• Journal of Electrochemical Science and Technology
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• 제9권1호
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• pp.20-27
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• 2018

We describe a redox-enhanced electric double-layer capacitor (EDLC) that turns the electrolyte in a conventional EDLC into an integral, active component for charge storage-charge is stored both through faradaic reactions with soluble redox-active molecules in the electrolyte, and through the double-layer capacitance in a porous carbon electrode. The mixed-redox electrolyte, composed of vanadium and iodides, was employed to achieve high power density. The electrochemical reaction in a supercapacitor with vanadium and iodide was studied to estimate the charge capacity and energy density of the redox supercapacitor. A redox supercapacitor with a mixed electrolyte composed of 0.75 M NaI and 0.5 M $VOSO_4$ was fabricated and studied. When charged to a potential of 1 V, faradaic charging processes were observed, in addition to the capacitive processes that increased the energy storage capabilities of the supercapacitor. The redox supercapacitor achieved a specific capacity of 13.44 mAh/g and an energy density of 3.81 Wh/kg in a simple Swagelok cell. A control EDLC with 1 M $H_2SO_4$ yielded 7.43 mAh/g and 2.85 Wh/kg. However, the relatively fast self-discharge in the redox-EDLC may be due to the shuttling of the redox couple between the polarized carbon electrodes.

• E2M - 전기 전자와 첨단 소재
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• 제8권5호
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• pp.640-647
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• 1995

In this study, the BaTiO$\sub$3/ capacitor add to MnO$\sub$2/ like depressor and shifter were investigated for temperature or voltage compensation by structural and electrical analysis. The relative density of BCTM, generating poly crystall and formation of lattice defect, has a 90[%] over as the CaTiO$\sub$3/ come out to control grain size. The current density of BCTM2 increased non-ohmic in high-electric field but that BCTM3 and BCTM4 had a few changing. The BCTM3 and BCTM4 unformated grain boundary shown temperature compensation properties, so that the dielectric constant was low value. The curie point was near 140[.deg. C] in BCTM1 and BCTM4, but BCTM3 and BCTM4 not shown the curie point. It is found that the charging energy of BCTM4 was changed 6[%] according to rising temperature from room temperature to 417[K]. The formation of BaMnO$\sub$3/ was low dielectric constant to change frequency and temperature.

• 청정기술
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• 제27권4호
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• pp.277-290
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• 2021

슈퍼커패시터는 일반 커패시터(축전지, 콘덴서)에 비해 정전용량이 매우 큰 커패시터로 전기화학 커패시터 혹은 울트라 커패시터(ultracapacitor) 라고도 부르는데, 화학반응을 이용하는 배터리와 달리 전극과 전해질 계면의 단순한 이온 이동이나 표면화학반응에 의한 충전현상을 이용한다. 짧은 충전시간(~ 30초), 우수한 출력특성, 반영구적 수명(~ 100,000 cycle), 낮은 유지비용, 빠른 응답특성, 높은 안정성 등을 특징으로 하여, 백업용 전원, 무정전전원장치, 수송 기계 및 스마트 그리드의 고출력 보조 전원 등 급속 충방전이 필요한 전자기기 및 고출력이 요구되는 산업분야에서 활용되고 있다. 태양광과 풍력 같은 불규칙적인 전력원을 활용하는 발전에서 2차 배터리와 함께 에너지저장장치로 구성되어 상대적으로 느린 배터리의 충·방전 특성을 보상하고 배터리 수명연장에 기여하며 시스템의 전체 전력 품질을 향상시킬 수 있다. 본 고에서는 이처럼 에너지저장장치로 다양한 분야에서 활용되고 있는 슈퍼커패시터에 대해, 전극 재료에 따른 에너지 저장 원리 및 메커니즘, 분류를 간략하게 살펴보고, 국내외 제품 연구, 특허, 시장 및 제품 현황을 제시하여 활용성을 검토하고 향후 전망을 살펴보았다. 에너지 저장 소자로 슈퍼커패시터가 관련 산업 수요에 대응하기 위해서는, 고전압 모듈 기술, 고효율 충전, 안전성, 추가적인 성능개선 및 비용경쟁력 등 아직까지 해결해야 할 과제들이 많다.

