MARC

 008080709s2001        ulka                    000      kor
■020    ▼a8971291271
■0801  ▼a536.7
■082    ▼a621.4021▼bM621ㄱ▼223
■090    ▼a621.4021▼bM621ㄱ
■1001  ▼aMichael  J.  Moran,  Howard  N.  Shapiro  저
■24510▼a공업열역학  개정4판▼dMichael  J.  Moran,  Howard  N.  Shapiro  저▼e김광선  외  역
■260    ▼a서울▼b(주)범한서적▼c2001
■300    ▼a796,  66p.▼b삽도▼c26cm
■505    ▼a제1장  기본개념과  정의▼c1▼a1.1  열역학  이용▼c1▼a1.2  시스템  정의▼c1▼a1.3  시스템과  현상▼c5▼a1.4  질량,  길이,  시간  및  힘의  측정▼c9▼a1.5  두  가지  측정가능  상태량:  비체적과  압력▼c11▼a1.6  온도측정▼c15▼a1.7  공학  설계  및  해석▼c21▼a1.8  이  책의  활용방법▼c25▼a1.9  요약과  학습지침▼c2600▼a제2장  에너지와  열역학  제1법칙▼c3311▼a2.1  에너지의  역학적  개념에  대한  검토▼c3322▼a2.2  일에  의한  에너지  전달  평가▼c3733▼a2.3  시스템의  에너지▼c4944▼a2.4  열에  의한  에너지  전달▼c5355▼a2.5  에너지  계산:  밀폐시스템의  에너지평형▼c5766▼a2.6  사이클의  에너지해석▼c6777▼a2.7  요약과  학습지침▼c7088▼a제3장  상태량  구하기▼c7999▼a3.1  상태의  결정▼c7900▼a■  상태량  구하기:  일반적  고찰▼c80▼x21▼y21▼z0▼a3.2  p-v-T  관계▼c81▼x22▼y22▼z0▼a3.3  열역학적  상태량  검색▼c87▼x23▼y23▼z0▼a3.4  일반화  압축성선도▼c104▼x24▼y24▼z0▼a■  이상기체모델을  사용해서  상태량  구하기▼c110▼x25▼y25▼z0▼a3.5  이상기체모델▼c111▼x26▼y26▼z0▼a3.6  이상기체들의  내부에너지와  엔탈피  및  비열▼c114▼x27▼y27▼z0▼a3.7  이상기체의  Δu와  Δh  구하기▼c117▼x28▼y28▼z0▼a3.8  이상기체의  폴리트로프과정▼c124▼x29▼y29▼z0▼a3.9  요약과  학습지침▼c126▼x30▼y30▼z0▼a제4장  검사체적에  대한  에너지해석▼c135▼x31▼y31▼z0▼a4.1  검사체적에  대한  질량보존▼c135▼x32▼y32▼z0▼a4.2  검사체적에  대한  에너지  보존▼c142▼x33▼y33▼z0▼a4.3    정상상태의  검사체적에  대한  해석▼c147▼x34▼y34▼z0▼a4.4  천이해석▼c166▼x35▼y35▼z0▼a4.5  요약과  학습  지침▼c175▼x36▼y36▼z0▼a제5장  열역학  제2법칙▼c186▼x37▼y37▼z0▼a5.1  제2법칙의  필요성▼c186▼x38▼y38▼z0▼a5.2  제2법칙의  서술▼c189▼x39▼y39▼z0▼a5.3  비가역인자들의  고찰▼c192▼x40▼y40▼z0▼a5.4  열역학적  사이클에  관한  제2법칙의  역할▼c197▼x41▼y41▼z0▼a5.5  Kelvin  온도척도의  정의▼c203▼x42▼y42▼z0▼a5.6  2열원  사이에서  작동하는  사이클의  최대성능▼c206▼x43▼y43▼z0▼a5.7  Carnot  사이클▼c211▼x44▼y44▼z0▼a5.8  요약과  학습지침▼c214▼x45▼y45▼z0▼a제6장  엔트로피▼c224▼x46▼y46▼z0▼a6.1  Clausis  부등식▼c224▼x47▼y47▼z0▼a6.2  엔트로피  변화의  정의▼c227▼x48▼y48▼z0▼a6.3  엔트로피를  구하는  방법▼c228▼x49▼y49▼z0▼a6.4  내부가역과정의  엔트로피  변화▼c238▼x50▼y50▼z0▼a6.5  