• JOURNAL OF ELECTRICAL WORLD
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• s.291
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• pp.52-59
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• 2001

• 열병합발전
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• s.62
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• pp.3-15
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• 2008

• Journal of the Earthquake Engineering Society of Korea
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• v.12 no.2
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• pp.33-44
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• 2008

Most of the civil structure - bridges, offshore structures, plant, etc. - have been designed by the classical approaches which deal with all the design parameters as deterministic variables. However, some more advanced techniques are required to evaluate the inherent randomness and uncertainty of each design variable. In this research, a seismic safety assessment algorithm based on the structural reliability analysis has been formulated and computerized for more reasonable seismic design of turbine-generator foundations. The formulation takes the design parameters of the system and loading properties as random variables. Using the proposed method, various kinds of parametric studies have been performed and probabilistic characteristics of the resulted structural responses have been evaluated. Afterwards, the probabilistic safety of the system has been quantitatively evaluated and finally presented as the reliability indexes and failure probabilities. The proposed procedure is expected to be used as a fundamental tool to improve the existing design techniques of turbine-generator foundations.

• Journal of the Korea Academia-Industrial cooperation Society
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• v.16 no.12
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• pp.8753-8759
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• 2015

Establishment of analysis procedures and validated performance measurements for generator output is required to maintain stable management of generator output in turbine power generation cycle. We developed turbine expansion model and measurement validation model for the performance calculation of generator using turbine output based on ASME (American Society of Mechanical Engineers) PTC (Performance Test Code). We also developed verification model for uncertain measurement data related to the turbine and generator output. Although the model in previous researches was developed using artificial neural network and kernel regression, the verification model in this paper was based on algorithms through Support Vector Machine (SVM) model to overcome the problems of unmeasured data. The selection procedures of related variables and data window for verification learning was also developed. The model reveals suitability in the estimation procss as the learning error was in the range of about 1%. The learning model can provide validated estimations for corrective performance analysis of turbine cycle output using the predictions of measurement data loss.

• Journal of the Korea Academia-Industrial cooperation Society
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• v.14 no.5
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• pp.2388-2392
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• 2013

Wind generation systems are very different in nature from conventional generation systems. Therefore it is necessary to research dynamic characteristics of wind generation systems connected to a power system. The stability analysis of wind turbine generator is an important issue in the operation of the power system. The result of angular stability of the power system that consists of only synchronous generators is different from that of the power system including wind turbine generators. This is due to the fact that generators connected to wind turbines are generally induction generators. The angular stability assessing synchronization of generators is determined by its corresponding critical clearing time(CCT). Wind turbine models for the analysis of power system are varied and difficult to use, but now these are standardized into four types. In this paper, the analysis of the CCT of the power system connected to wind farm considering the location and capacity is performed by using DFIG(Doubly-Fed induction Generator) wind turbine built-in type3 model in PSS/E-32.

• The Journal of the Acoustical Society of Korea
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• v.33 no.6
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• pp.351-357
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• 2014

In this paper, flow noise characteristics of the hybrid vertical-axis wind turbine is investigated. Hybrid vertical-axis wind turbines consisting of two types of vertical-axis wind turbines, Savonius and Darrieus, are devised to maximize merits of one turbine and thus minimize demerits of the other turbine. In order to predict flow noise radiating from hybrid vertical-axis wind turbines, hybrid computatioinal aero acoustic techniques are used. First, unsteady flow fields around the turbine are predicted using computational fluid dynamics method. Then, the flow noise radiations from the turbines are predicted by applying acoustic analogy to the predicted flow fields. Based on numerical results, noise characteristics of a hybrid vertical-axis wind turbine is investigated and is compared with those of Savonius and Darrieus wind turbines.

• Proceedings of the Korean Society of Propulsion Engineers Conference
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• 2011.11a
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• pp.677-681
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• 2011

Characteristics of vertical and horizontal axis wind turbines are explained. The speed and direction of wind on the blade of the Darrieus type turbine changes very severely. Therefore dynamic stall happens periodically and the wake from the front blade deteriorates the performance of rear blades. Blade element momentum theory(BEMT) is widely utilized for aerodynamic design and performace prediction of horizontal axis wind turbine(HAWT). Computation analysis and wind tunnel test are also performed for the performance prediction.

• Proceedings of the KIEE Conference
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• 2003.07d
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• pp.2152-2154
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• 2003

전력계통 및 발전기의 안정 운용을 위해 발전기 제어계의 정밀 제어와 정확한 계통 해석을 위한 발전기 관련 정밀 파라미터 취득 및 관리가 요구되는 상황에서 발전기 현장시험과 발전기 관련 안정도 해석용 데이터 취득이 필요한 실정임. 현장 시험(발전기 제어계 특성시험)을 통해서 취득한 데이터를 가지고 모델링 및 제어정수를 조정하여 전력계통 안정도 해석용 데이터 베이스를 구축하게 되는데, 여자기 형식에 따라서 계단 입력 신호가 주어졌을 때 시간응답 특성이 약간씩 차이가 나게 됨. 그리고 발전기 제어계 특성시험은 발전기 직접 관련 데이터 및 원동기(터빈) 입력신호(주증기 유량신호, 주증기 제어밸브 개도 등)까지 측정하게 되는데, 본 논문에서는 발전기 여자제어에 관련된 부분만을 살펴 보았음.

• Proceedings of the KIEE Conference
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• 2005.07b
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• pp.1733-1735
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• 2005

최근의 소형 분산 전원의 보급 필요성의 커짐으로 전력과 열에너지를 동시에 생산, 이용함으로서 종합 에너지 효율이 높고 공해 배출 및 소음 특성이 우수한 초소형 가스터빈 발전 시스템에 대한 수요가 급증하고 있다. 본 논문은 마이크로 가스터빈 시스템과 그 제어장치의 동작 상태를 모니터링 및 제어하기 위한 마이크로 가스터빈 감시 제어장치와 사용자 인터페이스 프로그램을 소개한다. 마이크로 가스 터빈은 초고속(수만$\sim$10만 RPM)으로 회전하여 발전을 하므로 터빈 및 전동기 설계 기술과 더불어 고성능의 제어 시스템을 필요로 한다. 마이크로 가스터빈의 감시 제어 시스템은 터빈, 발전기 및 전력 변환장치를 제어하는 고성능의 DSP 제어장치들과 고속 직렬 통신 방식으로 연결되어 시스템의 제어 및 상태 감시를 위한 최적의 솔루션을 제공함으로서 마이크로 가스터빈의 개발자와 운용자의 보조 역할을 담당한다.

• 한국신재생에너지학회:학술대회논문집
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• 2006.06a
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• pp.315-318
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• 2006

포항풍력에너지연구소에서는 에너지 관리공단의 지원으로 2004년부터 풍력터빈 KBP-2000M에 사용될 발전기를 개발해 오고 있다. KBP-2000M에 사용되는 발전기는 기어비가 24인 기어박스를 가진 가변속도형식의 발전기이다. 발전기의 직경은 1.87m 이고 축 방향의 길이는 1.288m 로 영구자석을 사용하여 여자하는 형식으로 설계되었다. 이러한 설계는 풍력발전기에서 요구하는 주요 요구조건인 고효율, 고 신뢰성을 만족시키기 위해서 매우 중요하다 이 보고에서는 발전기의 물리설계에서 얻어진 사양을 기준으로 하여 열 해석에서 얻어진 열 손실을 이용하여 냉각시스템 설계를 하였으며 펌프 및 라디에이터 선정에 관해서 논의한다.