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최적설계

최적설계 (1회 대출)

자료유형
단행본
개인저자
김우태, 저 김원태, 저 이영림, 저 전의식, 저
서명 / 저자사항
최적설계 / 김우태 [외]
발행사항
공주 :   공주대학교출판부,   2017  
형태사항
259 p. : 삽화(일부천연색), 도표 ; 26 cm
ISBN
9791186737101
일반주기
공저자: 김원태, 이영림, 전의식  
서지주기
참고문헌 수록
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020 ▼a 9791186737101 ▼g 93550
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040 ▼a 221016 ▼c 221016 ▼d 211009
082 0 4 ▼a 620.0042 ▼2 23
085 ▼a 620.0042 ▼2 DDCK
090 ▼a 620.0042 ▼b 2017z4
245 0 0 ▼a 최적설계 / ▼d 김우태 [외]
260 ▼a 공주 : ▼b 공주대학교출판부, ▼c 2017
300 ▼a 259 p. : ▼b 삽화(일부천연색), 도표 ; ▼c 26 cm
500 ▼a 공저자: 김원태, 이영림, 전의식
504 ▼a 참고문헌 수록
536 ▼a 본 교재는 2015년도 산업통상자원부의 재원으로 한국에너지기술평가원(KETEP)의 지원을 받아 수행하였음
700 1 ▼a 김우태, ▼e
700 1 ▼a 김원태, ▼e
700 1 ▼a 이영림, ▼e
700 1 ▼a 전의식, ▼e
945 ▼a KLPA

소장정보

No. 소장처 청구기호 등록번호 도서상태 반납예정일 예약 서비스
No. 1 소장처 과학도서관/Sci-Info(1층서고)/ 청구기호 620.0042 2017z4 등록번호 121256110 도서상태 대출가능 반납예정일 예약 서비스 B M

컨텐츠정보

책소개

최적설계를 처음 접하는 기계공학분야 대학원생들에게 기본이론과 함께 다양한 응용예제를 통해 최적설계의 적용 방법을 안내하고자 집필되었다. 구조 및 공정 시스템, 유체 시스템, 열 시스템, 화학반응 시스템 분야에서 날로 활발히 적용되고 있는 이론분석 및 수치해석기법을 통해 최적설계를 적용하는 방법을 습득하는데 유익한 교재이다.

[머릿말]
이 책은 최적설계를 처음 접하는 기계공학분야 대학원생들에게 기본이론과 함께 다양한 응용예제를 통해 최적설계의 적용 방법을 안내하고자 집필되었다. 구조 및 공정 시스템, 유체 시스템, 열 시스템, 화학반응 시스템 분야에서 날로 활발히 적용되고 있는 이론분석 및 수치해석기법을 통해 최적설계를 적용하는 방법을 습득하는데 유익한 교재이다.
1장은 치수 최적설계, 위상최적화, 공정 최적설계, 신뢰성 최적설계를 포함하는 구조 및 공정 최적설계를 다루었다. 2장은 5가지의 다양한 예제를 통해 유체 시스템 최적설계를 예시하였다. 3장은 공기조화 시스템, 발전설비 등에서 필요한 다양한 열시스템에 대한 최적설계 이론과 최적화 예제를 다루었다. 4장은 화학반응이 동반되는 열유동 시스템인 연소로의 예제를 통해 격자생성, 계산조건설정, 수치계산, 후처리 전반을 포함하는 최적설계 적용 예를 설명하였다.
본 책을 출판하는데 많은 도움을 준 대학원생들에게 심심한 감사의 마음을 전한다. 저자들의 노력에도 불구하고 본서에 미흡한 점이 많을 것으로 생각된다. 하지만 이 책이 최적설계를 처음 접하는 관련분야 대학원생들에게 도움이 되기를 바랄 뿐이다.

