Tokyo Institute of Technology July 5, 2010
KAIST INSTITUTE
Advisory Committee KI Management Advisory Committee
KI for the BioCentury
KI for Information Technology Convergence
KI for Design of Complex Systems
KI for Entertainment Engineering
KI for the NanoCentury
KI for Urban Space and Systems
KI for Optical Science and Technology
Research Planning Team
President
Vice President for KAIST Institutes
KI for Eco-Energy
KI for Eco-Energy
The goal of KAIST Institute for Eco-Energy is to build an interdisciplinary research team to carry out energy-related world-class research and education
Global Warming
& Shortage of
fossil Fuels
Eco-EnergyInterdisciplinary
Research
Research ability
& Infrastructure
Hydrogen/Fuel Cell Research Center
Research Centers at KIEE
DME Flame Image Diesel Flame ImageEco-Combustion Research Center
The effect of DME injection timing on exhaust and performance The effect of DME injection quantity on exhausts and performance The effect of hydrogen injection quantity on exhausts
Solar Cell Research CenterCIGS Solar Cell at KAISTSe flux of 15Å/s, 35Å/s
For the Se flux of 15 Å/s, faceted and tightly connected grains were grown on the surface. The grains were large and pores were observed along the grain boundaries when at a Se flux of 35 Å/s
Development of metal-supported SOFC with high mechanical strength Development of integrated diesel reformer with high efficiency and stability Design of mobile SOFC system
Metal-supported SOFC Integrated diesel reformer
SOFC system
1) SOFC2) PEMFC 3) Innovative FC 4) Bio FC
Fuel Cell
1) Nuclear-hydrogen production system
2) Solar-hydrogen production system
3) Fuel reforming technology
4) Special catalysis-hydrogen production
5) Biomass energy production
Hydrogen Production
1) Innovative Hydrogen
storage system 2) High-efficient
secondary battery
Hydrogen-ElectricalEnergy Storage
1) Si solar cell 2) CIGS-solar cell 3) a-Si/nc-Si tandem
cell4) high polymer solar cell 5) Artificial photosynthesis
Solar cells
1) clean alternative fuels 2) innovative combustion
technology 3) high efficiency clean
fossil fuel 4) micro power generation
Eco-Combustion Technology
1) Solar-Desalination 2) Nuclear-Desalination
Desalination
1) Power Plant Life Extension Technology 2) Power Up-rating Technology 3) Power Saving Technology 4) Cost Saving in Power Generating Stations
by Power Factor Improvement 5) Superconducting power generator 6) High Efficiency Energy Conversion
Power Generation & Efficiency Enhancement
KI for Eco-Energy
Research Area
Feb.01,2007 Establishment of the KAIST Institute
Mar.29,2007A test drive of hydrogen-cell-powered automobiles and an exhibition of related auto parts at the head office of KAIST
Apr.06,2007 Exchange of MOU and the opening of a forum for partnership between the KI
for Eco-Energy - KEPRI
Apr.27,2007Contract between MOU and CT Energy: 3% of the stock of CT Energy is transf
erred to the KI for Eco-Energy.
May 02,2007 Samsung Advanced Institute of Technology-KAIST Workshop
July 23,2007 The Presidential Committee of the KEPRI : Selection of four projects
Sep.06,2007 The 1st KI International Symposium
Nov.14,2007 CT Energy Gave The Certificate to Donate 1200 Stocks to KAIST
Dec.11,2007KAIST-KEPCO Cooperative meeting / The 2nd Presidential Committee of the K
EPRI
June 11,2008 The Second Meeting of Planning Committee (KEPRI+Eco-energy)
June 30,2008 Cooperative meeting with Korea Institute of Machinery & Materials(KIMM)
June 30,2008KAIST and CT&T exchanged a memorandum of understanding to develop a s
olar powered vehicle
History
Aug. 21,2008 KI for Eco-Energy - Uinversity of California Irvine MOU Exchange
Oct. 13,2008EIAST/KAIST Meeting for MOU Exchange and KAIST-EIAST Joint Research Proj
ect Initiation
Feb. 23,2009 KI for Eco-Energy - Univeristy of South Carolina MOU Exchange
Mar. 01,2009New Director of KI for Eco-Energy: Prof. Bae, Joongmyeon (Dept. Mechanical
Eng.)
