• 전기학회논문지
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• 제59권4호
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• pp.707-714
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• 2010

When problems such as line fault, breakdown of a substation or a generator, etc. arise on the grid, the Microgrid is designed to be separated or isolated from the grid. Most existing DGs(Distributed Generators) in distribution system use rotating machine. However, new DGs such as micro gas turbine, fuel cell, photo voltaic, wind turbine, etc. will be interfaced with the Microgrid through an inverter. So the Microgrid may have very lower inertia than the conventional distribution system. By the way, the rate of change of frequency depends on the inertia of the power system. Moreover, frequency has a strong coupling with active power in power system. Because the frequency of the Microgrid may change rapidly and largely during transient, appropriate and fast control strategy is needed for stable operation of the Microgrid. Therefore, this paper presents a power balancing strategy in Microgrid during transient. Despite of strong power or frequency excursions, power balancing in the Microgrid can be maintained.

• 융복합기술연구소 논문집
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• 제7권2호
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• pp.13-16
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• 2017

The design of sealing mechanisms of a manual pressure valve was analyzed with FE analysis for a hydrogen fuels charge and discharge system of FCEV. The damage prediction of the O-ring with respect to the material models of rubbers was calculated by the gap analysis of the backup ring and O-ring according to the internal pressure. Two kinds of the rubber material characteristic models were adopted to the O-ring. One was the linear elastic and the other was hyperelastic of Ogden $3^{rd}$ order model. The experimental data of urethane of Shore hardness 90 was utilized to the curve fitting of hyperelastic properties. It was found that the contact pattern of the backup ring was different in two models and the sealing mechanism was better in the case of the hyperelastic characteristic model.

• 설비공학논문집
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• 제18권10호
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• pp.819-825
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• 2006

In a SOFC/GT (solid oxide fuel cell/gas turbine) hybrid power generation system, the recuperator is an indispensible component to enhance system performance. Since the expansion ratio to the recuperator core is very large, generally, the effective header design to distribute the flow uniformly before entering the core is crucial to guarantee the required performance. In the present study, we focus on the design of a diffuser type recuperator header with a 90 degree turn inlet port. To reduce the flow separation and recirculation flows, multiple horizontal vanes are used. The number of horizontal vanes is varied from 0 to 24. The air flow velocity is measured at 40 points just behind the core outlet by using a hot wire anemometer. Then, the flow non-uniformity is evaluated from the measured flow velocity. The experimental results showed that inlet air velocity did not effect on relative flow non-uniformity. According to increasing the number of horizontal vanes, flow non-uniformity reduced about $40{\sim}50%$ than without using horizontal vanes.

• 전력전자학회:학술대회논문집
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• 전력전자학회 2019년도 전력전자학술대회
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• pp.11-13
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• 2019

This paper proposes a novel high step-up non-isolated DC-DC converter, suitable for regulating dc bus in various inherent low voltage micro sources especially for photovoltaic (PV) and fuel cell sources. This novel high voltage Non-isolated Boost DC-DC converter topology is best replacement, where high voltage conversion ratio is required without the transformer and also need continuous input current. Since the proposed topology utilizes the stack-based structure, the voltage gain, and the efficiency are higher than other conventional non-isolated converters. Switches in this topology is easier to control since its control signal is grounding reference. Also, there is no need of extra gate driver and extra power supply for driver circuit, which reduces the cost and size of system. In order to show the feasibility and practicality of the proposed topology principle operation, steady state analysis and simulation result is presented and analyzed in detail. To verify the performance of proposed converter and theoretical analysis 360W laboratory prototype is implemented.

