KOSEN 한인과학기술자네트워크

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I. 미주 ······························································································1

◇ 美, CSP 운전 온도 상승을 위한 대체 열전달 유체 연구···········1
◇ 美, 탄소배출감축 목표량 설정 유보················································2
◇ 美Aker Clean Carbon, 연소 후 포집공정의 아민 대기 방출 제어
기술 개발 ·······························································································3
◇ 美, 미국 항공사의 EU ETS 관련 보호법 승인 ······························4
◇ 美, 캘리포니아주 전기차의 메카로 부상할 예정···························5
◇ 美, 산화-환원 전기화학적촉매로서 향상된 활성과 안정성을 갖는 intermetallic Pt-Co 코어-쉘 나노입자 개발·····································6
◇ 美ORNL, Simple lignin-based thermoplastic 전환 공정 개발···· 7
◇ 美DOE, 미세조류로부터 sustainable energy 생산 연구 지원 ··· 8
◇ 美Rice대, 나노입자와 태양에너지로 스팀생산 기술 개발 ········· 9
◇ 美JBI, 셀룰로오스계 바이오연료에서 크실란 추출 기술 개발 10
◇ 美ADA-ES, 고체흡수제 이용 연소후 CO2 포집기술개발········ 11
◇ 美, Smart meter 보급률 증가추세···················································12
◇ 美, 차량용 천연가스 탱크와 펌프의 개발···································· 14
◇ 美, 알라스카에서 메탄 하이드레이트 생산을 위한 드릴링 실시중··· 15
◇ 美, 셰일가스 개발에 따른 CCS 기술 전망·································· 16
◇ 美, Nanopore 그래핀을 이용한 담수화··········································17
◇ 美, 조류 바이오매스의 탈수를 위한 막분리공정 개발 ···············18
◇ 美, Graphene/Nanotube hybrid for energy storage/electrodes ···· 19
◇ 美, 나노섬유를 이용한 FO/PRO 맴브레인 개발··························20

II. 유럽 ························································································21

◇ 獨, 에너지 계획에서 수소의 중요성 대두···································· 21
◇ 獨, Freiberg 대학 연구진, 고 회재 석탄의 가스화기 모델링 평가··· 22
◇ 獨, BASF사의 이산화탄소 포집기술 개발 전략···························23
◇ 네덜란드 Wetsus, capacitive electrode를 이용한 염분차발전 ··· 24
◇ 아일랜드, 탄소세(carbon tax) 인상 발표········································25
◇ 佛, 국내 최초의 태양열 등 재생열연계 지역난방 착수·············26
◇ 佛, 에탄올 생산을 위한 이산화탄소 Recycling ···························· 28
◇ EU, 에코디자인 지침 마련을 위한 시행계획 발표 ····················· 29
◇ EU, TEN-E 가이드라인에 대한 합의 도출 ···································30
◇ 스위스, 신규 탄소법령(CO2 Ordinance) 승인·······························31
◇ 英, 수압파쇄법 일시 적용 금지 정책 철회 ···································32
◇ 英, 극저온 에너지 저장장치 pilot plant 단계 완성····················· 33
◇ 노르웨이, PRO membrane을 이용한 에너지 생산······················34

III. 아시아 ················································································· 35

◇ 日, 촉매활성이 향상된 monolayer-caped Au nanoparticles 개발·
················································································································35
◇ 日, Self-heat recuperation technology를 이용한 석탄 건조 에너지 절약·································································································36
◇ 日, 1000호의 주택에 태양광발전, 소프트뱅크의 [우리집발전프로젝트] 개시····························································································37
◇ 日, 아시아 그린 IT를 위한 협력 추진···········································38
◇ 日동경이과대, Na ion 전지 용량을 2배로-부극재료에 인산사용···············································································································39
◇ 日, CCS Demonstration Project at the Tomakomai Area ··········· 40
◇ 日Sumitomo Denko, 차세대「Redox flow」양산························ 41
◇ 中, 천연가스 개발 정책 ····································································42
◇ 中, High rate 리튬이온베터리를 위한 Li4Ti5O12 나노와이어 합성· 43
◇ 中, CO2로부터 에탄올을 생산하는 미생물 개발·························44
◇ 中, New Coal Gasification Technology Development ··················· 45
◇ 中, 셰일 가스 채굴 관련 컴퓨터 시뮬레이션 기술 개발 육성 ·46
◇ 싱가폴 A*STAR, 팜유 추출찌꺼기의 당류 전환기술 개발········ 47
◇ 대만, 활성탄을 이용한 고온 이산화탄소 리포밍 기술 ···············48

