http://eews.kaist.ac.kr
KAIST
EEWS
Initiative
Energy, Environment, Water and Sustainability
Research for Global Issues on EEWS Education for Global Leaders on EEWS
Korea Advanced Institute of Science and Technology
KAIST EEWS Initiative
KAIST Message
EEWS Fellow
Research for Global Issues on EEWS Education for Global Leaders on EEWS The human habitats of the earth are facing great challenges in terms of energy, water and resource shortages, along with the global ecological challenges caused by climate change. KAIST is committed to solving such problems involving Energy, Environment, Water, and Sustainability (EEWS). The EEWS initiative at KAIST is being conducted in tandem with the Korean Government’s Green Growth initiative from a research-oriented EEWS Research
university’s point of view. In order to meet these challenges, KAIST aims to research the fundamental problems of EEWS. This year, the KAIST EEWS Initiative is conducting 27 research projects in ten categories, and seven projects have been specifically selected as the flagship projects. The research outcomes are exchanged with global researchers and industrial experts every September through the International Workshop on EEWS.
International Relations
EEWS Education
President
Nam Pyo Suh
Supplying talented and well-trained scholars is essential in order to enhance national and global EEWS research capability. For this purpose, the Graduate School of EEWS has been established in cooperation with 16 departments to educate masters and doctoral students. The EEWS Executive Program educates the current top managers to cultivate new green industries, and the MBA in Green Policy and in Green Finance focuses on the next generation managers. The integration of research, education, knowledge exchange, and commercialization of EEWS is the cycle that the EEWS Initiative is aiming for in order to solve the problems of EEWS. Through this contribution, KAIST will become a global leader of the future. We at KAIST are open to cooperation with research institutions and industries that share this common vision.
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Dean of EEWS Initiative
Jae Kyu Lee
Energy, Environment, Water, and
Global EEWS Problems Energy, Environment, Water, and Sustainability Global Problems on EEWS
Energy The world will begin to run out of conventional and affordable fossil fuels in the 21st century and will need alternative energy sources that are clean and renewable. Without cheap energy, the industrial operations and the quality of life will deteriorate. It may also create new conflicts between regions and among countries. We need to develop new technologies and policies that will assure the supply of low cost energy from alternative sources and avoid the precipitation of these conflicts. It is essential to develop the key technologies and also design an optimal energy portfolio plan with an appropriate transition policy.
Environment The world is facing serious environmental problems that will vastly change the climate of the globe and degrade the quality of human life. Global warming, which is a one facet of the problems, will require a major concerted effort to minimize its adverse effects through the collaboration of many nations and many institutions. There are scattered efforts in many institutions to solve environmental problems, but there are many outstanding challenges and opportunities in realizing the ideas proposed and pursued, i.e., sequestration of CO2, creation of non-polluting cars, new mega-city designs, restoration of forests in tropical areas, desalination of seawater and brackish water through conventional processes, and many others.
Water The lack of potable and agricultural water will be as serious as, if not more serious than, the lack of energy. Lack of water has become a major problem in many parts of the world. One solution is desalination, since 97% of the earth’s water is in the ocean. We need to develop new technologies that can desalinate the seawater or brackish water without excess use of energy. We need better technologies that can remove NaCl than the current technologies that depend on evaporation, reverse osmosis, or other energy intensive technologies.
Sustainability Current human lifestyles and the use of natural resources cannot be sustained as more countries continue to develop. If China and India attain the living standards of the advanced nations, the world will implode due to the resource shortage. We need new technologies of manufacturing, new alternate materials, a new lifestyle that minimizes the consumption of natural resources, and new public policies. There are some scattered efforts in many countries to deal with these problems, but they are too limited to provide a comprehensive solution.
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KAIST EEWS Initiative EEWS Fellow
Vision of EEWS Initiative
EEWS as Green Growth Engines
EEWS Research
Solving Global EEWS Problems
EEWS Education
Knowledge Hub of EEWS
International Relations
Research for Global Issues on EEWS
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Education for Global Leaders on EEWS
International Collaboration on EEWS
Energy, Environment, Water, and
Focus of EEWS Initiative EEWS Initiative will cultivate KAIST as an international hub in the areas of energy, environment, water and sustainability in the 21st century.