• 한국가스학회지
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• 제27권4호
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• pp.70-77
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• 2023

기후변화에 대한 대응으로 각국에서는 에너지수급계획에서 온실가스를 줄이는 목표를 제시하고 있으며, 그 이행을 위한 에너지 자원의 우선순위에서 늘 빠지지 않은 화두가 수소가스 이용이다. 이 수소가스를 이용하기 위한 대중적인 방법으로 수소연료전지 자동차의 이용을 꼽을 수 있으며, 이 수소연료전지 자동차를 이용하는데 필수적인 것이 수소충전소의 확충이다. 하지만 수소충전소의 확충을 위해서 여러 제약사항이 발생하고 있으며 그 중 가장 대표적인 것이 주민 수용성이다. 현재 국내 건립된 수소충전소 중 대부분은 인구밀도가 떨어진 외곽에 위치하고 있으며, 때문에 수소연료전지 자동차 이용자들의 불편은 해소되지 않고 있고 그에 따라 수소연료전지 자동차의 보급도 진전이 없다. 본 논문에서는 시민들이 많이 이용하는 철도부지에 수소충전소를 건설하였을 때의 위험성을 알아보기 위해 사고 피해 영향을 분석하였다. 대상 수소충전소 부지는 부산의 한 철도기지창을 대상으로 하였으며, 이 부지 주위에는 철도차량, 국도 및 상업시설이 존재한다. 최악의 시나리오를 가정했을 때 사로고 인해 영향을 받은 지역과 그 영향을 분석하여 수소충전소 부지의 안전에 대한 고찰을 하고자 한다.

• 한국수소및신에너지학회논문집
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• 제26권4호
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• pp.324-330
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• 2015

The electrolyte flow rates of vanadium redox flow battery play very important role in terms of ion transfer to electrolyte, kinetics and pump efficiency in system. In this paper a vanadium redox flow battery single cell was tested to suggest the optimization criteria of electrolyte flow rates on the efficiencies. The compared electrolyte circulation flow rates in this experimental work were 15, 30 and 45 mL/min. The charge/discharge characteristics of the flow rate of 30 mL/min was the best out of all flow rates in terms of charging and discharging time. The current efficiencies, voltage efficiencies and energy efficiencies at the flow rate of 30 mL/min were the best. The IR losses obtained at thd current density of $40mA/cm^2$, at the flow rates of 15, 30 and 45 mL/min were 0.085 V, 0.042 V and 0.115 V, respectively. The charge efficiencies at the current density of $40mA/cm^2$ were 96.42%, 96.45% and 96.29% for the electrolyte flow rates of 15, 30 and 45 mL/min, respectively. The voltge efficiencies at the current density of $40mA/cm^2$ were 77.34%, 80.62% and 76.10% for the electrolyte flow rates of 15, 30 and 45 mL/min, respectively. Finally, the energy efficiencies at the current density of $40mA/cm^2$ were 74.57%, 77.76% and 73.27% for the electrolyte flow rates of 15, 30 and 45 mL/min, respectively. The optimum flow rates of electrolytes were 20 mL/min in most of operating variables of vanadium redox flow battery.

• 한국정보통신학회:학술대회논문집
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• 한국정보통신학회 2017년도 춘계학술대회
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• pp.735-737
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• 2017

An Off grid or remote solar electric systems are an energy supply to our home or to our companies without the utility of Grid at all. Off grid solar systems are very important for those who live in remote locations especially for developing countries where getting the electric grid is extremely expensive, inconvenient or for those who doesn't need to pay a monthly bill with the electric bill in general. The main critical components of any solar power system or renewable energy harvesting systems are the energy storage systems and its charge controller system. Energy storage systems are the essential integral part of a solar energy harvesting system and in general for all renewable energy harvesting systems. To provide an optimal solution of both high power density and high energy density at the same time we have to use hybrid energy storage systems (HESS), that combine two or more energy storage technologies with complementary characteristics. In this present work, design and simulation we use two storage systems supercapacitor for high power density and lithium based battery for high energy density. Here the system incorporates fast-response supercapacitors to provide power to manage solar smoothing and uses a battery for load shifting. On this paper discuss that the total energy throughout of the battery is much reduced and the typical thermal stresses caused by high discharge rate responses are mitigated by integrating supercapacitors with the battery storage system. In addition of the above discussion the off grid solar electric energy harvesting presented in this research paper includes battery and supercapacitor management system, MPPT (maximum power point tracking) system and back/boost convertors. On this present work the entire model of off grid electric energy harvesting system and all other functional blocks of that system is implemented in MATLAB Simulink.

