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      베르누이 부상의 유동 특성에 대한 수치해석적 연구 = Numerical Study on the Flow Characteristics of Bernoulli Levitation

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      https://www.riss.kr/link?id=T13378097

      • 저자
      • 발행사항

        안동 : 안동대학교, 2014

      • 학위논문사항

        학위논문(석사) -- 안동대학교 , 기계공학과 기계공학 전공 , 2014. 2

      • 발행연도

        2014

      • 작성언어

        한국어

      • 발행국(도시)

        경상북도

      • 형태사항

        viii, 67 ; 26 cm

      • 일반주기명

        지도교수: 김희동

      • 소장기관
        • 국립경국대학교 중앙도서관 소장기관정보
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      다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

      Recently, more attentions have been paid on non-contact handling approaches in the field of semiconductor production process, especially the application in wafer. Since the contact handling often leads to damaging and contaminating the products, it is highly desirable to get effective non-contact handling for the improvement of the product quality. Many non-contact methods making use of magnetic, electrostatic, acoustic and pneumatic levitations of a workpiece have been proposed to date. A number of investigations are being made on the pneumatic levitation since it is magnetic free with little heat and can be easily applied to any kind of materials.
      The pneumatic levitation is based upon Bernoulli principle. However, this method is known to consume large gas flow rate which can be the cost rise of products. Moreover, the recent trend of wafer is increasing its size so that more power is required to lift up and transport the wafer. In this case, the gas flow rate should be increased and the compressibility effects of gas may be of practical importance.

      In the present paper, a computational fluid dynamics method was used to get insight into the Bernoulli levitation. The compressible Navier-Stokes equations furnished with the SST k-ω turbulence model were solved using a fully implicit finite volume scheme. The performance of such non-contact handling device can strongly depend on the operating conditions and device shapes which were investigated in detail. In this study, numerical simulations were carried out on Bernoulli levitation device with various mass flow rate, clearance gap and device shape to obtain the optimal performance of the device. Based on the present results, the flow characteristics around the workpiece were discussed in terms of the total pressure, static pressure and levitation force.
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      Recently, more attentions have been paid on non-contact handling approaches in the field of semiconductor production process, especially the application in wafer. Since the contact handling often leads to damaging and contaminating the products, it is...

      Recently, more attentions have been paid on non-contact handling approaches in the field of semiconductor production process, especially the application in wafer. Since the contact handling often leads to damaging and contaminating the products, it is highly desirable to get effective non-contact handling for the improvement of the product quality. Many non-contact methods making use of magnetic, electrostatic, acoustic and pneumatic levitations of a workpiece have been proposed to date. A number of investigations are being made on the pneumatic levitation since it is magnetic free with little heat and can be easily applied to any kind of materials.
      The pneumatic levitation is based upon Bernoulli principle. However, this method is known to consume large gas flow rate which can be the cost rise of products. Moreover, the recent trend of wafer is increasing its size so that more power is required to lift up and transport the wafer. In this case, the gas flow rate should be increased and the compressibility effects of gas may be of practical importance.

      In the present paper, a computational fluid dynamics method was used to get insight into the Bernoulli levitation. The compressible Navier-Stokes equations furnished with the SST k-ω turbulence model were solved using a fully implicit finite volume scheme. The performance of such non-contact handling device can strongly depend on the operating conditions and device shapes which were investigated in detail. In this study, numerical simulations were carried out on Bernoulli levitation device with various mass flow rate, clearance gap and device shape to obtain the optimal performance of the device. Based on the present results, the flow characteristics around the workpiece were discussed in terms of the total pressure, static pressure and levitation force.

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      목차 (Table of Contents)

      • 감사의 글 i
      • 목 차 iii
      • 그림 및 표 목록 v
      • 기 호 설 명 vii
      • 제 1 장 서 론 1
      • 감사의 글 i
      • 목 차 iii
      • 그림 및 표 목록 v
      • 기 호 설 명 vii
      • 제 1 장 서 론 1
      • 1.1 연구배경 1
      • 1.2 종래의 연구 6
      • 1.3 연구목표 7
      • 제 2 장 이론해석 8
      • 2.1 서론 8
      • 2.2 운동량 방정식 8
      • 제 3 장 수치해석법 13
      • 3.1 서론 13
      • 3.2 지배 방정식 14
      • 3.3 수치계산 18
      • 3.4 계산영역 및 경계조건 19
      • 3.4.1 일반적인 베르누이 부상 장치의 유동특성에 대한 연구 19
      • 3.4.2 베르누이 부상 장치의 최적형상에 대한 연구 22
      • 제 4 장 결과 및 고찰 25
      • 4.1 일반적인 베르누이 부상 장치의 유동특성에 대한 연구 25
      • 4.2 베르누이 부상 장치의 최적형상에 대한 연구 40
      • 제 5 장 결 론 58
      • 참고문헌 60
      • 석사과정 중 발표논문 63
      • ABSTRACT 66
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