Research • Exploring high impact research topics toward global solutions in Energy, Environment, Water, and Sustainability - EEWS Research Project - Institute for Artificial Ecology Research
Education • Human resource development in EEWS area for the next generation. - Graduate School of EEWS - EEWS Executive Program - Green Finance MBA Program
International Collaboration • Establishment of international knowledge hub of EEWS through international collaboration - International Workshop on EEWS - MIT-KAIST Joint Conference
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KAIST EEWS Initiative
KAIST EEWS Initiative
EEWS Fellow
â– Organization
President
KAIST Institutes
Provost
EEWS Research
EEWS Initiative Dean and Office
5 Colleges of 18 Departments
EEWS Research 16 Participating Departments 4 Participating KIs
EEWS Education
EEWS Education
Graduate School of EEWS EEWS Executive Program Green MBA Programs
International Collaboration
International Relations
International Workshop on EEWS MIT-KAIST Joint Conference
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Energy, Environment, Water, and
EEWS Research Organization ■ 250 Participating Researchers from 16 Departments ■ Four Participating KAIST Institutes ■ Establishing EEWS Centers at KAIST Incheon Campus • KI for BioCentury
• 65 Fellow Professors
• KI for NanoCentury
• 250 Researchers
• KI for EcoEnergy
• 16 Participating
• KI for Urban Space &
Departments
System
Participating Departments at KAIST
KAIST
EEWS Research EEWS Research Projects • 17 Projects in 2008
EEWS Collaboration Centers • Institute for
• 24 Projects in 2009
Artificial Ecology
• 30 Projects in 2010
Research
Seven Flagship Projects
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KAIST EEWS Initiative
EEWS Research Fellow EEWS Research Field
Name
EEWS Fellow
CHANG, Ho Nam HAN, Jong In
Bio Fuel
EEWS Research
CO2 Sequestration and Storage
EEWS Education
Enhancing Energy Efficiency
Environment Protection and Recovery
LEE, Sang Yup
Chemical and Biomolecular Engineering
LEE, Sung-Taik
Biological Science
SHIN, Hang-Sik
Civil and Environmental Engineering
YANG, Ji-Won
Chemical and Biomolecular Engineering
CHO, Gye-Chun
Civil and Environmental Engineering
LEE, Woojin
Civil and Environmental Engineering
Graduate School of Management
LEE, Jae Kyu
Graduate School of Management
RHEE, Seung Kyu
Graduate School of Management
CHANG, Sukbok
Chemistry
LEE, Duck-Joo
Aerospace Engineering
NO, Kwang Soo
Materials Science and Engineering
PARK, Chul
Aerospace Engineering
SONG, Tae-Ho
Mechanical Engineering
KIM, Jung Hoe
Bio Engineering
LEE, Hyuck Mo
Mechanical Engineering
PARK, Chan Beum
International Relations
CHOI, Do Hyung
Biological Science Materials Science and Engineering Mechanical Engineering Chemical and Biomolecular Engineering
LEE, Huen
Chemistry
PARK, Joon Taik
Chemistry
SUNG, Hyung Jin
Mechanical Engineering
WOO, Seong Ihl
Chemical and Biomolecular Engineering
CHO, Dong Ho
Electrical Engineering
CHO, Yung-Hoon JEONG, Yong Hoon RIM, Chun Taek
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Business Economics Program
LEE, Byung Tae
BAE, Joongmyeon
Green Cars
Civil and Environmental Engineering Biological Science
YU, Jin
Fuel Cells
Chemical and Biomolecular Engineering
KIM, Sun Chang
CHANG, Hyun-Joon
EEWS Strategy
Department
Physics Nuclear and Quantum Engineering Aerospace Engineering
Energy, Environment, Water, and
EEWS Research Field
Hydrogen Energy
Name
Department
JEON, Duk Young
Materials Science and Engineering
BAE, Choongsik
Mechanical Engineering
KANG, Jeung Ku
Materials Science and Engineering
KIM, Yong Hyun
Nanoscience & Technology
KWON, Hyuk Sang LEE, Heun
Lithium Secondary Battery
Nuclear Energy
Solar Cells
Chemistry
PARK, Jeong Young
Chemistry
SONG, Hyunjoon
Civil and Environmental Engineering
KANG, Kisuk
Materials Science and Engineering
PARK, Jung-Ki
Chemical and Biomolecular Engineering
CHANG, Soon Heung
Nuclear and Quantum Engineering
CHO, Nam Zin
Nuclear and Quantum Engineering
KONG, Hong Jin
Physics
NO, Hee Cheon
Nuclear and Quantum Engineering
SOHN, Hoon
Civil and Environmental Engineering
YUN, Jong Ihl
Nuclear and Quantum Engineering
AHN, Byung Tae
Materials Science and Engineering
HONG, Soon Hyung
Materials Science and Engineering
JEONG, Hee-tae
YOO, Seunghyup
Water
Chemical and Biomolecular Engineering
