MARC

 008100311s2007        ulka                    000      kor
■020    ▼a9788970858029
■0801  ▼a620.92.2
■082    ▼a621.3124▼b이68ㄱ▼223
■090    ▼a621.3124▼b이68ㄱ
■1001  ▼a이인숙  옮김
■24510▼a그림으로  보는  연료전지▼d이인숙  옮김
■260    ▼a서울▼b교보문고▼c2007
■300    ▼a298p.▼b삽도▼c26cm
■505    ▼a(총론)▼c1▼a21세기의  발전시스템으로서  기대되는  연료전지▼c2▼a연료전지  및  관련  상품의  시장동향▼c9▼a(1장  연료전지의  역사와  원리)▼a연료전지의  현재와  과거▼c20▼a연료전지의  원리▼c26▼a연료전지의  특징▼c30▼a연료전지용  연료개질  기술▼c35▼a(2장  여러  종류의  연료전지)▼a고체고분자형  연료전지(PEFC)▼c4200▼a인산형  연료전지(PAFC)의  개요▼c4911▼a용융탄산염형  연료전지(MCFC)▼c5522▼a용융탄산염형  연료전지(MCFC)의  응용▼c6133▼a고체산화물형  연료전지(SOFC)의  개요▼c6544▼a습식법을  이용한  원통형  SOFC의  개발▼c7055▼a저온작동  SOFC의  고성능  셀의  개발▼c7066▼a직접메탄올형  연료전지(DMFC)의  개요▼c8077▼a재생형  수소연료전지(RFC:Reversible  Fuel  Cell)▼c8488▼a리독스플로전지▼c8999▼a보로하이드라이드  고성능  소형연료전지▼c9600▼a음식물  쓰레기의  바이오가스를  이용한  PAFC▼c9911▼a가축  분뇨의  바이오가스를  이용한  연료전지▼c10222▼aMEMS  기술에  의한  마이크로  연료전지▼c10533▼a(3장  연료전지용  재료와  주변  기술)▼c10944▼aPEFC의  스택화와  시스템화  기술▼c11055▼aPEFC계의  전해질막  개발▼c11466▼aPEFC계의  전극촉매▼c11777▼a고체고분자형  연료전지용  무가습형  프로톤전도성  전해질막▼c12188▼a폴리머전해질의  재료설계▼c12599▼aLP가스형  연료전지의  탈황제와  수증기개질촉매▼c12800▼a방사선으로  만드는  가교불소  고분자전해질막▼c13111▼a새로운  술폰화폴리이미드막의  합성과  연료전지에의  응용▼c13522▼a연료전지  전극촉매의  나노구조제어▼c14033▼a연료전지용  석탄가스화  기술개발의  현황▼c14444▼a다전자반응  착체촉매의  설계▼c14755▼a연료전지  발전특성과  측정법▼c15066▼a(4장  연료전지의  응용)77▼a다임러  크라이슬러가  추진하는  연료전지자동차  대책▼c15488▼a연료전지자동차  개발에  대한  도전▼c15699▼a닛산의  연료전지자동차  개발▼c16400▼a연료전지버스의  개발동향▼c16811▼a오토바이를  위한  연료전지시스템▼c17222▼a자동차용  고압수소용기의  요구성능  및  시험방식▼c17533▼a연료전지자동차의  해외동향▼c18044▼a가정에서  쓰는  전기의  8할  정도를  연료전지로  조달한다▼c18355▼a연료전지의  빌딩에  대한  응용▼c18666▼a미래의  건축물에  이용되는  연료전지에  대한  기대와  과제▼c18977▼a공장용  연료전지의  응용▼c19388▼a멀티연료형  연료전지와  흡수식  냉동기에  의한  코제너레이션시스템▼c19899▼a연료전지를  연결하는  "데칼린  하이웨이  구상"과  훗카이도(북해도)프로젝트▼c20200▼a휴대전화  등에  탑재할  수  있는  소형  연료전지▼c20711▼a모바일시대의  40시간  구동  연료전지▼c21022▼a모바일기기를  구동하는  고형메탄올  연료전지▼c21433▼a마이크로  가스터빈과  연료전지▼c21844▼a연료전지의  우주에서의  적용상황▼c22155▼a연료전지전철에  대한  기대와  과제▼c22466▼a심해탐사기에  사용하는  수소흡장합금  연료전지▼c22777▼a연료전지탑재형  전동휠체어의  개발▼c23188▼a(5장  연료전지를  위한  이프라와  개질기술)▼c23599▼a유기하이드라이드▼c23600▼a수소파이프라인의  전망▼c24111▼a수소가스의  현황과  FC용  수소공급의  전망▼c24622▼a수소저장기술(고압저장·액체저장·흡장합금)▼c24933▼a한랭지의  고온바이오가스  플랜트의  가동▼c25244▼a수소분리  금속막의  박막화와  연료전지  개질기에  대한  응용▼c25755▼a등유로부터  수소를  빼내는  개질기술▼c26066▼a고체분자형  수전해식  고순도  수소산소발생장치▼c26477▼a메탄발효설비의  동향▼c26888▼a대체연료  GTL,  메탄올,  DME의  현황▼c27299▼a나프타·등유로부터  수소를  빼내는  개질기술▼c27500▼a고밀도수소를  클러스터상태로  저장한다▼c27911▼a신기술개념에  의한  바이오수소  제조▼c28222▼a태양광에  의한  수소제조▼c28633▼a연료전지사회를  위한  바이오가스  이용  수소공급  인프라  기술개발▼c28944▼a(찾아보기)▼c29355
■9500  ▼c17,000

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