for air-oxidation of HMF to FDCA under aqueous phase and base-free conditions/GREEN CHEMISTRY/2017

YJKIM/CuSe2/CeO2 as a novel heterogeneous catalyst for reductive carbonylation of nitroarenes for generating urethanes/APPLED CATALYSIS A, GENERAL/2019

YJKIM/Selenite-catalyzed oxidative carbonylation of alcohols to dialkyl carbonates/APPLIED CATALYSIS B-ENVIRONMENTAL/2019

Performance

Climate Change Technology for Bio-Lubricants

Carbon Neutral Technology for Dialkyl Carbonates and Bio-Derived Furanics

Carbon Utilization Technology for Urethanes and Ureas

Jin-Hyuk Kim 교수님
Clean Process/
Energy System Engineering
Cheonan
Fluid Machinery, Computational Fluid Dynamics, Performance Test, Renewable Energy, Thermal Fluid Analysis

Details

  • Position

    Associate Professor

  • Major

    Industrial Technology

  • Affiliation

    UST-KITECH School

  • Division

    Clean Energy R&D Department

Education

2013-08 / Inha University / Doctor's

Representative Study

Mohamed Murshid Shamsuddeen, Jungwan Park, Young-Seok Choi and Jin-Hyuk Kim, "Unsteady Multi-Phase Cavitation Analysis on the Effect of Anti-Cavity Fin Installed on a Kaplan Turbine Runner," Renewable Energy, Vol. 162, December 2020, pp. 861-876.

Arihant Sonawat, Young-Seok Choi, Kyung Min Kim and Jin-Hyuk Kim, "Parametric Study on the Sensitivity and Influence of Axial and Radial Clearance on the Performance of a Positive Displacement Hydraulic Turbine," Energy, Vol. 201, 15 June 2020, Paper No. 117587.

Arihant Sonawat, Seung-Jun Kim, Hyeon-Mo Yang, Young-Seok Choi, Kyung Min Kim, Yong-Kab Lee and Jin-Hyuk Kim, "Positive Displacement Turbine - A Novel Solution to the Pressure Differential Control Valve Failure Problem and Energy Utilization," Energy, Vol. 190, 1 January 2020, Paper No. 116400.

Performance

[Asia] The Enhanced Performance Development of Ultra Small Hydraulic Power Generator Utilizing State-of-the-art Techniques based on Machine Learning

Shape and CFD Performance Analyses of a Multi-Stage Centrifugal Pump

A Study on the Small Hydropower Generation Technology with the Unused Energy of the Cooling Tower in 500MW Class Cogeneration Power Plant

Serialized Development on Cost Saving 2 Vane Pump for Transferring Solid Matter

Development of Construction Technology for Medium Sized Hydropower Plant

  • Gas chromatography

    Gas chromatography

    • Holding Area

      Ulsan

    • Equipment Description

      휘발성 시료를 구성한 물질이 얼마나 있는지를 규명하는데 사용되는 보편화된 장비로 단일화합물이 컬럼을 빠져나온 시간과 검출기 감응에 대한 면적을 통해 정성 정량 분석이 가능한 장치

  • Specific surface area measuring instrument

    Specific surface area measuring instrument

    • Holding Area

      Ulsan

    • Equipment Description

      Powder Pellet Core 등의 형태를 가지는 시료를 전처리 공정을 통해 불순물 및 유해 가스를 제거한 후 질소 등의 가스를 주입하여 화학적 흡탈착 현상으로부터 Meso/Micro porous 영역의 다공성 물질의 Specific Surface Area Pore Size Pore Volume 등을 측정하는 장비

  • Multiple gas detectors

    Multiple gas detectors

    • Holding Area

      Cheonan

    • Equipment Description

  • Universal material testing machine

    Universal material testing machine

    • Holding Area

      Cheonan

    • Equipment Description

      각종재료의 인장강도시험이 가능하며 별도의 지그를 사용한 기타 시험도 가능한 만능시험기. AC Servo Motor 에 의한 정밀한 시험속도의 제어가 속도스위치 및 CPU system 으로 간단히 변환되며 고정도의 로드셀에 의해 시료에 가해지는 하중을 정밀하게 되는 Interface board 를 통하여 CPU System에서 수집, 분석된다. 또한 시료의 신장량의 측정을 Rotary Encorder 로서 측정하여 이 또한 디지탈로 표시함으로서 일반적인 인장강도시험을 정밀하고 간단하게 시험할 수 있게 한다.

  • High speed performance liquid chromatography

    High speed performance liquid chromatography

    • Holding Area

      Cheonan

    • Equipment Description

  • X-ray diffraction analyzer

    X-ray diffraction analyzer

    • Holding Area

      Cheonan

    • Equipment Description

      재료의 결정면에 X-선을 주사하여 일어나는 회절현상을 이용하여 물질의 결정구조를 분석하는 장비. XRD는 회절된 X-ray 감도들에 의해서 변화들이 시료의 회절각에 의해서 회절되고, 기록되며, 측정되어진다. 이 결과로 시료의 X-ray 회절 패턴을 알 수 있다. 피크 위치와 감도들은 컴퓨터 분석을 통하여 정성분석과 격자 상수 결정 그리고 시료의 stress 결정을 할 수 있도록 도와준다. 피크의 각도와 윤곽들은 입자사이즈를 결정하는데 사용되며, 결정화도를 결정하는데도 이용된다.

  • Polymer synthesis reactor

    Polymer synthesis reactor

    • Holding Area

      Cheonan

    • Equipment Description

      이산화탄소 기반 플랫폼 화합물 제조기술 관련 고분자 제조를 위해 필요한 반응기 시스템. 화합물을 합성할 때 반응조건을 조절하기 위해 교반속도, 온도 등을 조절한다.

  • 준비 중 입니다

    Polymer viscoelastic thermal analyzer

    • Holding Area

      Cheonan

    • Equipment Description

      천연재생자원인 바이오매스를 이용하여 열/기계적 물성이 우수하여 전기전자 소재/부품용으로 사용이 가능한 바이오고분자 소재의 상용화 생산공정의 개발을 위한 실험에 있어, 개발된 고분자 소재의 점탄성 분석을 통한 고분자의 물리화학적 구조 및 기계적 성질을 측정/분석하는 장비

  • High temperature GPC (Gel permation chloromatograp

    High temperature GPC (Gel permation chloromatograp

    • Holding Area

      Cheonan

    • Equipment Description

  • Differential scanning calorimetry

    Differential scanning calorimetry

    • Holding Area

      Cheonan

    • Equipment Description

Project Title
Task Period
Total Research Costs
Joint Research Institute
Subject Content

'There is no such information.'