한국해양대학교

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미세 U 튜브 열교환기의 형상에 따른 구조 건전성 평가에 관한 연구

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dc.contributor.author 김정주 -
dc.date.accessioned 2017-02-22T06:05:14Z -
dc.date.available 2017-02-22T06:05:14Z -
dc.date.issued 2014 -
dc.date.submitted 57042-05-01 -
dc.identifier.uri http://kmou.dcollection.net/jsp/common/DcLoOrgPer.jsp?sItemId=000002174936 ko_KR
dc.identifier.uri http://repository.kmou.ac.kr/handle/2014.oak/9067 -
dc.description.abstract The objective of structural analysis is to predict the thermo-mechanical performance of the heat exchanger at engine operating conditions using validated multi-physics modelling technology. The plastic fracture and life on the heat exchanger are estimated by thermo-mechanical analysis. Tensile tests are conducted in high temperature (700 K, 800 K, 900 K, 1000 K) using five specimens to obtain the mechanical properties of Inconel 625 tubes. Based on the test result, the yield strength shows 308 MPa and tensile strength shows 640 MPa at 1000 K. Baseline model and three kinds of improved models are proposed. The purpose of the “separated model” is to reduce tubesheet thermal stress. Unlike the baseline model, the “separated model” is divided in half so that the hot side outlet and inlets are separated. So it is allows for each part to move independently even under thermal deformation. “Flange moved model” is similarly “baseline model” However, flange position has moved to manifold side. “Solid flange model”is that tubesheet side shell flange was changed to a solid flange and modified the shape of the case wall. Thermo-mechanical analysis was performed to estimate the structural characteristics and stress level of baseline model and 3 improved models. Comparing with baseline model, bending deformation of tubesheet in separated model decreased. So, the maximum stress of the tubesheet reduced 15%. And the temperature difference between the tubesheet and flange decreased. Thus, the maximum stress of the flange was reduced by 4%. Temperature difference between the tubesheet and case wall was decreased. So the maximum stress of the case wall was reduced by 8%. Comparing with baseline model, bending deformation of tubesheet in flange moved model decreased. So, the maximum stress of the tubesheet reduced by 30%. So the maximum stress of the tubesheet reduced 5%. Temperature difference between the tubesheet and case wall was decreased. So the maximum stress of the tubesheet was reduced by 7%. Comparing with baseline model, bending deformation of tubesheet in solid flange model decreased. So, the maximum stress of the tubesheet reduced by 35%. And the temperature difference between the tubesheet and flange was decreased. Thus, the maximum stress of the flange and tubesheet reduced by 30%. Temperature difference between the tubesheet and case wall was decreased. So the maximum stress of the tubesheet was reduced by 10%. Therefore, solid flange model is the most improved model in terms of stress. Maximum stress were reduced by 30% in flange and tubesheet. Case of the wall stress was reduced by 10%. This value exceeded the yield strength of Inconel at 1,000K. (Ref. the yield strength of inconel 625 tube is 308MPa at 1,000K.). But this value was satisfied with the fatigue strength in 1000 cycle. -
dc.description.tableofcontents Abstract ⅳ Nomenclature ⅵ List of Tables ⅶ List of Figures ⅷ 1. 서론 1 1.1 연구 배경 1 1.2 연구 동향 2 1.3 연구 내용 및 목적 3 2. 탄소성 유한요소 해석의 이론적 배경 4 2.1 유한요소법 4 2.2 탄소성 유한요소해석 5 3. 고온 상태 인코넬 625의 기계적 특성 11 4. U 튜브 열교환기의 구조해석 18 4.1 열교환기 모델 18 4.2 해석 방법 및 경계 조건 20 4.2.1 해석 방법 20 4.2.2 경계조건 22 4.3 해석 결과 26 4.3.1 기본형 열교환기 모델의 해석 결과 및 분석 26 4.3.2 분리형 열교환기 모델의 해석 결과 및 분석 30 4.3.3 플랜지 이동형 열교환기 모델의 해석 결과 및 분석 33 4.3.4 플랜지 이동형 열교환기 모델의 해석 결과 및 분석 36 4.4 4가지 열교환기 모델의 건전성 평가 39 4.4.1 4가지 열교환기 모델의 비교 39 5. 결론 42 참고문헌 44 -
dc.language jpn -
dc.publisher 한국해양대학교 -
dc.title 미세 U 튜브 열교환기의 형상에 따른 구조 건전성 평가에 관한 연구 -
dc.title.alternative A Study on Structural Integrity Evaluation of fine U- Tube Heat Exchanger according to Shape -
dc.type Thesis -
dc.date.awarded 2014-02 -
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기계공학과 > Thesis
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