LEE, Yoon Sup
KIM, Sang Ouk
Sustainable Building & Manufacturing
Materials Science and Engineering
Chemical and Biomolecular Engineering Materials Science and Engineering Electrical Engineering
SUH, Hyo-Won
Industry & System Engineering
JUN, Hong-Bae
Industry & System Engineering
KIM, Yeong Dae
Industry & System Engineering
LEE, Tae-Sik
Industry & System Engineering
MORRISON, James
Industry & System Engineering
CHANG, Seong-Ju
Civil and Environmental Engineering
DIALLO, S. Mamadou
EEWS Graduate School
JEONG, You Seong
EEWS Graduate School
PARK, Hee Kyung
Civil and Environmental Engineering
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KAIST EEWS Initiative EEWS Fellow
EEWS Research • Exploring innovative research topics in energy, environment, water and sustainability of resources. • National funding for five years. ■ EEWS 2010 Research Projects: Ten Categories • CO2 Storage & Artificial Photosynthesis • Nano Organic Solar Cell
EEWS Research
• Green Cars • Nuclear Fuel Reuse • High Efficient Biofuel & Environment Restoration • High Performance Fuel Cell • Highly Efficient LEDs
EEWS Education
• Sustainable Building & Manufacturing • Enhancing Energy Efficiency
International Relations
• EEWS Strategy
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Energy, Environment, Water, and
■ EEWS 2010 Research Projects: Seven Flagship Projects
The flagship projects aim to solve the important problems by a creative new approach. • Bio Butanol Technology and Supply Chain [Professor Sun Chang Kim] • Safe Nuclear Fuel Reuse [Professor Jong-Il Yun, Nam Zin Cho, Soon Heung Chang, Hee Cheon No, Yong Hoon Jeong] • Liquid Hydrocarbon Fueled SOFC [Professor Joongmyeon Bae] • Flexible Lithium Rechargeable Battery [Professor Kisuk Kang, Jung-Ki Park] • Nano Organic Solar Cell [Professor Sang Ouk Kim, Soon Hyung Hong, Hee-Tae Jung, Seunghyup Yoo] • Artificial Photosynthesis [Professor Jeung Ku Kang, Seong Ihl Woo, Hyunjoon Song, Huen Lee, Jeong Young Park] • LED Lighting 2.0 [Professor Duck Young Jeon, Yong-Hoon Cho]
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KAIST EEWS Initiative
Graduate School of EEWS
EEWS Fellow
■ Goal & Vision • Global Hub for Research, Innovation and Education on EEWS • World Best MS and Ph.D Program in EEWS
■ Major Achievements • Hybrid STM/AFM sensing current and forces with a shape probe [Professor Jeong Young Park, Materialstoday, 2010] • Directional photofluidization lithography for nanoarchitectures [Professor Jung Ki Park, Nanoletters, 2009]
EEWS Research
• Glycerol as a bioderived sustainable fuel for solid-oxide fuel cells with internal reforming [Professor Seong Ihl Woo, Chemsuschem, 2009]
International Relations
EEWS Education
• Stable single-nit-cell nanosheets of zeolite MFI as active and long-lived catalysts [Professor Osamu Terasaki, Nature, 2009] • Core/shell structure of nanoparticle-nanotube hybrid [Professor Jeung Ku Kang, Advanced Functional Materials, 2009]
• Thermally stable Pt/mesoporous silica core-shell nanocatalyst [Professor Jeong Young Park, Nature Materials, 2009] • Fabricating genetically engineered high-power lithium ion batteries [Professor Kisuk Kang, Science, 2009]
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http://eewseng.kaist.ac.kr
College of Natural Science
College of Life Science and Bioengineering
College of Engineering
College of Information Science &Technology
Graduate School of EEWS
(Chair: Professor Jeung Ku Kang)
Energy Science & Engineering (WCU Program)
Environment Science & Engineering
Water & Sustainable Engineering
Faculty
Professor Jeung Ku Kang
Professor Galen D. Stucky
Professor Omar M. Yaghi
Professor Jung-Ki Park
Professor Mamadou S. Diallo
Professor William A. Goddarad III
Professor Jeong Young Park
Professor Kisuk Kang
Professor Seoung Ihl Woo
Professor Seung Min Jane Han
Professor Yousung Jung
Professor Terasaki Osamu
Professor Heun Lee
Professor Jae Young Lee 13
KAIST EEWS Initiative
EEWS Executive Program
EEWS Fellow
We provide the knowledge and vision to help executives become leaders in green industries What kind of renewable energy should we choose in order not to depend on fossil fuels? What is the present situation of renewable technologies? How can we create technology for the storage of emitted CO2 and transform to reusable resources?
