• 유체기계공업학회:학술대회논문집
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• 유체기계공업학회 2001년도 유체기계 연구개발 발표회 논문집
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• pp.209-215
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• 2001

The head-capacity curves for pumps developed by the pump manufacturer are based on tests of a single pump operating in a semi-infinite pool with no nearby walls or floors and no stray currents, Hence, flow into the Pump suction is symmetrical with no vortices or swirling. Pump station designers rely on these curves to define the operating conditions for the pump selected. But various constraints such as size, cost, and limitations on storage time require walls, floors, and pump intakes to be close proximity to each other. From this background, the authors are carrying out a systematic study on the flow characteristics of intakes within a sump found in pump stations. Model pump intake basin is designed and PIV is adopted as a measuring tool to capture the instantaneous flow patterns. Special attention is paid to investigate the flow patterns near the free surface, side-wall and back-wall due to different clearances from back-wall to vertical in take pipe. Moreover, the locations and vorticities of the various types of vortices that were found in the examinations are discussed.

• 대한기계학회논문집
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• 제18권4호
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• pp.912-919
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• 1994

The engine combustion is one of the most important processes affecting performance and emissions. One effective way to improve the engine combustion is to control the motion of the charge inside a cylinder by means of optimum induction system design, because the flame speed is mainly determined by the turbulence at compression(TDC) process in S.I. engine. It is believed that the tumble and swirl motion generated during intake stroke breaks down into small-scale turbulence in the compression stroke of the cycle. However, the exact nature of this relationship is not well known. This paper describes the tumble flow measurements inside the cylinder of a 4-valve S.I. engine using laser Doppler velocimetry(LDV) under motoring(non-firing) conditions. This is conducted on an optically assesed single cylinder research engine under motored conditions at an engine speed of 1000rpm. Three different cylinder head intake port configurations are studied to develop a better understanding the tumble flow generation, development, and breakdown mechanisms.

• 대한기계학회:학술대회논문집
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• 대한기계학회 2001년도 추계학술대회논문집B
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• pp.563-569
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• 2001

The head-capacity curves for pumps developed by the pump manufacturer are based on tests of a single pump operating in a semi-infinite pool with no nearby walls or floors and no stray currents, Hence, flow into the pump suction is symmetrical with no vortices or swirling. Pump station designers rely on these curves to define the operating conditions for the pump selected. But various constraints such as size, cost, and limitations on storage time require walls, floors, and pump intakes to be close proximity to each other. From this background, the authors are carrying out a systematic study on the flow characteristics of intakes within a sump found in pump stations. Model pump intake basin is designed and PIV is adopted as a measuring tool to capture the instantaneous flow patterns. Special attention is paid to investigate the flow patterns near the free surface, side-wall and back-wall due to different clearances from back-wall to vertical in take pipe. Moreover, the locations and vorticities of the various types of vortices that were found in the examinations are discussed.

• 한국유체기계학회 논문집
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• 제12권4호
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• pp.14-22
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• 2009

The head-capacity curves for pumps developed by the pump manufacturer are based on tests of a single pump operating in a semi-infinite basin with no close walls or floors and with no stray currents. Therefore, flow into the pump intake is with no vortices or swirling. However, pump station designers relying on these curves to define the operating conditions for the pump selected sometimes meet the reductions of capacity and efficiency, as well as the increase of vibration and additional noise, which were caused by air-entered flow in the pump station. From this background, the authors are carrying out a systematic study on the flow characteristics of intakes within a sump of pump station model. Multi-intake sump model with anti-submerged vortex device basin is designed and the characteristics of submerged vortex is investigated in the flow field by numerical simulation. In this study, a commercial CFD code is used to predict the vortex generation in the pump station accurately. The analysed results by CFD show that the vortex structure and effect of anti-submerged vortex device are different at each pump intake channel.

• 한국추진공학회지
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• 제13권6호
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• pp.8-16
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• 2009

고압 축소형 연소기의 개발에 관하여 기술하였다. 헤드부와 챔버부가 분리형인 연소기와 일체형 재생냉각 방식의 연소기 등 총 4기의 연소기가 개발되었다. 축소형 연소기의 연소 압력은 70 bar이고, 추진제 유량은 5.1~9.1 kg/s이다. 연소성능의 향상을 위해 추진제 유량, 분사기의 recess 수 등을 변화시켰고, 이를 연소시험을 통해 확인하였다. 또한 실물형 연소기에 적용할 재생냉각 채널과 막냉각의 설계 및 제작 기술을 본 축소형 연소기에 적용, 검증하였다.

