• 한국조명전기설비학회지:조명전기설비
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• 제11권2호
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• pp.64-73
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• 1997

국내에서 가정용 보일러에 사용되고 있는 기존의 순환펌프는 캔(canned)형 순환펌프로서 거의 수입에 의존하고 있는 실정이며, 이것은 고정자와 회전자의 간격이 넓어 효율이 떨어지고, 또한 여름철 비가동시에는 캔과 회전자 사이가 고착되어 초기가동이 불가능하게 됨으로서 펌프의 수명을 단축시키는 단점을 가지고 있다. 따라서 본 연구에서는 이러한 단점들을 극복하고 기존의 순화펌프의 개념을 완전히 탈피한 평면대향형 브러시리스 전동기에 의한 전자식 순환펌프를 개발하고자 한다. 개발된 전자식 순화펌프는 실험을 통하여 기존의 캔형 순환펌프보다 크기 및 소음의 축소, 원가절감, 효율의 향상 등 이점을 가지고 있음을 보였다.

• 한국융합학회논문지
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• 제12권3호
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• pp.197-204
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• 2021

본 연구는 유압기계에 사용되는 유압 시스템에서 기포를 저감시킴으로써 효율을 증대시키는 장치에 관한 것이다. 해외 상용품인 기포저감장치의 역설계를 진행하였고, 실험에 용이하게 제품들을 제작하였다. 작동성 실험을 위해 총 3종류의 시스템을 구성하였다. 해외 상용품을 Base Model로 설정하였고, 하강하는 유체의 표면적을 넓히기 위해 회전형 Rotator와 경사형 Rotator를 추가하였으며, 유체를 균등하게 분배해주기 위해 하단부에 슬롯이 파진 환형 균등분배 파트를 추가 적용하였다. 또한 내부 유동경향을 분석하였으며, 유체의 직선적인 흐름을 균등하게 분배시키는 시스템을 1차 개선 모델로 선정하였고, 설계 변수를 적용하여 추가 유동해석을 진행하였다. 1차 개선 모델을 바탕으로 경사형 Rotator의 각도가 45°일 때를 2차 개선 모델로 선정하였다. 이를 기준으로 환형 균등분배 파트의 출구너비를 변수로 설정한 결과, 환형 파트의 하단부 슬롯 직경이 10mm일 때 기포저감 효율이 가장 높았다. 최종적으로 Base Model 대비 평균 단면 유속이 147% 감소한 시스템을 최종 개선 모델로 도출하였다.

• 한국항공우주학회지
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• 제42권8호
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• pp.713-721
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• 2014

현재 유럽과 미국에서는 각각 GRC(Green Rotorcraft) 와 SRW (Subsonic Rotary Wing program) 프로그램을 통하여 차세대 회전익기 개발이 진행 중에 있다. 이들 프로그램의 최종 목적은 현재 사용 중에 있는 단거리 여객기를 일부 대체 할 수 있는 틸트로터 타입의 중/소형 민간 회전익기 개발에 목적을 두고 있다. 또한 이들 틸트 로터의 민간 운영에 운영할 수 있는 안전한 운행을 위하여, 각각 개발 중인 air transport management(ATM) 시스템인 SESAR(Single European Sky ATM Research) 와 NextGen(Next Generation Air Transport System)과 융합하는 기술도 병행되고 있다. 이들 프로그램들은, 최종 목표인 틸트 로터기의 개발이 진행되는 중간 과정으로, 현재 사용되고 있는 헬리콥터의 성능의 향상도 병행하고 있다. 이러한 성능 개발은 좀 더 효율적인 추진기관, 능동 로터 시스템, 내/외부의 소음 감소 등에 중점을 두고 있다. 특히 유럽의 GRC 프로그램에서는 소음, 연료소비율, 배기가스 (CO2, NOx)의 절감 등에 매우 구체적인 목표를 설정하여 기술 개발을 진행 중에 있다.

• Tribology and Lubricants
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• 제36권2호
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• pp.105-115
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• 2020

This paper presents a numerical study on the rotordynamic analysis of a dual-spool turbofan engine in the context of blade defect events. The blades of an axial-type aeroengine are typically well aligned during the compressor and turbine stages. However, they are sometimes exposed to damage, partially or entirely, for several operational reasons, such as cracks due to foreign objects, burns from the combustion gas, and corrosion due to oxygen in the air. Herein, we designed a dual-spool rotor using the commercial 3D modeling software CATIA to simulate blade defects in the turbofan engine. We utilized the rotordynamic parameters to create two finite element Euler-Bernoulli beam models connected by means of an inter-rotor bearing. We then applied the unbalanced forces induced by the mass eccentricities of the blades to the following selected scenarios: 1) fully balanced, 2) crack in the low-pressure compressor (LPC) and high pressure compressor (HPC), 3) burn on the high-pressure turbine (HPT) and low pressure compressor, 4) corrosion of the LPC, and 5) corrosion of the HPC. Additionally, we obtained the transient and steady-state responses of the overall rotor nodes using the Runge-Kutta numerical integration method, and employed model reduction techniques such as component mode synthesis to enhance the computational efficiency of the process. The simulation results indicate that the high-vibration status of the rotor commences beyond 10,000 rpm, which is identified as the first critical speed of the lower speed rotor. Moreover, we monitored the unbalanced stages near the inter-rotor bearing, which prominently influences the overall rotordynamic status, and the corrosion of the HPC to prevent further instability. The high-speed range operation (>13,000 rpm) coupled with HPC/HPT blade defects possibly presents a rotor-case contact problem that can lead to catastrophic failure.