May 19,2009 Malaysia UNITEN Visit: Discussion about possibility of cooperation
June 08,2009Washington University Visit: International Summer Experience in Energy, Envir
onmental & Chemical Engineering
July 15,2009 Green Growth & Future Tech Daejeon' Exhibition
Aug. 05,2009The 3rd Presidential Committee of the KEPRI / KI for Eco-Energy - KEPRI Wor
kshop
Sep. 24,2009 The 3rd KI International Symposium
History
Materials(Electrode / Electrolyte)
-Electrode / Electrolyte design
-Deterioration mechanism
of electrode
-Advancement of the
SOFC cell performance
Manufacture
/ Processing
-ESSD thin layer coating tech.
-Rapid sintering processes.
-Manufacture of SOFC
using JP process
Development of SOFC
System Analysis
-Development of SOFC
analysis model
-Development of the Fuel reformer
-SOFC/Reformer performance test
KEPRI
POSCO
Power
SAMSUNG
SDI
• Development of Breakthrough technology
for Reliability of SOFC and scale-up
• High Caliber Education for SOFC.
Ind
ust
rial-
Ed
uca
tio
nal
coo
per
ati
on
Univ. St.
Andrew
CFC/USC
CFCC
Inte
rnati
on
al
Jo
int
Res
earc
h
ARAMCO
AIST
NFCRC
Research Center of Breakthrough Technology
Organization of Research Center
KAIST
Department of mechanical engineering
•Joining process for SOFC scales up
SOFC system
• engagement operation or SOFC and
Reformer
Seoul National Univ.Department of material science and engineering
•Research for Deterioration mechanism
of electrode
Jeonnam national Univ.Department of material science
and engineering
•Research for Cathode and
anode materials
Jeonbok National Univ.
Department of material science
and engineering
•Rapid sintering Process
Hanyang Univ.Department of material science and
engineering
•Research of thin film electrolyte
manufacturing processes
Department of chemical engineering
•Development of SOFC analysis
model
Sung Kyun Kyan Univ.
Department of material science
and engineering
•Research for Deterioration
mechanism of electrode
MaterialsManufacture
process
System design
- Development High performing
electrode / electrolyte
- Research deterioration mechanism
of electrode / electrolyte
- Research for high strengthens of
SOFC materials
- Development high performing
Reformer
- Research of SOFC analysis model
- SOFC & Reformer joining operation
test
- Research for ESSD electrolyte
coating method
- Development high durable SOFC
using metal sintering
- Development MS SOFC using
JP(Joining process)
Project of Research Center
Ph.D. courseKyoujong Bae
Ph.D. courseSangho Yoon
Internal reforming
Diesel reforming
Water Gas Shift
Diesel reforming
Hydrogen
Ph.D. courseKwangjin Park
Ph.D. courseSeung-Wook Baek
Ph.D. courseYu-Mi Kim
Metal-supported SOFC
SOFC electrode material
SOFC
M.S. courseSeung-hyun Jeon
M.S. courseSangho Lee
M.S. courseJihoon Jeong
Ph.D. courseByungyoung Yoon
PEMFCPh.D. courseDongryul LeePEMFC water management
Numerical Analysis
Reformer & SOFC
Chemical kinetics
Ph.D. courseJoonguen Park
Ph.D. courseSunyoung Kim
SOEC
Research AssociateMai Kim
Electrolysis cell operation M.S. courseSungoh Yu
High temperature steam electrolysis Ph.D. course
Hobin Yim
AssistantEunyoung Park
AssistantHeejung Yang
Staff(Metal-supported SOFC fabrication)Byung-wook Park
Staff
Industrial collaboration
Fuel Processor
Fuel Cell
KAISTKEPCO, SK, POSCO
KEPCO, HanChem
· 1kWe NG reforming catalyst
· Development of 5kWe DieselReformer
· Numerical analysis for H2
station · Development ofWGS catalyst
· Development ofkWe class SOFC system
· Manufacturing SOFC materials
Saudi Aramco
· Development ofSOFC system
High Temp Fuel Cell component, module, & small system
Metal-supported SOFC
kW reformer module
kW SOFC stack module
kW SOFC system
HnPower Inc.