동향

세계에너지기술개발 월간동향(2012년 11월)

분야

에너지/자원

발행기관

한국에너지기술연구원


첨부파일


<목차>



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



◇ 美, 재활용 폐플라스틱의 유동층 가스화에 의한 자성카본나노물질 합성기술···························································································1
◇ 美, EU 및 아시아 등 세계 주요 기업, 미세조류를 이용한 대체에너지 생산 기술 확보에 막대한 투자···········································2
◇ 美, Ocean Energy Facts ······································································3
◇ 美, 담수화 배터리················································································4
◇ 美, 콜로라도 풍력에너지가 주는 혜택············································5
◇ 美MIT, 대장균 이용 새로운 바이오 연료/원료 합성 경로 개발 6
◇ 美, 대규모 전력회사에 온실가스 배출 상한과 거래제도 적용···7
◇ 美California대, 복합촉매 사용으로 발효추출물에서 연료 생산· 8
◇ 美Auburn 대학 연구진, Torrefaction 기술 적용으로 목재 바이오매스 열분해 오일 품질 향상·····························································9
◇ 美UW Madison 대학 연구진, 바이오매스 화학전환에 의한 수송용연료 및 화학원료 생산 기술 개발············································· 10
◇ 美U Michigan 대학 연구진, 수열반응에 의한 미세조류 바이오매스 전환 기술 개발 ·········································································11
◇ 美UC Berkeley 대학 연구진, 생물-화학 융합공정에 의한 바이오매스 이용 탄화수소 생산 기술 개발········································· 12
◇ 美GM & ABB, 마이크로그리드 에너지저장시스템을 위한 전기자동차용 중고 배터리 활용기술 발표···········································13
◇ 美, Materials Handling Vehicle (MHV)의 전원으로 직접메탄올연료전지 (DMFC)의 사용 확대 예상··················································14
◇ 美NETL, SOFC 통합 촉매 석탄 가스화기 엑서지 분석·········· 15
◇ 美NETL 및 SECA, 고온 연료전지 개발 박차···························· 16
◇ 美, 내구성이 월등히 향상된 연료전지용 저백금core-shell 전극촉매 개발·····························································································17
◇ 캐나다, Quebec Province 염분차 발전··········································18
◇ 브라질, 멕시코 - 에너지효율 기준 규정 및 인증 절차············ 19
◇ 칠레, 구리광산에 세계최대규모 태양열단지 건설계획수립······ 20


 



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



◇ 스위스 ABB, 세계 최초로 고전압 직류 (HVDC) 차단기 개발 ·· 21
◇ 독일, 초대형 사막 태양광발전 유럽송전 현실화························ 22
◇ 독일, 2015년까지 수소충전소 네트워크 50개소로 확장············ 23
◇ 영국, 해상풍력개발을 위한 재정지원 예정·································· 24
◇ 포르투갈, 온라인 태양에너지자원지도 서비스 제공 시작········ 25
◇ EU, 탄소시장 개혁안 발표 ·······························································26
◇ EU SFC Enregy사, 유럽 유통회사와 계약 체결 ························· 27


 



III. 아시아 ················································································· 28



◇ 中, 신재생에너지개발 강화······························································28
◇ 中, 저탄소 제품 인증 시스템 구축················································ 29
◇ 中, CIGS 시장 선점을 위한 적극적인 사업투자························· 30
◇ 日, 中의 SOFC 기술 개발 현황 ····················································31
◇ 日, 「아사히화성」고성능 불소화전해질막 재료 개발·············· 32
◇ 日, 에코카(Eco-car) 보급정책··························································33
◇ 日, 엑서지 분석에 의한 에너지 recuperation ······························· 34
◇ 日, 차세대 HEMS 개발 : 가전제품의 제어 및 기기추정도 가능!차세대 HEMS 실험 시작··································································35
◇ 日, 대규모 지열발전 개발 움직임·················································· 39
◇ 日, Kuraray, 리튬 2차전지의 식물계 재료 제조회사 설비 신설40
◇ 日, 2012년도 NEDO 연료전지 및 수소관련 활동······················· 41
◇ 日, 큐슈대학 초전도체 펌프로 액체수소 이송시험 성공 ···········42
◇ 日SONY, 알루미늄 이차전지용 신형 전해액 개발 ··················43
◇ 日, Sumitomo 전기공업의 대형 Na ion 2차전지························· 44
◇ 日AIST, 마이크로 원통형 SOFC 스택 기술 현황····················· 45
◇ 日, 일본의 연료전지 시장 및 국제 표준화 현황·························46
◇ 인도네시아, 저등급석탄 에너지기술 정책 동향·························· 47
◇ 韓, 지식경제부 C-산업 정책 방향 발표········································48


 