밀폐시스템의  엔트로피평형▼c242▼x51▼y51▼z0▼a6.6  검사체적의  엔트로피율  평형▼c255▼x52▼y52▼z0▼a6.7  등엔트로피과정▼c262▼x53▼y53▼z0▼a6.8  터빈,  노즐,  압축기  및  펌프의  등엔트로피효율▼c268▼x54▼y54▼z0▼a6.9  내부가역,  정상상태  유동과정의  열전달과  일▼c275▼x55▼y55▼z0▼a6.10  요약과  학습지침▼c280▼x56▼y56▼z0▼a제7장  엑서지(가용에너지)  해석▼c299▼x57▼y57▼z0▼a7.1  엑서지  소개▼c299▼x58▼y58▼z0▼a7.2  엑서지  정의▼c300▼x59▼y59▼z0▼a7.3  밀폐시스템의  엑서지평형▼c311▼x60▼y60▼z0▼a7.4  유동엑서지▼c319▼x61▼y61▼z0▼a7.5  검사체적의  엑서지율  평형▼c322▼x62▼y62▼z0▼a7.6  엑서지(제2법칙)  효율▼c329▼x63▼y63▼z0▼a7.7  열경제학▼c336▼x64▼y64▼z0▼a7.8  요약과  학습지침▼c343▼x65▼y65▼z0▼a제8장  중기동력시스템▼c356▼x66▼y66▼z0▼a8.1  증기증력시스템의  모델화▼c356▼x67▼y67▼z0▼a8.2  증기동력시스템의  해석  -  Rankine  사이클▼c358▼x68▼y68▼z0▼a8.3  성능  향상  -  과열과  재열▼c372▼x69▼y69▼z0▼a8.4  성능  향상  -  재생  증기동력사이클▼c379▼x70▼y70▼z0▼a8.5  기타  증기사이클▼c390▼x71▼y71▼z0▼a8.6  사례연구:  증기동력장치의  엑서지  평가▼c393▼x72▼y72▼z0▼a8.7  요약과  학습지침▼c401▼x73▼y73▼z0▼a제9장  가스동력시스템▼c411▼x74▼y74▼z0▼a■  내연기관▼c411▼x75▼y75▼z0▼a9.1  기관에  관한  용어해설▼c412▼x76▼y76▼z0▼a9.2  공기표준  Otto  사이클▼c414▼x77▼y77▼z0▼a9.3  공기표준  Diesel  사이클▼c420▼x78▼y78▼z0▼a9.4  공기표준  복합사이클▼c425▼x79▼y79▼z0▼a■  가스터빈동력장치▼c428▼x80▼y80▼z0▼a9.5  표준형  가스터빈동력장치▼c428▼x81▼y81▼z0▼a9.6  공기표준  Brayton  사이클▼c429▼x82▼y82▼z0▼a9.7  재생가스터빈▼c441▼x83▼y83▼z0▼a9.8  재열  및  중간냉각  재생가스터빈▼c446▼x84▼y84▼z0▼a9.9  항공기  추진을  위한  가스터빈▼c457▼x85▼y85▼z0▼a9.10  복합가스터빈  -  증기동력사이클▼c462▼x86▼y86▼z0▼a9.11  Ericsson  사이클과  Stirling  사이클▼c469▼x87▼y87▼z0▼a■  노즐과  디퓨저를  통한  압축성유동▼c470▼x88▼y88▼z0▼a9.12  압축성유동의  예비지식▼c470▼x89▼y89▼z0▼a9.13  노즐과  디퓨져  내의  1차원  정상유동▼c475▼x90▼y90▼z0▼a9.14  일정비열을  갖는  이상기체의  노즐과  디퓨저의  유동▼c482▼x91▼y91▼z0▼a9.15  요약과  학습지침▼c490▼x92▼y92▼z0▼a제10장  냉동  및  열펌프  시스템▼c503▼x93▼y93▼z0▼a10.1  증기냉동시스템▼c503▼x94▼y94▼z0▼a10.2  증기-압축  냉동시스템의  해석▼c506▼x95▼y95▼z0▼a10.3  냉매의  성질▼c515▼x96▼y96▼z0▼a10.4  캐스케이드  및  다단  증기-압축  시스템▼c516▼x97▼y97▼z0▼a10.5  흡수냉동▼c519▼x98▼y98▼z0▼a10.6  열펌프시스템▼c521▼x99▼y99▼z0▼a10.7  가스냉동시스템▼c524▼x100▼y100▼z0▼a10.8  요약과  합습지침▼c531▼x101▼y101▼z0▼a제11장  열역학적  관계식▼c539▼x102▼y102▼z0▼a11.1  상태방정식의  