• Title/Summary/Keyword: 유체-고체 연동

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ALE-BASED FSI SIMULATION OF SOLID PROPELLANT ROCKET INTERIOR (ALE 기반의 고체 로켓 내부 유체-구조 연동 해석)

  • Han, Sang-Ho;Min, Dae-Ho;Kim, Chong-Am
    • 한국전산유체공학회:학술대회논문집
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    • 2010.05a
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    • pp.71-77
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    • 2010
  • As a hybrid model of continuum motion description which combines the advantages of classical kinematical descriptions i.e. Lagrangian and Eulerian description, the ALE (Arbitrary Lagrangian Eulerian) description is adopted for the simulation of a fluid-structure interaction of solid propellant rocket interior. The fluid-structure interaction phenomenon with the deformation of solid domain during the simulation. The developed solver is applied flow and propellant structure. The computed results show complex flow physics in the combustion chamber and the behavior of a solid propellant deformation.

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A Numerical Study on the Thermopneumatic and Flow Characteristics of Diffuser-Nozzle Based Thermopneumatic Micropumps (디퓨져와 노즐을 이용한 열공압형 마이크로 펌프의 열공압 및 유동특성에 관한 수치해석적 연구)

  • Jeong Jin;Kim Chang Nyung
    • Korean Journal of Air-Conditioning and Refrigeration Engineering
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    • v.17 no.7
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    • pp.642-648
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    • 2005
  • This study has been conducted to investigate the thermopneumatic and flow characteristics of diffuser/nozzle based thermopneumatic micropumps. In this study, a transient three-dimensional numerical analysis using FSI (Fluid-Structure Interaction) model has been employed to analyze the effects of the interaction between the membrane and two fluids (air and water) in the thermopneumtic micropump. The transient temperature and pressure in the cavity, the transient displacements of the membrane and the net flow rate of the micropump have been closely calculated for the frequency of 1 Hz. It has been found that the difference of the flow rates at the inlet and outlet is larger in the cooling period than in the heating period and that the duty ratio is very important in association with pump performance because the temperature in the cavity ascends drastically in the heating period and descends slowly in the cooling period. This study can be regarded as fundamental understandings for the design and analysis of thermopneumatic micropumps.

A Numerical Study on the Performance Characteristics of a Piezoelectric Micropump for Different Inlet and Outlet Positions (${\cdot}$출구 위치 변화에 따른 압전 구동방식 마이크로 펌프의 성능특성에 관한 수치해석적 연구)

  • Kim Dong Hee;Jeong Jin;Kim Chang Nyung
    • Korean Journal of Air-Conditioning and Refrigeration Engineering
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    • v.17 no.1
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    • pp.33-38
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    • 2005
  • This study has been conducted to investigate flow characteristics of a micropump with piezoelectric materials. In this study, the change of flow rates has been investigated for different positions of the inlet and outlet and for different distances between them. The FSI(Fluid Structure Interaction) method has been employed for numerical analysis of the piezoelectric diffuser/nozzle based micropump. It has been found that time averaged flow rate is greater in the case that distance between the inlet and outlet is longer. For the cases where the positions of the inlet are different with the position of the fixed outlet at the center, the flow rate is increased as the inlet is located farther from the center. This study may supply fundamental understandings for the design and analysis of the prototypes of piezoelectric micropumps.

A Numerical Analysis with the FSI Mode on the Characteristics of Flow Field and Discharge Valve Motion in a Rotary Compressor (로터리 압축기의 토출밸브의 미소 거동 및 유동 특성에 대한 FSI(Fluid-Structure Interaction) 기법을 이용한 수치해석)

  • Chae, Hee-Moon;Kim, Chang-Nyung;Park, Sung-Kwan
    • Journal of the Korean Society for Precision Engineering
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    • v.25 no.5
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    • pp.112-120
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    • 2008
  • This study has been conducted to investigate the characteristics of flow field and discharge valve motion in a rotary compressor. In this study, a transient three-dimensional numerical analysis using FSI(Fluid-Structure Interaction) model has been employed to analyze the interaction between the discharge valve and the refrigerants in the rotary compressor. It has been observed that two peaks have appeared in the displacement of the discharge valve. The maximum displacement of the discharge valve has been found to be located at the second peak. Also, the input pressure of the refrigerants has been compared with the pressures of the muffler passage and the compressor outlet in the rotary compressor. The pressure has decreased along the pathway in the rotary compressor. And the volume flow rates obtained from the current numerical study have been compared with the experiment at data to verify the validity of the present numerical study. This study may supply the fundamental data for the design of rotary compressors.

Study on Analysis Method for Fire Safety Test of Hydrant Reducing Valve for Offshore Plant (해양 플랜트용 Hydrant Reducing Valve의 화재 안전시험에 대한 해석 기법 연구)

  • Jeong, Yun Sang;Kang, Jung Ho
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.38 no.6
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    • pp.601-608
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    • 2014
  • An offshore plant is vulnerable to fire because of the isolated environment. In particular, the damage to an offshore plant is increased when a hydrant reducing valve, which is a main piece of equipment in an offshore plant, is damaged in a fire. In this study, we conducted a fire safety test for a hydrant reducing valve and proved the validity of our analysis by comparing the results of the test and analysis. Therefore, we here suggest an analysis method for a fire safety test. FSI(fluid structure interaction) was considered in the fire safety test. The reliability of the analysis method was verified by comparing the temperature distributions of the test and analysis. In addition, we verified the problems that were caused in the fire safety test by conducting a structure analysis. At a result, the main problem was found to be deformation of the valve seat.

Computation of Flowfield and Infrared Signature in Aircraft Exhaust System for IR Reduction Design (항공기 후방동체 열유동장 및 IR 신호 예측 시스템)

  • Moon, Hyuk;Yang, Young-Rok;Chun, Soo-Hwan;Choi, Seong-Man;Myong, Rho-Shin;Cho, Tae-Hwan
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.39 no.7
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    • pp.652-659
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    • 2011
  • A computational system to predict flowfield and infrared signature in aircraft exhaust system is developed. As the first step, a virtual mission profile is considered and an engine is selected through a performance analysis. Then a nozzle that meets the requirement of each mission is designed. The internal flow in the exhaustion nozzle at the maximum thrust is analyzed using a state-of-the-art CFD code. In addition, a system to combine information of the skin temperature distribution of the nozzle and after-body surface with an infrared prediction code is developed. Finally, qualitative results for the infrared signature reduction design are obtained by investigating the infrared signature level under various conditions.