EEWS Research
What are the alternative energy sources to petroleum? When they can become cost effective?
What is the future’s eco-friendly and effective generation system of electric power?
What is the future of the eco-friendly car?
EEWS Education
How can we save energy in freshening seawater, as 97% of water on earth is seawater?
How can we turn waste into resources by using more eco-friendly methods?
Planning for successful green growth business models
International Relations
Energy
Environment
Water
Sustainability
Understanding the local and global green growth policies
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Green growth technologies, now and beyond
Vision of local and global green growth industries
http://eews.kaist.ac.kr/executivepro
Meet EEWS Executive Program on Every Wednesday at the Seoul Campus of KAIST (Contact: eewsceo@kaist.ac.kr) Curriculums • EEWS as Green Growth Engine • Policy for Energy, Environment and Business Strategy • EEWS Funds and Consulting Business • Solar Energy and Wind Energy • CO2 Recovery and Reuse • Fuel Cell and Hydrogen • Biofuel and Bioenergy • Nuclear, Tidal and Thermal Energy • Energy Storage • Petroleum Synthesis and Clean Coal • Green IT, Smart Grid and Energy Saving • Future Automobile: Green Car • Desalination and Reuse of Resources • Future Buildings and Cities with EEWS • Project Workshop • Field Trip - EEWS Workshop at the Deajeon Campus - Industrial Tours for EEWS Benchmarking
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KAIST EEWS Initiative
Green MBA and Ph.D. Programs in Business ■ Green Business MBA
EEWS Fellow
1) Vision
• Educate experts specialized in green business and policy to cope with the business issues associated with the climate change problems
2) Program • Two years full time MBA program (54 credits)
• As a Green Business Track of Techno-MBA Program (15 credits in special green track courses)
• Courses offered in conjunction with Graduate School of Management
EEWS Research
■ Green Finance MBA 1) Vision
• Educate experts specialized in green finance and investment
2) Program
• Two years full time MBA program (54 credits)
• As a Green Finance Track of Finance MBA Program (15 credits from special green track courses)
• Courses offered in conjunction with Graduate School of Finance
■ Green Management Ph.D
• Educate academic researchers specialized in green management, business, and economics
2) Program
• Full time Ph.D. Program
• As a Green ManagementTrack of Ph.D. in Management Engineering (18 credits in special green track courses)
• Courses offered in conjunction with Ph.D. Program in Management Engineering
International Relations
EEWS Education
1) Vision
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Energy, Environment, Water, and http://eews.kaist.ac.kr/executivepro
International Workshops on EEWS ■ EEWS 2008: Challenges as Opportunities Sessions • Hydrogen Energy (I / II) • Sustainability, Environment (I / II) • Fuel Cell (I / II) • Solar Energy Water and Environment
Plenary Speakers
Ahemed F. Ghoniem [Professor, MIT]
Jay Koo [President, SK
William A. Goddard, lll
■ EEWS 2009: Effectiveness of EEWS as the Growth Engines Sessions • Green Car and Online Electric Vehicle • Carbon Reuse and Sequestration • Is Biofuel Cost Efficient and Sufficient? • Prospect of Organic & Dye-sensitized Solar Cells • Artificial Photosynthesis • Thrusts towards Environment Monitoring and Analysis • How to Make Fuel Cell Cost Effective? • Nuclear Energy Sustainability • Commercialization of EEWS Technologies • Next Stage of Wind Energy • Battery Breakthrough
Plenary Speakers
Omar M. Yaghi [Professor, ULCA]
Joon-Hyun Lee [President, KETEP]
