• Title/Summary/Keyword: Hydrogen Dispenser

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Quantitative Safety Assessment for Hydrogen Station Dispenser (수소 충전소 충전기의 정량적 안전성 평가)

  • Rhie, Kwang-Won;Kim, Tae-Hun;Lee, Taeck-Hong
    • Journal of Hydrogen and New Energy
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    • v.17 no.3
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    • pp.272-278
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    • 2006
  • This study is quantitatively assessing of safety about dispenser of hydrogen station because it is hydrogen energy to efficient safety use. The large leakage of hydrogen gas is the most important accident among others occurrence possibility in hydrogen station. It had written FT by top event and calculated unavailability, m-cutsets, leakage frequency, etc with FTA after each base event collect reliability data by reliability data handbook, THERP-HRA and estimation of the engineering.

Safety Assessment for Hydrogen Gas Filling Facilities(One-Bank) (One-Bank 방식의 수소충전장치에 대한 정성적 안전성 평가)

  • Rhie, Kwang-Won;Kim, Tae-Hun
    • Journal of the Korea Safety Management & Science
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    • v.14 no.1
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    • pp.95-100
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    • 2012
  • This study is about the qualitative safety assessment for hydrogen gas filling facilities in Korea operating with one-bank type. The purpose of this safety assessment is about the development of components for design, fabrication, assembly, operability of dispenser and systems of the safety. For the qualitative safety assessment method, the study used FMEA(failure mode & effect analysis) and HAZOP(hazard & operability). This study evaluated the safety through FMEA and HAZOP then by referring to P&ID and PFD of hydrogen dispenser, thereby examining the dangerousness of the equipments, defects of the structure and problems of the operation.

A Study on the Variation of Unit Price of Hydrogen Fuel by Difference of Fuel Measuring Method (수소 충전소 연료계량방법의 차이에서 발생하는 연료단가의 상이점에 대한 고찰)

  • LEE, TAECK HONG;KANG, BYOUNG WOO;LEE, EUN WOUNG;BAE, CHUNG JIN
    • Journal of Hydrogen and New Energy
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    • v.28 no.3
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    • pp.279-286
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    • 2017
  • Korea government decides to build one hundred hydrogen refueling stations (HRS) until 2020 and tries to disseminate HRS and boosts HRS market in korea. Naepo HRS in chungnam province has been operated for last one full year of 2016 and recorded 2,520 times full charge for the hydrogen fuel cell powered vehicles and total 6,016 kg hydrogen fueling for the 25 units of hydrogen fuel cell powered vehicles. Raw fuel of hydrogen from tube trailer measured by pressure, converting into weight of hydrogen and shows 19.6% surplus with final charged weight by dispenser. This result is caused measuring errors. Measured charged errors between dispenser and Mass flow meter was determined 13.13%.

A Study on the Modeling of Fueling Hydrogen Tank in Vehicle Using Dispenser (디스펜서를 이용한 차량용 연료 탱크 수소 충전 모델링에 관한 연구)

  • Choi, Ji Ah;Ji, Sang Won;Jang, Ji Seong
    • Journal of Drive and Control
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    • v.19 no.2
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    • pp.36-44
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    • 2022
  • Hydrogen energy as an alternative source of energy has been receiving tremendous support around the world, and research is being actively conducted accordingly. However, most of the studies focus on hydrogen storage tanks and only are few studies on interpreting the hydrogen filling system itself. In this study, with reference to SAE J2601, a hydrogen fueling protocol, a simulation model was developed that can confirm the behavior of the vehicle's internal tank during hydrogen fueling. With respect to factors such as fuel supply temperature, ambient temperature, and pressure increase rate, the developed model can check the change of temperature and pressure in the tank and the state of hydrogen charging during hydrogen fueling. The validity of the developed simulation model was confirmed by comparing the simulation results with the experimental results presented in SAE J2601.

Risk Assessment of Stationary Hydrogen Refueling Station by Section in Dispenser Module (고정식 수소충전소에서의 Dispenser Module 내 구역별 위험성 평가)

  • SangJin Lim;MinGi Kim;Su Kim;YoonHo Lee
    • Journal of the Korean Society of Marine Environment & Safety
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    • v.29 no.1
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    • pp.76-85
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    • 2023
  • Demand for hydrogen as a renewable energy resource is increasing. However, unlike conventional fossil fuels, hydrogen requires a dedicated refueling station for fuel supply. A risk assessment of hydrogen refueling stations must be undertaken to secure the infrastructure. Therefore, in this study, a risk assessment for hydrogen refueling stations was conducted through both qualitative and quantitative risk assessments. For the qualitative evaluation, the hydrogen dispenser module was evaluated as two nodes using the hazard and operability (HAZOP) analysis. The risk due to filter clogging and high-pressure accidents was evaluated to be high according to the criticality estimation matrix. For the quantitative risk assessment, the Hydrogen Korea Risk Assessment Module (Hy-KoRAM) was used to indicate the shape of the fire and the range of damage impact, and to evaluate the individual and social risks. The individual risk level was determined of to be as low as reasonably practicable (ALARP). Additional safety measures proposed include placing the hydrogen refueling station about 100m away from public facilities. The social risk level was derived as 1E-04/year, with a frequency of approximately 10 deaths, falling within the ALARP range. As a result of the qualitative and quantitative risk assessments, additional safety measures for the process and a safety improvement plan are proposed through the establishment of a restricted area near the hydrogen refueling station.