2017년 봄 천안캠퍼스에서
저자 일동


정보제공 : Aladin

목차

"Chapter 1 구조 및 공정 최적설계 ················································ 9
1.1 치수 최적설계 ··········································································································· 9
1.1.1 최적설계(Optimization Design)를 위한 정식화 ························································ 9
1.1.2 구조최적설계(Structural Optimization Design) 개요 ·············································· 13
1.1.3 유한요소법(FEM, Finite Element Method) ······························································ 16
1.1.4 구조 최적설계의 정식화 ···························································································· 30
1.1.5 치수최적설계 ·············································································································· 41
1.2 위상최적화의 이해 ·································································································· 43
1.2.1 위상최적화 이론 ········································································································· 43
1.2.2 위상최적화를 이용한 개념 설계 절차 ······································································ 45
1.2.3 다중 하중조건 ············································································································ 46
1.2.4 제조 조건 ··················································································································· 48
1.2.5 위상최적화 결과 분석 및 확인 ················································································· 49
1.2.6 위상최적화 해석 따라 하기 ······················································································ 49
1.3 공정 최적설계 ········································································································· 59
1.3.1 다구찌 실험계획 개념 ······························································································· 60
1.3.2 계량치 파라미터 설계 ······························································································· 65
1.3.3 다구찌 실험계획 실습 ······························································································· 66
1.4 신뢰성 최적설계 ····································································································· 75
1.4.1 와이블 분포(Weibull Distribution) ··········································································· 77
1.4.2 와이블 분석: 와이블 확률지 ····················································································· 80
1.4.3 와이블 확률지의 사용법 ···························································································· 81
1.4.4 와이블 확률지 실습 ································································································· 83
1.4.5 와이블 확률지 실습 Ⅱ ····························································································· 86
Chapter 2 유체 시스템 최적설계 ················································ 91
2.1 Cavitation을 고려한 배관 형상 최적화 ································································ 91
2.1.1 관 유동 해석 설정 ····································································································· 92
2.1.2 입력 변수 설정 ·········································································································· 93
2.1.3 출력 변수 설정 ·········································································································· 94
2.1.4 Design of Experiments 설정 ···················································································· 94
2.1.5 Response Surface 설정 ····························································································· 97
2.1.6 Objectives와 Constraints 설정 ·················································································· 99
2.1.7 Optimization 수행 ···································································································· 100
2.1.8 최종 디자인 검토 ····································································································· 102
2.2 최대 토출유량을 고려한 물펌프 블레이드 최적화 ············································ 104
2.2.1 관 유동 해석 설정 ··································································································· 105
2.2.2 입력 변수 설정 ········································································································ 105
2.2.3 출력 변수 설정 ········································································································ 106
2.2.4 Design of Experiments 설정 ·················································································· 107
2.2.5 Response Surface 설정 ··························································································· 109
2.2.6 Objectives와 Constraints 설정 ················································································ 111
2.2.7 Optimization 수행 ···································································································· 112
2.2.8 최종 디자인 검토 ····································································································· 113
2.3 치수 최적설계 ······································································································· 114
2.3.1 관 유동 해석 설정 ··································································································· 115
2.3.2 입력 변수 설정 ········································································································ 116
2.3.3 출력 변수 설정 ········································································································ 116
2.3.4 Design of Experiments 설정 ·················································································· 117
2.3.5 Response Surface 설정 ··························································································· 119
2.3.6 Objectives와 Constraints 설정 ················································································ 121
2.3.7 Optimization 수행 ···································································································· 123
2.3.8 최종 디자인 검토 ····································································································· 124
2.4 Shell & Tube 열교환기 baffle 형상 최적화 ···················································· 126
2.4.1 열교환기 유동 해석 설정 ························································································ 127
2.4.2 입력 변수 설정 ········································································································ 127
2.4.3 출력 변수 설정 ········································································································ 128
2.4.4 Design of Experiments 설정 ·················································································· 128
2.4.5 Response Surface 설정 ··························································································· 131
2.4.6 Objectives와 Constraints 설정 ················································································ 133
2.4.7 Optimization 수행 ···································································································· 135
2.4.8 최종 디자인 검토 ····································································································· 137
2.5 질량 유량을 고려한 노즐 형상 최적화 ······························································ 138
2.5.1 노즐 유동 해석 설정 ······························································································· 139