IV. 기타 ·······················································································49

◇ BASF, 소듐-공기 전지 개발····························································49
◇ 스마트그리드, 2018년 전기 배터리 제품에 61억 달러 사용 예상
···············································································································50
◇ 2012년 태양광 시장 현황 및 향후 전망 ······································· 51
◇ BP, 플로리다 목질계 에탄올 플랜트 건설 계획 취소··············· 52
◇ 고수분 석탄 건조 시스템, DryFining™ ·········································· 53
◇ MHI(일)/Southern CO.(미) - 세계최대 500 TPD CO2 포집실증 54
◇ 미세조류를 원료로 이용하여 바이오디젤이 아닌 다른 바이오에너지 생산·····························································································55
◇ IEA-OES, 해양에너지 개발현황······················································56

V. 해외출장보고서 ···································································57

◇ 대만, Fengchia 대학, 당원료로부터 multi-biofuel 생산 기술····· 57
◇ Ergos Tech, 일본 Sapporo, PETROBRAS ·····································58
◇ 에너지기술 연구동향 (2012 CHP) ···················································59
◇ IEC TC 105 : Standards on fuel cells 현황 ··································60
◇ University of Duisberg Essen - Laser diagnostics and kinetics studies for the combustion synthesis of nanoparticles ················ 61
◇ 인도, 바이오매스 가스화··································································62
◇ 美, 초임계수 조건에서 고체연료 변환·········································· 62
◇ 美, 미세조류 광합성반응기······························································63
◇ 美, 전자장치 냉각기술······································································64
◇ 에너지기술 연구동향(2012 CHP) ·····················································65
◇ 日, 템프레이트된 카본 -구조, 제원, 응용···································· 66
◇ 에너지 수확(harvesting)기술과 세계시장 동향······························67
◇ 카본재료의 이용·················································································69
◇ FCDIC Fuel Cell symposium 연료전지 기술 개발 현황············ 70
◇ 영, Bath 대학의 M. Saiful Islam - SOFC의 새로운 전해질인 Apatite-type silicate/germanate 연구···············································71
◇ 텍사스대학 ? 액상 흡수제(PZ) 이용 연소후 CO2 포집기술 개발·· 72
◇ SINTEF ? 흡수제 열화 규명 및 억제기술 개발 ······················73
◇ 日, Advanced IGCC 기술분석··························································74
◇ 中, QUST, 활성탄, 미세전류 복합사용에 의한 폐수 COD 저감기술····· 75
◇ MTG, DMC 공정 개발 연구 ·····························································76
◇ MHI ? 25 MW급 포집 실증····························································78
◇ Aker Clean Carbon ? 아민 대기 방출 제어 기술 개발··········· 79
◇ ADA-ES ? 고체흡수제 이용 연소후 CO2 포집기술 개발······· 80
◇ Cenovus Energy Inc. ? 10 MW CLC 개발··································81
◇ 차세대 친환경 용매 DMC(dimethyl Carbonate) ·····························82
◇ 美, Toyota Motor Sales社(USA), 1.1 MW급의 수소연료전지 발전기 가동·······································································································83
◇ 독일의 연료전지 소재 개발 동향··················································· 84
◇ 미국 Fuel Cell Seminar 참석 및 PNNL 방문 - SOFC 개발 동향
···············································································································85
◇ A roadmap for graphene ·································································86
◇ 독일 RWE - Nideraussem Pilot에서 개발흡수제 장기 운전 ····· 87
◇ 독일 도르트문트 대학 - 상분리 흡수제 개발에 주력··············· 88
◇ 美Texas Austin 大, Li-S 전지용 Polysulfide 억제 기술 개발·· 89
◇ 대만, Fengchia 대학, 당원료로부터 multi-biofuel 생산 기술····· 90
◇ 스위스 ETH, 고출력·고내구성 자립막식 μ-SOFC 기술 개발 ·· 91
◇ 유럽 PV CYCLE, 폐 태양광 모듈의 Recycling Obligation 대응방안·· 92
◇ EU의 바이오연료 정책 ······································································93
◇ 독, 재생에너지를 이용한 수소 생산 연구 박차 ···························94
◇ New Coal Gasification Technology Development ··························95
◇ 태국, 에너지시스템/포트폴리오 분석에 필요한 산업공학기법· 96

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