쉽게 배우는 핵심 열역학 2판 > 공학

이 책은 열역학의 핵심 내용을 간결하게 정리하고 알기 쉽게 설명하였다. 충분한 양의 예제와 연습 문제를 수록하고, 문제 풀이 과정을 상세히 기술함으로써 학생들이 쉽게 이해하고 스스로 공부할 수 있게 하였다. 연습문제는 주요 핵심 개념을 파악할 수 있는 문제로 구성되어 있으며, 공무원과 중등교사 임용시험 및 기사시험 문제를 함께 수록하여 각종 시험 준비에도 도움이 되게 하였다. 특히 학생들이 편리하게 관련 내용을 알고 이해하는 것을 목적으로 모든 문제의 정답을 수록하고 풀이 과정을 기술하였다.

목차

머리말 / 3

제1장 서론 ········································································9

1.1 열역학 개요 ··························································11

1.2 용어의 정의 ··························································12

1.3 단위 ··································································17

1.4 일과 동력 및 에너지 ·················································19

제2장 기본 개념 ································································31

2.1 비체적과 밀도 ························································33

2.2 몰과 몰질량 ··························································34

2.3 압력 ··································································35

2.4 열역학 제0법칙과 온도 ···············································39

2.5 열량과 비열 및 열평형 ···············································43

제3장 열역학 제1법칙 ·························································57

3.1 열역학 기본법칙 ······················································59

3.2 내부에너지 ····························································61

3.3 열역학 제1법칙 ·······················································63

3.4 기체의 팽창과 압축에 의한 일 ·······································66

3.5 엔탈피 ································································71

3.6 정상유동에서 에너지 보존 방정식 ····································75

3.7 교축장치 ······························································82

제4장 순수물질의 상태량 ·····················································93

4.1 순수물질과 상 ························································95

4.2 증기의 발생 ··························································96

4.3 상변화 과정과 상태량 선도 ··········································101

4.4 액체와 증기의 상태량 ···············································109

제5장 이상기체와 상태방정식 ···············································135

5.1 기체의 상태변화에 대한 기본법칙 ···································137

5.2 이상기체의 상태방정식 ··············································138

5.3 정적비열, 정압비열 ··················································143

5.4 이상기체의 내부에너지와 엔탈피 ····································145

5.5 비열비 ·······························································147

5.6 이상기체의 상태변화 ·················································150

5.7* 실제기체의 상태방정식 ·············································167

제6장 열역학 제2법칙 ························································179

6.1 방향성을 갖는 현상과 열역학 제2법칙 ······························181

6.2 열역학 제2법칙 서술 ················································184

6.3 열기관 ·······························································185

6.4 냉동기와 열펌프 ·····················································188

6.5 가역과정과 비가역과정 ··············································191

6.6 카르노 사이클과 카르노 열기관 ·····································191

6.7 카르노 냉동기와 카르노 열펌프 ·····································196

제7장 엔트로피 ································································207

7.1 Clausius 부등식 ····················································209

7.2 엔트로피 변화 ·······················································211

7.3 엔트로피 증가 원리 ··················································215

7.4 엔트로피 관계식 ·····················································218

7.5 이상기체의 엔트로피 변화 ···········································220

7.6 고체와 액체의 엔트로피 변화 ········································226

7.7 카르노 사이클의 T-S 선도 ··········································229

제8장 기체 동력사이클 ·······················································241

8.1 내연기관 개요 ·······················································243

8.2 엔진에 관한 용어 ····················································245

8.3 4행정 사이클 가솔린기관 ············································249

8.4 공기표준 해석 ·······················································250

8.5 카르노 사이클 ·······················································251

8.6 오토 사이클 ·························································254

8.7 디젤 사이클 ·························································263

8.8 사바테 사이클 ·······················································270

8.9 스털링 사이클과 에릭슨 사이클 ·····································281

8.10 브레이턴 사이클 ····················································284

제9장 증기 동력사이클 ·······················································299

9.1 증기원동소의 개요 ···················································301

9.2 랭킨 사이클 ·························································303

9.3 실제 사이클과 이상 사이클의 차이 ··································315

9.4 재열 사이클 ·························································320

제10장 냉동사이클 ····························································339

10.1 냉동기와 열펌프 ····················································341

10.2 역카르노 사이클 ····················································345

10.3 증기압축 냉동사이클 ···············································348

10.4 냉매 ································································359

연습문제 풀이 및 정답 ·······················································371

부록 ··············································································433

∙ 참고문헌 ································································454

∙ 찾아보기 ································································455

저자소개

유주식

서울대학교 공과대학 기계공학과 졸업

한국과학기술원 기계공학과 석·박사

University of Michigan(USA) 연구교수

(현재) 국립경국대학교 기계교육과 교수

배송

교환