Tae Shin Kwon [Minister, Prime Minister’s Office]
Nam Pyo Suh [President, KAIST]
Lars Pallesen [President, Technical Univ. of
Masahiro Watanabe [Professor, Univ. of Yamanashi]
Jae Kyu Lee Keh-Sik Min [Dean, EEWS Initiative] [Chairman, Hyundai Heavy Industries]
Hiroshi Amano [Professor, Meijo
Sang Yup Lee [Professor, KAIST]
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KAIST EEWS Initiative
International Workshops on EEWS ■ EEWS 2010: Creating New Industries with EEWS
EEWS Research
EEWS Fellow
Sessions • Artificial Photosynthesis: Generation of Sustainable Hydrogen & Hydrocarbons • Wireless Power Transfer • Green Aviation: Global Movements and Korea’s Response • Artificial Photosynthesis: Generation of Sustainable Hydrogen & Hydrocarbons • Safe Nuclear Fuel Reuse • Green Aviation: Global Movements and Korea’s Response • Artificial Photosynthesis: Biofuel Conversion • Fuel Cells in Action • LED 2.0 : Toward Top in the World LED Market? • Foundation of Energy-Water Nexus • Flexible Battery & Solar Cell • LED 2.0 : Toward Top in the World LED Market?
Plenary Speakers "Creating New Industries with EEWS" Nam Pyo Suh
International Relations
EEWS Education
President, KAIST
Jae Kyu Lee Dean, EEWS Initiative, KAIST
“Solar Fuel Production based on Photocatalytic Water Splitting” Domen Kazunari Professor, Tokyo University
“Potential of Nanomaterial for Future Energy”
“Challenges and Opportunities of CO2 Polymer and Li-ion Batteries”
Doyoung Seung
Dong Sub Kim
Professor, Tokyo University
Head, SK Energy Institute of Technology
“Photoelectrochemical Water Treatment Coupled with Environmental Sustainability via Solar Fuels Production” Michael Hoffman
“The Coming Revolution in Water Impacting Energy and Health”
Professor, Caltech
Head, SK Energy Institute of Technology
“Solid State Lighting : Economics, Science and Technology”
“Recent Development of Solid Oxide Fuel Cells in Japan”
Jung Han
Harumi Yokokawa
Professor, Yale Univ.
Professor, Tokyo City University
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Dong Sub Kim
Energy, Environment, Water, and
■ MIT-KAIST Joint Conference 2010 Energy Materials The Materials Genome Project at MIT: Accelerated and Large-Scale Materials Discovery in the Energy Field - Gerbrand Ceder (MIT). Design and Realization of Hydrogen Storage on Advanced Porous Materials - Jeung Ku Kang (KAIST). Naval Architecture Floating Offshore Wind Turbines - Paul D. Sclavounos (MIT). Mobile Harbor: From New Concept to New Technology - Byung Man Kwak, Youn Sik Park (KAIST). Pervasive Computing Computer Science Artificial Intelligence T-Party at MIT: A Research Collaboration on the Future of Mobile IT - Christopher J. Terman (MIT). Mobility through the Cloud: Ubiquitous PC at KAIST Dongman Lee (KAIST). Bio-Platform Technologies Development of Advanced Biomaterials and Stem Cell Based Therapeutics - Jeffrey M. Karp (MIT). Systems Biotechnology - Sang Yup Lee (KAIST).
■ Annual Green Business Plan Contest 2010 Winners The First : Femtosecond Laser based Green Manufacturing [Prof. Seung-Woo Kim(KAIST)] The Second : Solid Electrochemical CO2 Sensor [Dr. Junwong Kim(CIOS Inc.)] The Third : Wireless Power Transfer [Prof. In-Soo Suh(KAIST)]
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http://eews.kaist.ac.kr
305-701, Korea Advanced Institute of Science and Technology 335, Gwahangno, Yuseong-gu, Daejeon, Republic of Korea Tel: +82-42-350-2016 130-722, Korea Advanced Institute of Science and Technology, 87 Hoegiro, Dongdaemun-gu, Seoul, Republic of Korea Tel: +82-2-958-3672, Fax: 82-2-960-2102
KAIST EEWS Initiative. Copyright(C) 2010 KAIST EEWS Initiative Co.,Ltd. All rights reserved.