KOSEN 한인과학기술자네트워크

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Ⅰ. 미주 ···························································································1
◇ 美, 과대평가된 풍력발전에 대한 재고 ···········································1
◇ 美, McClellan Neutron Radiation Center (MNRC) 연료전지 3차원
이미지 가시화 장치 운용 ·································································2
◇ 美, 내구성이 월등히 향상된 연료전지용 저백금core-shell 전극
촉매 개발 ·····························································································3
◇ 美, Oorja사와 남아공 HySA사는 DMFC 제품의 남아프리카 시장
개척에 합의 ·························································································4
◇ 미국, 사탕무 활용 차세대 바이오정제 시연 플랜트 건설 ·········5
◇ Chemical looping 공정용 철 산화물 매체 성능 향상을 ZrO2 지
지체 담지로 극복 ···············································································6
◇ 브라질, 상파울루州풍력발전 프로젝트 가속 ·······························7
Ⅱ. 유럽 ···························································································8
◇ 독일, 셰일가스 개발 관련 법안 발표 ·············································8
◇ 독일, 열부하 98%이상 태양열로 공급가능한 주택의 성능발표 9
◇ ？, SFC사는 군용, 감시용 DMFC 제품의 판매를 시작 ···········10
◇ 폴란드, 갈탄채굴 관련 신규 법안 마련 계획 ·····························11
◇ Advances In CO2 capture technlogy : A patent review ············ 12
◇ EU, Air Liduide사 네덜란드 첫 번째 일반용 수소 충전소 계획
···············································································································13
◇ Hydrogen fuel coming to Columbia ···············································14
◇ 스웨덴, 태양열집열기 통합형 진공관형 냉난방 유닛 개발 ·····15
Ⅲ. 아시아 ····················································································17
◇ 국내, 세계 최초 ‘수소연료전지차’양산, 현대자동차가 친환경 자
동차 시장 선도 ·················································································17
◇ 中, 석탄수입 확대로 인한 석탄 확보 경쟁 심화 전망 ·············18
◇ 中, 통신분야 에너지절약 및 오염물질 배출감소 지침 마련·····19
◇ 日, 신재생에너지 고정가격 전매제도 가격 조정························ 20
Ⅳ. 해외출장보고서 ··································································· 21
◇ Solar Frontier 및 타기관 CIS계 박막 태양전지 기술 ················· 21
◇ 英, 재생에너지 가상발전소를 형성하기 위한 독창적 방안 고안 ··22
◇ 옥스포드 대학 바이오에너지 기술개발········································· 23
◇ Japan Solar, 박막실리콘 이용해서 BIPV를 위한 창재용 투과형 모듈
개발. 염료감응 모듈과 경쟁가능 하며, 효율도 8.74 % 달성·········· 24
◇ 태양전지를 이용한 휴대용 충전 기기··········································· 25
◇ 일본의 가정용 연료전지 개발·························································26
◇ 알칼리 연료전지 개발 동향·····························································27
◇ 연료전지기술 개발 동향 ···································································28
◇ CIGS 모듈 시장 - 태양광 기술······················································29
◇ HySUT(The Research Association of Hydrogen Supply Utilization
Technology, 수소공급 및 이용 기술 연구조합) ····························30
◇ CAS의 석탄, 바이오매스 열분해 기술···········································32
◇ 가압 유동층 연소 기술·····································································33
◇ 日SHARP, 기존의 염료보다 더 많은 빛을 흡수할 수 있는 염료
개발 ·······································································································34
◇ 日FUJIKURA, 염료감응태양전지의 이용 가능한 다양한 어플리
케이션 개발 연구···············································································35
◇ Tohoku Univ., 新Baking 공정에 의한 Cu Paste의 태양전지 전면
전극으로의 응용·················································································36
◇ 美, ARPA-E 풍력분야 소재기술 개발 동향 ······························· 37
◇ Energy harvesting Technology의 개발과 Application ··················38
◇ 美- Ube's SiC-based 세라믹섬유 연구 동향·····························39
◇ 한국, 삼성에스디아이 - ESS 기술·················································40



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