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



◇ UNFCCC - 2013년 청정개발체제(CDM) 개편 예정···················· 49
◇ 차세대 친환경 용매 DMC(dimethyl Carbonate) ·····························50
◇ 스마트그리드/스마트시티 시대의 히트펌프의 역할···················· 51
◇ IEA-HIA Task 23 “Small Scale Reformers for On-site HydrogenSupply", 최종 보고서 요약·······························································52
◇ 원자력의 비전기분야 응용을 위한 IAEA 프로그램·····················53
◇ 빠른 흡/탈착 속도를 보이는 Porous MgH2/C 저장 물질 개발 54
◇ IEC TC 105 : Standards on fuel cells 현황 ··································55


 



V. 해외출장보고서 ································································· 56



◇ 美Freiman, 세라믹스의 파괴는 미세구조가 원인······················ 56
◇ Push-Pull Porphyrins for Dye-Sensitized Solar Cells ·················· 57
◇ Cylinder dye-sensitized solar cells with transparent conductive oxide free (TCO-less structure) ························································58
◇ A Systematic Approach for Efficiency Improvement of Black-Dye-BasedDye-Sensitized Solar Cells toward 12% Efficiency ·······················59
◇ Organic-Inorganic Hybrid Solar Cells ·············································· 60
◇ Synthesis of Monodisperse Mesoporous TiO2 Spheres for Dye-sensitized Solar Cell Application ··········································································61
◇ Recent Advances in Mesoscopic solar cells ··································62
◇ 캐나다 Etalim, Thermoacustic Engine으로 발전효율 40%예상·· 63
◇ 호주의 태양열 냉방기술 전망·························································64
◇ ORC Conferences ···············································································65
◇ UC Davis, McClellan Neutron Radiation Center (MNRC) ············ 66
◇ Canada Oil Sands Project ·································································67
◇ 日, 2012년 발전차액제도(FIP) 변경 발표······································ 69
◇ 독일 ISC, ESS based Solar Cell 효율 17.1% 달성···················· 70
◇ 美Argonne National Lab., 비수계 RFB용 유기계 활물질 개발 71
◇ 인도네시아···························································································72
◇ 한국, 저에너지융복합구동창호시스템개발···································· 73
◇ 한국, 스마트윈도우와 출원추이관계·············································· 74
◇ CSLF PIRT Meeting ···········································································76
◇ Western Australia, South West CO2 Geosequestration Hub ······ 77
◇ 美GE, 세라믹 복합재료 연구 동향···············································78
◇ 독일의 연료전지기술 개발 동향·····················································79
◇ 중-고온 연료전지 소재 개발 동향·················································80
◇ 美NETL, SOFC 통합 촉매 석탄 가스화기 엑서지 분석·········· 81
◇ IEA/ECBCS Annex 54 Micro-Generation 동경 전문가회의········ 82
◇ California Institute of Technology - Photonic design principles for high efficiency photovoltaics(Harry A. Atwaters) ·····························83
◇ University of New South Wales - Harnessing plasmonics for photovoltaics(Martin A. Green & Supriya Pillai) ····························· 84
◇ 삼성SDI, Applied Materials - High efficiency back contact solar cell via ion implantation(C.B. Mo, S.J. Park, Y.J. Kim, D.Y. Lee,S.C. Park, D.S. Kim, S.B. Kim, J. Graff, M. Sheoran & P.Sullivan) ·································································································85
◇ Fraunhofer ISE - Printed fire-through contacts - an alternative approach for local rear contacting of passivated solar cells(C.Kick, B. Thaidigsmann, M. Linse, F. Clement, A.Wolf, D. Biro) 86
◇ HTW Berlin, Helmholtz Center Berlin for Materials and Energy Berlin, CiS Forschungsinstitit fur Mikrosensorik und Photovoltaik GmbH, Technologie Consulting Wolke, ASTex - Conditioning of Textured Silicon solar cell substrates by wet-chemical treatments(B. Stegemann, J. Kegel, H. Angermann, O.Gerf, R.Varache, U. Sturzebecher, A. Laades, K. Wolke, C. Gottschalk)87
◇ Austrailian National University, PV Lighthouse, National University of Singapore, Trina Solar Limited - Laser assisted shunt removal on high-efficiency silicon solar cells(Ngwe Zin, Andrew Blakers,Keith McIntosh, Evan Franklin, Teng Kho, Kean Chern, Johnson
Wong, Thomas Mueller, Armin G. Aberle, Zhiqiang Feng, and Qiang Huang) ·······················································································88