• 한국수소및신에너지학회논문집
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• 제31권2호
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• pp.184-193
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• 2020

One of the technical methods to increase the volumetric energy density of hydrogen is to pressurize the gaseous hydrogen and then contain it in a rigid vessel. Especially for automotive systems, the compressed hydrogen storage can be found in cars as well as at refueling stations. During the charging the pressurized hydrogen into a vessel, the temperature increases with the amount of stored hydrogen in the vessel. The temperature of the vessel should be controlled to be less than a limitation for ensure stability of material. Therefore, the accurate estimation of temperature is of significance for safely storing the hydrogen. In this work, three well-known cubic equations of state (EOSs) were adopted to examine the accuracy in regenerating thermodynamic properties of hydrogen within the temperature and pressure ranges for the compressed hydrogen storage. The formulations representing molar volume, internal energy, enthalpy, and entropy were derived for Redlich-Kwong (RK), Soave-Redlioch-Kwong (SRK), and Peng-Robinson (PR) EOSs. The calculated results using the EOSs were compared with literature data given by NIST. It was revealed that the accuracies of RK and SRK EOSs were satisfactorily compatible and better than the results by PR EOS.

• 대한전기학회:학술대회논문집
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• 대한전기학회 2002년도 하계학술대회 논문집 B
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• pp.1391-1393
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• 2002

There arc some problems on storage batteries which are called Secondary Battery, such as long charging time, limited cycle life, low coulomb efficiency and inaccurate residual power meter. To solve those problems, a complex system of capacitors and Super Capacitors of increased energy density. Though the capacitors alone arc not capable of delivering stable output, the accompanied circuits compensate the various characteristics all through the charge-and discharge-cycle. This paper deals with Energy Storage System with Super Capacitor for PV System Discussed in this paper are, explains the accompanied circuits of Super Capacitor which is compared with the Second Batteries.

• 대한기계학회:학술대회논문집
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• 대한기계학회 2007년도 춘계학술대회B
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• pp.3365-3370
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• 2007

We developed micro power generation system using piezoelectric materials. In our system, the ambient vibrating energy is converting to electric energy by deflection of piezoelectric beams. The system consists of energy generating parts, converting enhancement parts, electric regulation and charging parts, and interface with small-energy-consuming mobile devices. The geometry of piezoelectric beams, the source of vibrating energy, and the electric load of target application determine the characteristics of generating electric power, such as impedance, voltage, current and power density. Therefore, we made a model for analysis of generating power with given information such as piezoelectric materials, geometry, vibration type, and mass. With this model, we can calculate capacitance of piezoelectric beams, generating voltage, current, and power. To obtain maximum energy transfer efficiency, we approached this study in the view of material, electrical, and mechanical engineering

• 전력전자학회:학술대회논문집
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• 전력전자학회 2001년도 Proceedings ICPE 01 2001 International Conference on Power Electronics
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• pp.727-730
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• 2001

Electrical wire explosion (EWE) is characterized by great current density and rapid metal heating, which make itself an ideal tool for nano-materials manufacturing technology. The EWE requires a high voltage electric-energy source. In the current experimental set-up a high voltage capacitor is used for the purpose. Hence, a power supply that is capable of charging the capacitor to a target voltage is required. One of the special requirements is the precise controllability of the stored energy level in the capacitor. Through this study a high voltage capacitor charger using a series resonant converter technology has been developed for the production of nanosize powder. A load capacitor of $32{\mu}F$ can be charged up to 20kV by the developed capacitor charger and discharged through a gap switch and a copper wire.