2.5.2 입력 변수 설정 ········································································································ 140
2.5.3 출력 변수 설정 ········································································································ 140
2.5.4 Design of Experiments 설정 ·················································································· 141
2.5.5 Response Surface 설정 ··························································································· 143
2.5.6 Objectives와 Constraints 설정 ················································································ 145
2.5.7 Optimization 수행 ···································································································· 146
2.5.8 최종 디자인 검토 ····································································································· 148
Chapter 3 열 시스템 최적설계 ················································· 149
3.1 난방, 환기 및 공기조화 시스템 ·········································································· 149
3.2 펌프-파이프 네트워크 ··························································································· 150
3.3 운송 수단 열 시스템 ···························································································· 151
3.4 응축기 ···················································································································· 151
3.4.1 분류 ··························································································································· 151
3.4.2 초기 제원 및 제약 조건 ························································································· 152
3.4.3 상세 제원 및 개념 ··································································································· 153
3.4.4 상세 설계 ················································································································· 153
3.5 난방용 전기히터 ··································································································· 160
3.5.1 초기 제원 ················································································································· 160
3.5.2 상세 제원 전개 ········································································································ 161
3.5.3 개념 전개 ················································································································· 161
3.5.4 상세 설계 ················································································································· 163
3.6 발전설비 일반사항 ································································································ 174
3.7 화력 발전 ·············································································································· 174
3.7.1 미분기 ······················································································································· 175
3.7.2 보일러 ······················································································································· 176
3.7.3 증기터빈 ··················································································································· 179
3.7.4 급수가열기 ················································································································ 185
3.8 원자력발전 ············································································································ 186
3.8.1 원자로 ······················································································································· 186
3.8.2 가압기 ······················································································································· 187
3.8.3 증기발생기 ················································································································ 189
3.8.4 MSR ··························································································································· 190
3.9 복합발전 ················································································································ 191
3.9.1 일반사항 ··················································································································· 191
3.9.2 가스터빈 ··················································································································· 195
3.9.3 가스터빈 ··················································································································· 196
3.9.4 증기터빈 ··················································································································· 197
3.10 응력을 고려한 압력용기 형상 최적화 ······························································ 198
3.10.1 압력 용기 해석 설정 ····························································································· 200
3.10.2 입력 변수 설정 ······································································································ 200
3.10.3 출력 변수 설정 ······································································································ 201
3.10.4 Design of Experiments 설정 ················································································ 202
3.10.5 Response Surface 설정 ························································································· 204
3.10.6 Objectives와 Constraints 설정 ·············································································· 206
3.10.7 Optimization 수행 ·································································································· 207
3.10.8 최종 디자인 검토 ··································································································· 209
Chapter 4 화학반응 시스템 최적설계 ······································ 211
4.1 원통형 메탄-공기 연소로 ····················································································· 211
4.1.1 격자 생성 ················································································································· 212
4.1.2 계산 조건 설정 ········································································································ 218
4.1.3 출력 변수 설정 ········································································································ 235
4.1.4 Design of Experiments 설정 ·················································································· 236
4.1.5 Response Surface 설정 ··························································································· 237
4.1.6 Optimization ············································································································· 239
4.1.7 Adiabatic Wall 조건에서의 Optimization ······························································ 241
4.2 3차원 단순형상 연소로 ························································································ 246
4.2.1 격자생성 ··················································································································· 246
4.2.2 계산 조건 설정 및 결과 ························································································· 251
4.2.3 Optimization ············································································································· 254
4.3 Circulating Fluidized Bed(CFB) 연소로 ··························································· 256

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