◇ ISFH, RENA, Leibniz University of Hanover - Impact of the rear surface roughness on industrial type PERC solar cells(C. Kranz,S. Wyczanowski, S. Dorn, K. Weise, C. Klein, K. Bothe, T.Dullweber and R. Brendel) ································································89
◇ Imec, Rena GmbH - How much rear side polishing is required?(Emanuele Cornagliotti, A. Uruena, J. Horzel, J. John, L.Tous, D. Hendrickx, V. Prajapati, S. Singh, J. Poortmans, R.Hoyer, F. Delahaye, D. Queisser, H. Nussbaumer, K. Weise) ·· 90
◇ ISC, Silfab S.p.A - Zebra cell concept_n type IBC(Andreas Halm,Valentin D.Mihailetchi, Giuseppe Galbiati, Lejo J.Koduvelikulathu, Razvan Roescu, Corrad Comparotto, Radovan
Kopecek, Kristian Peter, Joris Libal) ················································91
◇ 현대중공업 - 20% efficient SE solar cells with Cu front contacts(이규민, 경도현, 조성훈, 임종근, 황명익, 이원재, 조은철) ······· 92
◇ Fraunhofer ISE - Progress with multi step metallization processes featuring Cu(J. Bartsch, A. Mondon, M. Kamp, A.Kraft, M. N. Jawaid, A. Lorenz, F. Clement, M. Glatthaar, S.Glunz) ····································································································93
◇ Applied Materials, Ferro Corporation - Rear passivated high efficiency solar cell-local back contacts(K. Wijekoon, H. Khatri, A.Shaikh) ···································································································94
◇ Fraunhofer ISE - Overview of high efficiency c-Si solar cell developments in research and production(Stefan Glunz) ·············95
◇ ANU - Misconceptions and misnomers in solar cells(Andres Cuevas) ·································································································96
◇ ISFH, SINGULUS Technologies, Q-Cells - High efficiencyindustrial type PERC applying ICP AlOx(T. Dullweber, M. Siebert,B. Veith, C. Kranz, J. Schmidt, R. Brendel, B.F.P. Roos, T.Dippell, A. Schwabedissen & S. Peters) ········································ 97
◇ Fraunhofer ISE, Applied Materials - Fully implanted PERT and PERL solar cells(J.Benick, M. Rudiger, M. Hermle, S.W. Glunz,N. Bateman) ·························································································98
◇ Sandia National Laboratories - Ultrathin and flexible single crystal silicon mini modules(J. L. Cruz-Campa, G. N. Nielson, M.Okandan, P. J. Resnick, C. A. Sanchez, V.P. Gupta & J. S.Nelson) ··································································································99
◇ CEA, University of Lyon, University of Marseille, Photowatt - TheBOLID Project: Suppression of the Boron-Oxygen RelatedLight-Induced-Degradation. Presentation ? Main Results(S.Dubois, F. Tanay, J. Veirman, N. Enjalbert, J. Stendera, P.Pochet, D. Caliste, Y. Mao, D. Timerkaeva, D. Blanc, K. Fraser,M. Lemiti, O. Palais, I. P?richaud, B.Dridi Rezgui, M. Pasquinelli,F. Madon & N. Le Quang) ·····························································100
◇ ECN, Yingli Solar, Tempress - Industrial Implementation of Efficiency Improvements in n-Type Solar Cells(I.G. Romijn, A.R. Burgers,L.J. Geerligs, C.J.J. Tool, A.J. Carr, A.Gutjahr, D.S. Saynova, B.Heurtault, J. Anker, M. Koppes, F. Lang, J. Xiong, G. Li, Z. Xu,
H. Wang, Z. Hu, P.R. Venema & A.H.G. Vlooswijk) ················· 101
◇ Motech Industries - Evaluation the Ingot Qualities of B-DopedCZ-Silicon Using Multiple Recharges Process(W.-P. Chen, Y.-H.Wu, H.-P. Chou, Y.-C. Chen, C.-H. Wu & W.-T. Chung) ······102
◇ AIST, Sumita Consulting, Chiyoda, Toyota Technological Institute - Novel screen printing technology to make high-aspect-ratioelectrodes and to fill a paste into a hole for
metal-wrap-through(MWT) (U. Itoh, N. Ushifusa, H. Tokuhisa, M.Yoshida, I. Sumita, M. Aoki & Y. Ohshita) ··································103
◇ Toyota Technological Institute, Meiji University - Thin(<100um) crystalline silicon solar cell fabricated by using advanced 200um technologies(Yoshio Ohshita, Mari Aoki, Takuto Kojima, Atsushi Ogura, Tomohisa Tachibana) ··························································104
◇ Grenoble, MINATEC ··········································································105
◇ 태양전지 및 이차전지 등의 전극 재료인 금속 소재의 전기화학거동 분석 및 모델링 기술·····························································106

 

※ 자료출처 : 한국에너지기술연구원

 

 


 


※ 자료출처 : 한국에너지기술연구원


 


 


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