• 한국생산제조학회지
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• 제23권5호
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• pp.435-442
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• 2014

This paper describes an improved design model that can be used to configure a non-contact pneumatic device to turn a large sheet at the in-line system. For rotational moving in the conveyor system, the conventional method is to turn the system itself. The improved non-contact pick-up system mainly uses 8 pairs of L-shaped latches and 12 swirl type heads. It is positioned above the upward air flow table. This system performs the non-contact gripping and side-edge contact support in the vertical and rotational directions to hold the self-weight of a large flat sheet. A non-contact air head can exert a sufficient gripping ability at 4N lower than the standard working pressure. The side latches support 60% of the lifting force required. Through structural and flow analysis, the working conditions were simultaneously considered in accordance with the deflection and flatness of the glass.

• 한국추진공학회:학술대회논문집
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• 한국추진공학회 2012년도 제38회 춘계학술대회논문집
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• pp.454-456
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• 2012

한국형발사체(KSLV-II) 3단용 7톤급 액체로켓엔진 연소기 개념설계에 대한 내용을 기술하였다. 3단용 엔진은 TP 방식 엔진이며, 연소기의 진공추력은 6.9 tonf, 진공 비추력 336.9 sec, 연소압력 70 bar, 노즐 팽창비 94.5, 총 추진제 유량 20.5 kg/s, 혼합비 2.45 이다. 7톤급 연소기의 헤드부는 90개의 동축 와류형 분사기로 구성되고, 연소실은 케로신 재생냉각 일체형 연소기이다.

• 한국추진공학회지
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• 제11권1호
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• pp.11-17
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• 2007

연소실 설계에 따른 실물형 가스발생기의 연소 안정성 특성에 대한 실험적 연구가 수행되었다. 연소성능에 주요한 영향을 미치는 분사기 헤드에는 1.5의 리세스 수를 갖는 내부 혼합형 이중 스월 분사기 37개가 배치되었다. 본 논문에서는 연소실 길이, 직경, 그리고 교반링 등 연소실 설계 변경에 따른 연소 안정성 특성에 대하여 살펴보았다. 연소시험 결과 연소실의 유효 길이가 줄어듦에 따라 불안정 주파수는 고주파 영역에서 발생되며, 압력의 강도는 전반적으로 줄어들어 유해하지 않은 수준으로 감소가 가능하였다. 하지만 축방향 공진주파수에 해당하는 압력 섭동을 완전히 제거시키지는 못하는 것으로 판단된다.

• 항공우주기술
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• 제6권1호
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• pp.128-135
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• 2007

분사기 헤드에 설치된 분사기 수를 바꾸어가며 실물형 가스발생기의 연소 특성에 대한 실험적 연구를 수행하였다. 가스발생기에 공급되는 총 추진제의 유량은 같으면서 분사기당 유량이 달라지는 실물형 가스발생기 3대가 사용되었다. 각 가스발생기에는 13개, 19개, 37개의 내부 혼합형 이중 스월 분사기가 배치되었다. 연소시험 결과, 13개, 19개 분사기를 장착한 가스발생기는 축방향 공진주파수에 해당하는 섭동이 발생하지 않았지만, 37개 분사기가 장착된 가스발생기의 경우 강도가 작긴 하지만 축방향 공진주파수에 해당하는 압력 섭동 현상이 나타나고 있다. 분사기 수가 증가할수록 연소실내의 온도 분포 편차는 점차 작아지지만, 분사기 LOx post의 손상은 증가하는 결과를 나타내었다.

• 대한기계학회논문집B
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• 제26권6호
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• pp.805-810
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• 2002

Development of a small gas-turbine combustor for 100㎾ class APU(Auxiliary Power Unit) has been performed. This combustor is a reverse-annular type and has a tangential swiller in the liner head to improve the fuel/air mixing and flame stability. Three main and three pilot fuel injectors of the simplex pressure-swirl type are used. The performance target at the design condition includes a turbine inlet temperature of l170k, a combustion efficiency of 99%, a pattern factor of 30%, and an engine durability of 3000 hours. Under developing the combustor, we conducted the performance test of our first prototype(TS1) with some variants. As a result of the test, the performance targets of the combustor are satisfied except that the pattern factor is about 4% higher than the target value. Therefore, the second prototype(TS2) was redesigned and the performance test was conducted with the critical focus on the pattern factor and the exit mean temperature. We adopted TS2 four variants to check the improvement of the pattern factor. As a result, the pattern factors of several variants were satisfied with the performance target. Finally, the TS2A variant was chosen as a final combustor fur our APU model.