• 전기학회논문지
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• 제61권1호
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• pp.50-56
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• 2012

The Multi D.O.F spherical motor can drive rotating as well as tilting three degree of freedom with one motor. Existing three degree of freedom to drive with three motors that are connected by gears and belts, that will be too large size and big loss at gears and belts. So Reducing system size and improving efficient is using the Multi D.O.F spherical motor in three degree of freedom systems. For this reason, efficiency of Multi D.O.F spherical motor is one of the important performance indiccators. In this paper presented that how to improve the efficiency of the Multi D.O.F spherical motor. The fist of method is using the stator iron core's material with high permeability and resistivity for reducing the eddy current loss. However, it was the disadvatages of motor-making and economic. So author propose the resonable method of reducing the eddy current loss in the stator iron core. That is using the rotor with double-air gap.

• Journal of Power Electronics
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• 제13권4호
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• pp.546-551
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• 2013

This paper deals with the optimum design of the stator and rotor shape of the interior permanent magnet synchronous motors (IPMSM) that are used in applications for automobiles. IPMSMs have the following advantages: high power, high torque, high efficiency, etc. However, cogging torque which causes noise and vibrations is generated at the same time. The optimum design of shape of a IPMSM was carried out with the aim of reducing cogging torque. Six variables which affect to the performance of a IPMSM are chosen. The main effect variables were determined and applied to the response surface methodology (RSM). When compared to the initial model using the finite elements method (FEM), the optimum model highly reduces the cogging torque and improves the total harmonics distortion (THD) of the back-electro motive force (EMF). A prototype of the designed model was manufactured and experimented on to verify the feasibility of the IPMSM.

• 한국군사과학기술학회지
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• 제22권4호
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• pp.460-466
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• 2019

It takes a lot of time and human resources to build a detailed three-dimensional finite element analysis model that is almost similar to the actual structure for sophisticated analysis, and a lot of experience and know-how is required to form a reliable analytical model. In this paper, the one-dimensional beam model connected by stiffness matrix through blade analysis library was compared with the results of three-dimensional analysis with the stress calculated through the process of dimensional restoration analysis based on the principle of virtual work. By comparing the stress calculated through dimensional restoration analysis with the three-dimensional analytical model, We will introduce the development status and application case of the blade analysis library by comparing efficiency and accuracy.

• 대한기계학회논문집
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• 제19권3호
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• pp.639-646
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• 1995

The objective of this study is to minimize the weight of a damped anisotropic roto-bearing system considering whirl natural frequency and stability. The system is modeled as an assemblage of rigid disks, flexible shafts and discrete bearings. The system design variables are the crosssectional areas of shaft elements and the properties of bearings. To analyze the system, the polynomial method which is derived by rearranging the calculations performed by a transfer matrix method is adopted. For the optimization, the optimization software IDOL (Integrated Design Optimization Library) which is based on the Augmented Lagrange Multiplier (ALM) method is employed. Also, an analytical design sensitivity analysis of the system is used for high accuracy and efficiency. To demonstrate the usefulness of the proposed optimal design program incorporating analysis, design sensitivity analysis, and optimization modules, a damped anisotropic rotor-bearing system is optimized to obtain 34$ weight reduction.

• 한국정밀공학회지
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• 제18권11호
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• pp.107-115
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• 2001

Most of rotating machineries supported by contact bearing accompany lowering efficiency, vibration and wear. Moreover, because of vibration, which is occurred in rotating shaft, they have the limits of driving speed and precision. The rotor system has parametric variations or external disturbances such as mass unbalance variations in long operation. Therefore, it is necessary to research about magnetic bearing, which is able to support the shaft without mechanical contact and to control rotor vibration without being affected by external disturbances or parametric changes. Magnetic bearing system in the paper is composed of position sensor, digital controller, actuating amplifier and electromagnet. This paper applied the robust control method using quantitative feedback theory (QFT) to control the magnetic bearing. It also proposed design skill of optimal controller, in case the system has structured uncertainty, unstructured uncertainty and disturbance. Reduction of vibration is verified at critical rotating speed even external disturbance exists. Unbalance response, a serious problem in rotating machinery, is improved by magnetic bearing using QFT algorithm.

• 전기학회논문지
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• 제56권1호
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• pp.57-65
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• 2007

Along with the development of power electronics and magnetic materials, permanent magnet (PM) brushless direct current (BLDC) motors are now widely used in many fields of modern industry BLDC motors have many advantages such as high efficiency, large peak torque, easy control of speed, and reliable working characteristics. However, Compared with the other electric motors without a PM, BLDC motors with a PM have inherent cogging torque. It is often a principle source of vibration, noise and difficulty of control in BLDC motors. Cogging torque which is produced by the interaction of the rotor magnetic flux and angular variation in the stator magnetic reluctance can be reduced by sinusoidal air-gap flux density waveform due to reduction of variation of magnetic reluctance. Therefore, this paper will present a design method of magnetizing system for reduction of cogging torque and low manufacturing cost of BLDC motor with isotropic bonded neodynium-iron-boron (Nd-Fe-B) magnets in ring type by sinusoidal air-gap flux density distribution. An analytical technique of magnetization makes use of two-dimensional finite element method (2-D FEM) and Preisach model that expresses the hysteresis phenomenon of magnetic materials in order for accurate calculation. In addition, For optimum design of magnetizing fixture, Factorial design which is one of the design of experiments (DOE) is used.