한국해양대학교

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슬러지유 환경에서 초음파 진동자 혼 선단의 침식특성에 관한 연구

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dc.contributor.author 정지선 -
dc.date.accessioned 2017-02-22T06:27:51Z -
dc.date.available 2017-02-22T06:27:51Z -
dc.date.issued 2002 -
dc.date.submitted 56797-10-27 -
dc.identifier.uri http://kmou.dcollection.net/jsp/common/DcLoOrgPer.jsp?sItemId=000002173922 ko_KR
dc.identifier.uri http://repository.kmou.ac.kr/handle/2014.oak/9584 -
dc.description.abstract Sludge oils were unavoidably produced in ship's operations, therefore it is necessary to manage the sludge oils inside the ship itself with the view to prevent marine oil pollution from ship. The present study deals with the ultrasonic breaking systems that recycle the sludge oil from ships into usable oil to be burnt. Experimental studies were carried out to investigate the homogenizing effect of the marine oils and the erosion aspect of horn disc by repeated vibration of ultrasonic transducer. The matrix structures of the environment of various marine oils were interpreted to analyze the breaking and dispersion effects by cavity. The erosion damages the horn disc SS41 with weight loss rate and the irradiation time to maximum. Erosion rate were simultaneously examined according to the variation of the transducer amplitude, as well as the oil temperature and the immersing depth of horn disc. The important findings from this study are as follows. 1) According to the depth of horn disk is deep, the variation of organization by cavity is less while the breaking effect of the particles are vitalized according to the increment of oil temperature. In addition, the effects of breaking and dispersion are prominent in proportion as period of experiment increases. 2) The cavitation by the horn of the ultrasonic vibrator is insensitive according as its depth increases in the oil, and the size of the bubble is larger in the high density condition of SLO(sludge lub. oil) than the condition of SFO(sludge fuel oil). Accordingly, the amount and rate of weight loss rate decrease according to the depth of horn, and the degree of loss at SLO condition is bigger than SFO condition. 3) The amount and rate of weight loss rate by the erosion of horn disk inclined to increase at the SFO condition in proportion as a temperature of oil sludge increases while it decreases at the SLO condition. 4) The difference of the maximum erosion rate of the horn disk which has 50㎛ of the amplitude of vibration decreases in proportion as the depth of horn disk gets deep at the both SLO and SFO condition. 5) When the temperature of sludge is going up, the maximum erosion rate of the horn disk which has 50㎛ of the amplitude of vibration inclined to decrease at the SFO condition while it increases at the SLO condition. In addition, the period of the maximum erosion rate at the SLO condition is shorter than the SFO condition 6) With a point of view of the maximum erosion rate according to the amplitude of horn disk, the maximum erosion rate at 50㎛ of the amplitude is more than double compare to the condition of 24㎛. In view of the results so far achieved we could certificate developmental possibility of the ultrasonic breaking systems to manage the sludge oils inside the ship itself, and the experimental results can be useful to consider a countermeasure for the prevention of erosion damages. -
dc.description.tableofcontents 목차 List of Tables = iv List of Photographs = iv List of Figures = v Abstract = vii 제1장 서론 = 1 제2장 실험의 이론적 배경 = 5 2.1 슬러지 = 5 2.1.1 선박유류 및 슬러지 = 5 2.1.2 연료유 슬러지 발생 = 6 2.1.3 Spot test = 10 2.2 초음파 = 12 2.2.1 초음파의 정의 및 응용 = 12 2.2.2 초음파 발생 장치 = 14 2.3 캐비테이션 = 16 2.4 초음파와 캐비테이션 = 18 2.4.1 초음파 진동에 의한 캐비테이션 발생이론 = 19 2.4.2 초음파 진동의 응용 = 22 제3장 실험방법 및 장치 = 25 3.1 시료유의 특성 = 25 3.2 시험편 및 실험장치 = 26 3.2.1 시험편 = 26 3.2.2 실험장치 = 28 3.3 실험방법 = 30 3.3.1 슬러지유의 캐비테이션 작용에 의한 조직변화 = 30 3.3.2 진동자 혼의 침지 깊이에 따른 침식특성 조사 = 31 3.3.3 슬러지유의 온도 변화에 따른 진동자 혼 디스크 침식특성 조사 = 31 3.3.4 진동자 혼 진폭의 변화에 따른 디스크의 침식특성 조사 = 32 제4장 결과 및 고찰 = 33 4.1 초음파 진동에 의한 슬러지유의 조직변화 = 33 4.1.1 초음파 분쇄작용 시간 경과에 따른 유입자의 상태 = 33 4.1.2 슬러지유 환경에서 진동자 혼의 침지 깊이에 따른 유입자의 균질화 효과 = 35 4.1.3 슬러지유의 온도 변화 환경에서 유입자의 균질화 특성 = 37 4.2 진동자 혼의 침지 깊이에 따른 혼 디스크의 침식양상 = 39 4.2.1 진폭 50㎛인 진동자 혼 디스크의 SFO에서의 침식특성 = 39 4.2.2 진폭 50㎛인 진동자 혼 디스크의 SLO에서의 침식특성 = 42 4.2.3 진폭 24㎛인 진동자 혼 디스크의 SFO에서의 침식양상 = 45 4.2.4 진폭 24㎛인 진동자 혼 디스크의 SLO에서의 침식양상 = 49 4.2.5 슬러지유 환경에서의 최고침식율 및 이에 이르는 시간의 변화양상 = 53 4.3 슬러지유의 온도 변화 환경에서 혼 디스크의 침식특성 = 57 4.3.1 SFO에서의 진폭 50㎛인 SS41 진동자 혼 선단의 침식양상 = 57 4.3.2 SLO에서의 진폭 50㎛인 SS41 진동자 혼 선단의 침식양상 = 60 4.3.3 SFO에서의 진폭 24㎛인 SS41 진동자 혼 선단의 침식양상 = 64 4.3.4 SLO에서의 진폭 24㎛인 SS41 진동자 혼 선단의 침식양상 = 67 4.3.5 슬러지유 환경에서의 최고침식율에 미치는 온도의 영향 = 70 4.3.6 슬러지유 환경에서의 최고침?컥꼬? 이르는 시간과 온도의 연관성 = 72 제5장 결론 = 74 참고문헌 = 76 Appendix = 81 -
dc.publisher 한국해양대학교 -
dc.title 슬러지유 환경에서 초음파 진동자 혼 선단의 침식특성에 관한 연구 -
dc.title.alternative A Study on the Erosion Characteristics of Ultrasonic Transducer Horn Tip in Sludge Oil Environment -
dc.type Thesis -
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