이용▼c539▼x103▼y103▼z0▼a11.2  중요한  수학  관계식▼c546▼x104▼y104▼z0▼a11.3  상태량  관계식의  유도▼c550▼x105▼y105▼z0▼a11.4  엔트로피,  내부에너지  및  엔탈피  변화에  대한  계산▼c557▼x106▼y106▼z0▼a11.5  기타  열역학  관계식▼c568▼x107▼y107▼z0▼a11.6  열역학  상태량표의  작성▼c575▼x108▼y108▼z0▼a11.7  엔탈피  및  엔트로피의  일반화선도▼c579▼x109▼y109▼z0▼a11.8  기체  혼합물의  p-v-T  관계식▼c587▼x110▼y110▼z0▼a11.9  다성분  시스템  해석▼c593▼x111▼y111▼z0▼a11.10  요약과  학습지침▼c607▼x112▼y112▼z0▼a제12장  이상기체  혼합물과  습공기▼c620▼x113▼y113▼z0▼a■  이상기체  혼합물:  일반적  고찰▼c620▼x114▼y114▼z0▼a12.1  혼합물  조성의  표시법  620▼x115▼y115▼z0▼a12.2  이상기체  혼합물의  p-v-T  관계식▼c625▼x116▼y116▼z0▼a12.3  U,  H,  S    및  비열의  계산▼c627▼x117▼y117▼z0▼a12.4  혼합물을  포함하는  시스템의  해석▼c629▼x118▼y118▼z0▼a■  습공기  측정의  응용▼c638▼x119▼y119▼z0▼a12.5  습공기해석의  개요▼c638▼x120▼y120▼z0▼a12.6  공기조화시스템에  대한  질량  및  에너지  평형의  응용▼c645▼x121▼y121▼z0▼a12.7  단열-포화  온도와  습구온도▼c651▼x122▼y122▼z0▼a12.8  습공기선도▼c655▼x123▼y123▼z0▼a12.9  공기조화광정의  해석▼c658▼x124▼y124▼z0▼a12.10  요약과  학습지침▼c675▼x125▼y125▼z0▼a제13장  반응혼합물  및  연소▼c686▼x126▼y126▼z0▼a■  연소의  기초▼c686▼x127▼y127▼z0▼a13.1  연소  개론▼c686▼x128▼y128▼z0▼a13.2  에너지보존  -  반응시스템▼c696▼x129▼y129▼z0▼a13.3  단열화염온도  구하기▼c709▼x130▼y130▼z0▼a13.4  정대엔트로피  및  열역학  제3법칙▼c713▼x131▼y131▼z0▼a13.5  연료전지▼c722▼x132▼y132▼z0▼a■  화학적  엑서지의  소개▼c724▼x133▼y133▼z0▼a13.7  표준  화학적  엑서지▼c728▼x134▼y134▼z0▼a13.8  엑서지  요약▼c734▼x135▼y135▼z0▼a13.9  반응시스템의  엑서지  (제2법칙)  효율▼c735▼x136▼y136▼z0▼a13.10  요약과  학습지침▼c737▼x137▼y137▼z0▼a제14장  화학  및  상  평형▼c750▼x138▼y138▼z0▼a■  평형의  기초이론▼c750▼x139▼y139▼z0▼a14.1  평형기준의  소개▼c750▼x140▼y140▼z0▼a■  화학평형▼c755▼x141▼y141▼z0▼a14.2  반응  평형식▼c755▼x142▼y142▼z0▼a14.3  평형조성의  계산▼c758▼x143▼y143▼z0▼a14.4  평형상수  활용에  대한  그  외의  예▼c768▼x144▼y144▼z0▼a■  상평형▼c779▼x145▼y145▼z0▼a14.5  순수물질에  대한  두  상  사이의  평형▼c781▼x146▼y146▼z0▼a14.6  다성분,  다상  시스템의  평형▼c781▼x147▼y147▼z0▼a14.7  요약과  학습지침▼c787▼x148▼y148▼z0▼a부록▼c1▼x149▼y149▼z0
■507    ▼tFundamentals  of  Engineering  Thermodynamics,  4/e
■9500  ▼c33,000

Preview

Export

ChatGPT Discussion

AI Recommended Related Books