MARC

 008130516s2012        ulka                    000      kor
■020    ▼a9788997231515
■0801  ▼a620.92
■082    ▼a333.794▼b장75ㅅ▼223
■090    ▼a333.794▼b장75ㅅ
■1001  ▼a장종훈  지음
■24510▼a신재생에너지  입문▼d장종훈  지음
■260    ▼a서울▼b도서출판  GS인터비전▼c2012
■300    ▼a408p.▼b삽도▼c24cm
■505    ▼a제  1장  에너지▼c3▼a1.1  에너지의  의미▼c4▼a1.2  에너지자원  현황  및  전망▼c9▼a1.2.1  화석연료  이용현황  및  전망▼c10▼a1.2.2  재생에너지  이용  현황  및  전망▼c16▼a제  2장  태양에너지  특성▼c27▼a2.1  복사에너지▼c27▼a2.2  태양에너지  분석▼c35▼a2.3  태양에너지  입사량(solar  energy  incident)▼c45▼a2.4  표면  흡수율과  방사율▼c4800▼a2.5  지구  온실효과(greenhouse  effect)▼c5011▼a제  3장  태양에너지  예측▼c5522▼a3.1  태양의  위치▼c5633▼a3.1.1  태양의  고도▼c5744▼a3.1.2  태양의  방위각▼c6455▼a3.2  태양에너지  계산▼c6666▼a3.2.1  대기권  밖의  태양에너지▼c6677▼a3.2.2  대기권을  투과한  태양에너지▼c7188▼a3.2.3  경사면에  조사된  태양에너지▼c7699▼a3.2.4  집열판  또는  태양전지  모듈에  흡수된  태양에너지▼c8200▼a제  4장  태양열의  직접  이용▼c10111▼a4.1  태양열  집열기  형태▼c10222▼a4.2  평판형  태양열  집열기  설계▼c10533▼a4.2.1  전체  열전달  해석▼c10744▼a4.2.2  집열기  위면을  통한  열손실▼c10855▼a4.2.3  집열기  밑면과  옆면을  통한  열손실▼c11566▼a4.2.4  유체과  사이의  온도분포▼c11777▼a4.2.5  유체  흐름  방향의  온도분포▼c12288▼a4.2.6  집열기의  열회수량▼c12399▼a4.2.7  집열기  평균온도  및  유체  평균온도▼c12700▼a제  5장  태양열  발전▼c13111▼a5.1  구유형  발전시스템(solar  though  system)▼c13122▼a5.2  타워형  발전시스템(solar  power  tower)▼c13433▼a5.3  접시형  발전시스템(solar  dish/engine  system)▼c13844▼a5.4  우주선  태양열  발전시스템(solar  dynamic  power  system)▼c14155▼a5.5  에너지  변환장치▼c14266▼a제  6장  태양광  발전▼c15177▼a6.1  태양전지의  개요▼c15488▼a6.1.1  실리콘  태양전지  발전원리▼c15699▼a6.1.2  밴드갭  및  최대  흡수파장▼c16000▼a6.1.3  태양전지의  종류▼c16311▼a6.2  태양전지의  효율▼c16622▼a6.3  태양전지의  성능  향상▼c17133▼a6.4  염료감응  태양전지▼c17744▼a제  7장  태양전지  모듈의  제작  및  설치▼c18355▼a7.1  웨이퍼  제작▼c18466▼a7.2  모듈의제작▼c18777▼a7.3  태양전지의  설치▼c19288▼a7.4  발전소  건설  사례▼c20399▼a제  8장  풍력발전2▼c21100▼a8.1  풍력발전  개요▼c21211▼a8.1.1  풍력터빈  구성  요소▼c21522▼a8.1.2  풍력터빈  회전  원리▼c22033▼a8.2  풍력터빈  출력▼c22644▼a8.2.1  1차원  운동량이론▼c22755▼a8.2.2  풍속분포도▼c23566▼a8.2.3  출력밀도▼c24277▼a8.2.4  고도의  영향▼c24888▼a8.3  풍력터빈의  운영▼c24999▼a8.3.1  풍력터빈  날개  특성▼c25000▼a8.3.2  출력계수와  날개  끝  속도  비  (tip  speed  ratio)▼c25211▼a8.3.3  풍력터빈  출력곡선▼c25422▼a8.3.4  최대출력  운영▼c25633▼a8.3.5  소음  영향▼c25844▼a8.4  국내외  풍력발전  현황▼c26055▼a제  9장  해상풍력발전▼c26566▼a9.1  해상풍속  특징▼c26677▼a9.1.1  해상풍속  분포▼c26688▼a9.1.2  후류  영향▼c26899▼a9.2  해상풍력터빈  특성  및  현황▼c27100▼a9.3  해상  설치기술▼c27611▼a9.3.1  중력구조물(gravity  caisson  foundation)▼c27722▼a9.3.2  단일강관기둥(momo-pile)▼c27933▼a9.3.3  삼각대(tripod)/사각대(terrapod)  지지  구조물▼c28044▼a9.3.4  부유식구조(floating  foundation)▼c28155▼a9.4  해양환경  영향▼c28366▼a제  10장  해양에너지(ocean  energy)▼c28777▼a10.1  조력발전(tidal  power)▼c28888▼a10.1.1  조력발전  원리▼c29099▼a10.1.2  조력발전  방식▼c29300▼a10.1.3  국내외  현황▼c29711▼a10.2  조류발전(tidal  current  or  steam  power)▼c30022▼a10.3  파력발전(wave  power)▼c30533▼a10.3.1  공기터빈형(air  turbine)▼c30844▼a10.3.2  부위(Buoy)  연결형▼c31055▼a10.3.3  부주형(Pontoon)▼c31266▼a10.4  해수온도차  발전(ocean  thermal  energy  conversion)▼c31377▼a제  11장  소수력발전▼c31988▼a11.1  소수력발전  개요▼c31999▼a11.2  소수력발전소  사례▼c32600▼a제  12장  지열(geothermal  energy)▼c33111▼a12.1  지열의  개요▼c33222▼a12.2  지열  히트펌프▼c33533▼a12.3  지열발전▼c33744▼a제  13장  연료전지▼c34355▼a13.1  연료전지  개요▼c34366▼a13.1.1  연료전지  작동원리▼c34477▼a13.1.2  전기화학적  반응▼c34688▼a13.1.3  전해질막(electrolyte)의  특성▼c35099▼a13.2  연료의  유량▼c3530000▼a13.3  가습  및  공급장치▼c3570101▼a13.3.1  가습장치▼c3580202▼a13.3.2  수소  공급장치▼c3600303▼a13.3.3  공기  공급장치▼c3630404▼a13.4  연료전지  냉각▼c3640505▼a13.4.1  열  발생▼c3650606▼a13.4.2  에너지  균형▼c3660707▼a13.4.3  냉각장치▼c3710808▼a제  14장  경제성  검토▼c3790909▼a14.1  미래가치의  현재가치  환산▼c3801010▼a14.2  투자비  회수율▼c3841111▼a14.3  재생에너지  시스템의  경제성  검토▼c3861212▼a14.4  태양열  설비  투자비  회수기간▼c3941313▼a참고문헌▼c3951414▼aINDEX▼c4051515
■9500  ▼c25,000

Preview

Export

ChatGPT Discussion

AI Recommended Related Books