• Journal of Power Electronics
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• 제17권2호
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• pp.490-500
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• 2017

Fuel cell (FC) is a promising power supply in electric vehicles (EV); however, it has poor dynamic performance and short service life. To address these shortcomings, a super capacitor (SC) is adopted as an auxiliary power supply. In this study, the frequency decoupling control method is used in electric vehicle energy system. High-frequency and low-frequency demand power is provided by SC and FC, respectively, which makes full use of two power supplies. Simultaneously, the energy system still has rapidity and reliability. The distributed power system (DPS) of EV requires DC-DC converters to achieve the desired voltage. The stability of cascaded converters must be assessed. Impedance-based methods are effective in the stability analysis of DPS. In this study, closed-loop impedances of interleaved half-bridge DC-DC converter and phase-shifted full-bridge DC-DC converter based on the frequency decoupling control method are derived. The closed-loop impedance of an inverter for permanent magnet synchronous motor based on space vector modulation control method is also derived. An improved Middlebrook criterion is used to assess and adjust the stability of the energy system. A theoretical analysis and simulation test are provided to demonstrate the feasibility of the energy management system and the control method.

• 한국실천공학교육학회논문지
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• 제3권2호
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• pp.75-82
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• 2011

최근들어 화석 연료의 고갈, 지구 온난화등의 문제들로 인해, 녹색성장 기술이 중요시 되고 있다. 에너지 문제와 녹색성장 기술이 융합된 신성장동력 확보를 위해 풍력, 태양광, 연료전지, 바이오 연료등에 많이 투자가 확대되고 있다. 그 중 풍력발전은 다른 에너지에 비해 경제성이 높고, 유해물질의 배출이 거의 없다. 따라서 최근 정부나 기업들에서도 많은 비용을 투자하여 풍력 기술 개발에 적극적인 지원을 하고 있지만, 풍력 기술을 선도하는 해외 선진국들에 비해서 국내에서의 관련 교육과 장비는 연구소 수준에 머물고 있다. 그러므로 관련 산업에서 요구하는 기본 기술의 저변화와 기술적 향상을 위해 실제 산업에서 적용하고 있는 시스템과 유사한 자비와 교육과정의 개발이 필요한 실정이다. 본 논문에서는 실험을 통하여 풍력터빈제어의 이론적인 내용을 수강생들이 보다 쉽게 이해할 수 있도록 교육용 풍력터빈제어 실습장치를 개발하고 교육효과를 알아보았다. 개발된 실습장치를 소개하고, 각각의 실습장치를 소개한다. 마지막으로 설문조사를 통하여 반응도 평가를 통한 교육효과를 검증하였다.

• Journal of Electrical Engineering and Technology
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• 제9권6호
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• pp.2224-2236
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• 2014

The performance of an isolated high voltage full bridge converter is improved using a voltage doubler. In a conventional high voltage full bridge converter, the diode of the transformer secondary voltage undergoes a voltage spike due to the leakage inductance of the transformer and the resonance occurring with the parasitic capacitance of the diode. In addition, in the phase shift control, conduction loss largely increases from the freewheeling mode because of the circulating current. The efficiency of the converter is thus reduced. However, in the proposed converter, the high voltage dual converter consists of a voltage doubler because the circulating current of the converter is reduced to increase efficiency. On the other hand, in the proposed converter, an input current is distributed when using parallel input / serial output and the output voltage can be doubled. However, the voltages in the 2 serial DC links might be unbalanced due to line impedance, passive and active components impedance, and sensor error. Considering these problems, DC injection is performed due to the complementary operations of half bridge inverters as well as the disadvantage of the unbalance in the DC link. Therefore, the serial output of the converter needs to control the balance of the algorithm. In this paper, the performance of the conventional converter is improved and a balance control algorithm is proposed for the proposed converter. Also, the system of the 1.5[kW] PCS is verified through an experiment examining the operation and stability.

• 한국정밀공학회지
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• 제30권2호
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• pp.137-142
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• 2013

The indiscriminate use of the fossil fuel has caused serious environmental pollutions such as the shortage of energy and global warming. Microalgae have being emphasized as $3^{rd}$ generation biomass which makes the carbon dioxide reduce effectively as well as produces the biofuel. Large scale production of microbial biomass by continuous culture is a quite challenging issue, because off-line optimization strategies of a microbial process utilizing a model-based scheme give rise to many difficult problems. In this paper, the static and simple control method which was able to be applied in time-variant growth environment and large scale of algae culture was studied. The significant disturbances in on-line measurement of cell density were reduced by Savitzky-Golay FIR smoothing filter. Dunaliella salina was cultivated continuously in a flat panel photobioreactor by the on-off control of the turbidostat process.

