MARC

 008100311s1989        ulka                    000      kor
■020    ▼a8974500841
■0801  ▼a620.92.2
■082    ▼a665.81▼b김64ㅅ▼223
■090    ▼a665.81▼b김64ㅅ
■1001  ▼a김연상,  조춘구  공저
■24510▼a수소와  대체에너지▼d김연상,  조춘구  공저
■260    ▼a서울▼b숭실대학교출판부▼c1989
■300    ▼a288p.▼b삽도▼c26cm
■505    ▼a제1장  서론▼a1.1  수소  에너지  시스템의  필요▼c21▼a1.2  금속  수소화물의  에너지  변환  기능▼c22▼a제2장  새로운  에너지원▼c27▼a2.2  수소  에너지의  기술  개발  및  현황▼c28▼a제3장  에너지  변환  기술▼a3.1  열화학  에너지  변환  기술의  필요성▼c39▼a3.2  에너지  변화  기능▼c40▼a제4장  화학적  고찰▼a4.1  수소  화합물의  분류▼c4500▼a4.2  금속  수소화물의  성질과  합성법▼c4711▼a제5장  열역학적  고찰22▼a5.1  상평형▼c6133▼a5.2  수소화물의  생성열▼c6644▼a5.3  동위체  효과▼c7255▼a5.4  hysterisis  현상▼c7366▼a5.5  수소화물의  격자  에너지▼c7677▼a제6장  구조와  물성88▼a6.1  금속  수소화물  중의  수소▼c8199▼a6.2  결정  구조와  상  관계▼c8900▼a6.3  물리적  성질▼c9811▼a제7장  실험  장치와  방법22▼a7.1  고순도  수소의  제조▼c10533▼a7.2  합금  제조  장치▼c10644▼a7.3  열  분석▼c11155▼a7.4  고압  실험  장치와  방법▼c12166▼a7.5  내구성  시험  장치와  방법▼c12477▼a7.6  고온  고압  X선  회절  장치▼c12688▼a제8장  금속  수소화물  개발의  현황99▼a8.1  합금의  개발▼c13100▼a8.2  알칼리계  금속  수소화물▼c13711▼a8.3  알칼리토류계  금속  수소화물▼c14022▼a8.4  Al  계  금속  수소화물▼c15333▼a8.5  희토류계  금속  수소화물▼c15444▼a8.6  Ti  계  금속  수소화물의  수소  저장  특성▼c17855▼a8.7  지르코늄(Zr)계  금속  수소화물▼c21266▼a8.8  바나듐(V),  니오브(Nb)계  및  기타  금속  수소화물▼c21377▼a8.9  평가▼c21688▼a제9장  수소의  저장  수송  기술▼c23199▼a9.2  열의  저장  수송  기술▼c25200▼a9.3  열-기계  에너지  변환  기술에서의  응용▼c26511▼a9.4  풍력-열에너지  변환  기술에의  응용▼c27022▼a제10장  새로운  응용33▼a10.1  수소의  분리  정제  기술▼c27544▼a10.2  수소  동위체의  분리  기술▼c27955▼a10.3  금속-수소  전지▼c28266▼a10.4  합성  화학에  따른  촉매▼c28577▼a10.5  기타  응용▼c28588
■9500  ▼c7,300

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