MARC

 008100311s2009        ulka                    000      kor
■020    ▼a9788957612743
■0801  ▼a620.92.2
■082    ▼a621.3124▼bC697m▼223
■090    ▼a621.3124▼bC697m
■1001  ▼aColleen  Spiegel  지음
■24510▼aMATLAB  연료전지  모델링▼dColleen  Spiegel  지음▼e여영구  역
■260    ▼a서울▼b아진▼c2009
■300    ▼a454p.▼b삽도▼c27cm
■505    ▼a(제1장  연료전지  입문)▼c1▼a1.1  서론▼c1▼a1.2  연료전지란  무엇인가?▼c2▼a1.3  왜  연료전지가  필요한가?▼c4▼a1.4  연료전지의  역사▼c6▼a1.5  문헌에  나타난  수학적  모델▼c8▼a1.6  수학적  모델의  생성▼c11▼a요약▼c13▼a연습문제▼c13▼a참고문헌▼c1400▼a(제2장  연료전지  열역학)▼c1511▼a2.1  서론▼c1522▼a2.2  엔탈피▼c1633▼a2.3  비열▼c1844▼a2.4  엔트로피▼c2855▼a2.5  화학반응의  자유에너지  변화▼c3366▼a2.6  연료전지의  가역  및  실제  출력전압▼c4477▼a2.7  연료전지의  이론적  효율▼c4588▼a요약▼c4799▼a연습문제▼c4700▼a참고문헌▼c4911▼a(제3장  연료전지  전기화학)▼c5122▼a3.1  서론▼c5133▼a3.2  전기화학적  둥특성의  기본  개념▼c5244▼a3.3  전하의  이동▼c5355▼a3.4  전하이동  반응에  대한  활성  분극화▼c5666▼a3.5  전극  특성▼c5677▼a3.6  전압손실▼c6688▼a3.7  내전류와  교차전류▼c7599▼a요약▼c7600▼a연습문제▼c7611▼a참고문헌▼c7822▼a(제4장  연료전지  전하이동)▼c8133▼a4.1  서론▼c8144▼a4.2  전하이동에  의한  전압손실▼c8255▼a4.3  금속의  전자  전도도▼c9266▼a4.4  고분자  전해질의  이온  전도도▼c9377▼a요약▼c9988▼a연습문제▼c10099▼a참고문헌▼c10000▼a(제5장  연료전지  물질전달)▼c10311▼a5.1  서론▼c10322▼a5.2  연료전지  물질수지▼c10433▼a5.3  채널로부터  전극으로의  대류  무질전달▼c11444▼a5.4  전극에서의  확산  물질전달▼c11655▼a5.5  흐름장  판에서의  대류  물질전달▼c12066▼a5.6  문헌에  나타난  물질전달식▼c12777▼a요약▼c13188▼a연습문제▼c13199▼a참고문헌▼c13200▼a(제6장  열전달)▼c13311▼a6.1  서론▼c13322▼a6.2  열전달의  기초▼c13433▼a6.3  연료전지  에너지  수치▼c13844▼a6.4  연료전지  열  운용▼c16555▼a요약▼c17166▼a연습문제▼c17177▼a참고문헌▼c17288▼a(제7장  양자  교환구조의  모델링)▼c17599▼a7.1  서론▼c17500▼a7.2  양자  교화막의  물리적  특성▼c17611▼a7.3  모델의  형태▼c17922▼a7.4  양자교환  막  모델의  보기▼c18433▼a요약▼c20144▼a연습문제▼c20155▼a참고문헌▼c20266▼a(제8장  기체  확산층의  모델링)▼c20577▼a8.1  서론▼c20588▼a8.2  기체  확산층의  물리적  설명▼c20799▼a8.3  다공성  매체의  기본적인  모델링▼c20700▼a8.4  당공성  매체에서의  전달모드▼c21011▼a8.5  모델의  형태▼c21822▼a8.6  GDL  모델링의  보기2▼c22433▼a요약▼c24744▼a연습문제▼c24755▼a참고문헌▼c24866▼a(제9장  촉매층의  모델링)▼c25177▼a9.1  서론▼c25188▼a9.2  PEM  연료전지  촉매층의  물리적  설명▼c25399▼a9.3  일반식▼c25400▼a9.4  모델의  형태▼c25611▼a9.5  촉매층에서의  열  이동▼c26222▼a요약▼c27233▼a연습문제▼c27244▼a참고문헌▼c27355▼a(제10장  흐름장  판의  모델링)▼c27766▼a10.1  서론▼c27777▼a10.2  흐름장  판  재질▼c27988▼a10.3  흐름장  디자인▼c27999▼a10.4  채널의  모양,  규격,  그리고  간격▼c28300▼a10.5  흐름  채널에서의  압력강하▼c28311▼a10.6  판  채널로부터  기체로의  열전달▼c29122▼a요약▼c30433▼a연습문제▼c30444▼a참고문헌▼c30555▼a(제11장  마이크로  연료전지의  모델링)▼c30766▼a11.1  서론▼c30777▼a11.2  문헌에  나타난  마이크로  PEM  연료전지▼c30988▼a11.3  마이크로  유동▼c31599▼a11.4  유량과  압력▼c3220000▼a11.5  버블과  입자▼c3230101▼a11.6  모세관  효과▼c3240202▼a11.7  단일상  및  2상  압력강하▼c3250303▼a11.8  마이크로  채널  내의  유속▼c3270404▼a요약▼c3380505▼a연습문제▼c3380606▼a참고문헌▼c3410707▼a(제12장  연료전지  스택의  모델링)▼c3450808▼a12.1  서론▼c3450909▼a12.2  연료전지  스택의  크기▼c3461010▼a12.3  전지의  수▼c3471111▼a12.4  스택  구조▼c3491212▼a12.5  전지에서  연료와  산화제의  분산▼c3501313▼a12.6  스택의  조임▼c3561414▼a요약▼c3691515▼a연습문제▼c3691616▼a참고문헌▼c3701717▼a(제13장  연료전지  시스템  디자인)▼c3751818▼a13.1  서론▼c3751919▼a13.2  연료  시스템▼c3762020▼a요약▼c4012121▼a연습문제▼c4022222▼a참고문헌▼c4032323▼a(제14장  모델의  검증)▼c4052424▼a14.1  서론▼c4052525▼a14.2  잔류오차▼c4052626▼a14.3  정규  무작위오차의  정규분포▼c4122727▼a14.4  모델의  기능성  부분에서의  상실항▼c4162828▼a14.5  모델의  불필요한  항▼c4172929▼a요약▼c4203030▼a연습문제▼c4213131▼a참고문헌▼c4223232▼a부록A▼c4233333▼a부록B▼c4253434▼a부록C▼c4273535▼a부록D▼c4293636▼a부록E▼c4313737▼a부록F▼c4333838▼a부록G▼c4413939▼a부록H▼c4434040▼a부록I▼c4454141▼a부록J▼c4474242▼a찾아보기▼c4494343
■9500  ▼c25,000

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