• 한국신재생에너지학회:학술대회논문집
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• 한국신재생에너지학회 2009년도 춘계학술대회 논문집
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• pp.361-364
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• 2009

KEPRI has studied planar type SOFC stacks using anode-supported single cells and kW class co-generation systems for residential power generation. A 1kW class SOFC system consisted of a hot box part, a cold BOP part and a water reservoir. A hot box part contains a SOFC stack made up of 48 cells with $10{\times}10cm^2$ area and ferritic stainless steel interconnectors, a fuel reformer, a catalytic combustor and heat exchangers. Thermal management and insulation system were especially designed for self-sustainable operation. A cold BOP part was composed of blowers, pumps, a water trap and system control units. When a 1kW class SOFC system was operated at $750^{\circ}C$ with hydrogen, the stack power was 1.2kW at 30 A and 1.6kW at 50A. Turning off an electric furnace, the SOFC system was operated using hydrogen and city gas without any external heat source. Under self-sustainable operation conditions, the stack power was about 1.3kW with hydrogen and 1.2kW with city gas respectively. The system also recuperated heat of about 1.1kW by making hot water. Recently KEPRI developed stacks using $15{\times}15cm^2$ cells and tested them. KEPRI will develop a 5 kW class CHP system using $15{\times}15cm^2$ stacks by 2010.

• 한국가스학회지
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• 제27권3호
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• pp.52-58
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• 2023

지구 기상이변에 대해 탄소중립의 중요성이 대두됨에 따라 무탄소 연료인 수소의 에너지원으로서의 활용도 역시 증대되고 있다. 일반적으로 수소는 연료전지(FC, Fuel Cell)에 활용되고 있으나, 이는 연소를 기반으로 하는 내연기관(ICE, Internal Combustion Engine)에도 활용될 수 있다. 특히 연료전지만으로 수소 활용 및 인프라 확장이 어려운 때에 이미 생산 측면이나 공급 측면에서 인프라가 기 구축되어 있는 내연기관은 수소 에너지 저변 확대에 큰 도움을 줄 수 있다. 다만 수소를 연소기반으로 활용할 경우 고온에서 공기 중 질소가 산소와 반응하여 유해배기물질인 질소산화물(NOx, Nitrogen Oxides)이 생성될 수 있는 단점은 존재한다. 특히 냉간 (Cold Start) 운전 영역시 포함될 EURO-7 배기규제의 경우 워밍업(Warm-up) 과정에서 발생하는 배기배출물의 저감을 위한 노력도 필요하다. 따라서 본 연구에서는 2 L급 수소 직접분사방식 전기점화 (SI, Spark Ignition) 엔진을 활용하여 냉각수를 상온에서 88 ℃로 워밍업하는 과정에서 질소산화물 및 연료소모율의 변화 특성을 살펴보았다. 특히 수소는 기존의 가솔린, 천연가스, 액화석유가스(LPG, Liquified Petroleum Gas)와 달리 가연범위(Flammable range)가 넓기 때문에 공기과잉률(Excessive air ratio)을 희박하게 조절할 수 있다는 장점이 있다. 이에 본 연구에서는 워밍업하는 과정에 있어서 공기과잉률을 1.6/1.8/2.0으로 변화하여 그 결과를 분석하였다. 본 실험의 결과는 워밍업 시 공기과잉률이 희박해질수록 시간당 질소산화물의 배출이 적고, 열효율도 상대적으로 높으나 최종 온도까지 도달 시간이 길어짐에 따라 누적 배출량 및 연료소모율은 악화될 수도 있음을 시사한다.