A study on the safety assessment of Hydrogen refueling system (수소 충전 시스템의 안전성 평가에 관한 연구)

  • Kim, Tae Hun;Oh, Young Dal;Lee, Man Soo
    • Journal of the Korea Safety Management & Science
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    • v.16 no.4
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    • pp.167-173
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    • 2014
  • Hydrogen energy is expanding in range for civil use together with development of pollution-free power sources recently, and it is judged that the use of hydrogen will increase more as a part of carbon dioxide reduction measures according to the Climatic Change Convention. Especially, it is thought that the securement of safety of the used dispenser will be the biggest obstacle in the use of high-pressure hydrogen because the hydrogen station is operated in a high pressure. This study found risks in the process and problems on operation by making use of HAZOP(6 kinds), a qualitative safety evaluation technique, and FMEA(5 kinds), a fault mode effect analysis, for the hydrogen charging system at a hydrogen gas station, derived 6 risk factors from HAZOP and 5 risk factors from FMEA, and prepared measures for it.

A Study on FTA of Off-Site Packaged Hydrogen Station (Off-Site 패키지형 수소충전소의 FTA 분석)

  • SEO, DOO HYOUN;KIM, TAE HUN;RHIE, KWANG WON;CHOI, YOUNG EUN
    • Journal of Hydrogen and New Energy
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    • v.31 no.1
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    • pp.73-81
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    • 2020
  • For the fault tree analysis (FTA) analysis of the packaged hydrogen filling station, the composition of the charging station was analyzed and the fault tree (FT) diagram was prepared. FT diagrams were created by dividing the causes of events into external factors and internal factors with the hydrogen event as the top event. The external factors include the effects of major disasters caused by natural disasters and external factors as OR gates. Internal factors are divided into tube tailer, compressor & storage tank, and dispenser, which are composed of mistakes in operation process and causes of accidents caused by parts leakage. In this study, the purpose was to improve the hydrogen station. The subjects of this study were domestic packaged hydrogen stations and FTA study was conducted based on the previous studies, failure mode & effect analysis (FMEA) and hazard & operability study (HAZOP). Top event as a hydrogen leaking event and constructed the flow of events based on the previous study. Refer to "Off shore and onshore reliability data 6th edition", "European Industry Reliability Data Bank", technique for human error rate prediction (THERP) for reliability data. We hope that this study will help to improve the safety and activation of the hydrogen station.

The Study to Find Causes for Measuring Differences of Hydrogen Fillings in Hydrogen Refueling Station (수소충전소의 연료 계량 방법에 따른 계량 오차가 발생하는 원인 고찰)

  • LEE, TAECK HONG;KANG, BYOUNG WOO;LEE, EUN WOUNG;CHUNG, JIN BAE;HONG, SUK JIN
    • Journal of Hydrogen and New Energy
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    • v.29 no.1
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    • pp.32-40
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    • 2018
  • There has been an measuring errors between state of charge (SOC; kg) value and mass flow meter (MFM) value in dispenser for hydrogen refueling station. Finally, we observed average 15.5% weight difference between these two values and the MFM readings show a 15.5% higher readout of the SOC readings. Each car was charged with average 2.66 kg of hydrogen fuel during this period. In the initial charging of the day shows less measuring value than the final charging with the maximum 0.038 kg times number of filling. There is no effects of atmosphere temperature change for the hydrogen filled weight during one full year such as January's cold winters and August's hot summers.

Current Progress of Monitoring of Hydrogen Refueling Station and Hydrogen Fuel Cell Vehicle in Korea (국내 수소스테이션과 수소연료전지차의 모니터링 현황)

  • Lee, Young-Chul;Lee, Jeung-Sung;Han, Jeong-Ok;Park, Dall-Young;Choi, Chung-Hwan;Kim, Jae-Dong;Cho, Young-Ah;Jeon, Sang-Hee;Hong, Sung-Ho
    • 한국신재생에너지학회:학술대회논문집
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    • 2009.11a
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    • pp.209-212
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    • 2009
  • 수소에너지의 무궁한 가능성 때문에 관련 기술은 미래 국가 경쟁력을 좌우할 것이며, 이러한 수소에너지의 핵심으로 수소제조공정 및 수소스테이션 관련 기술은 국가연료전지 시장을 비롯한 수소연료전지자동차 산업 전반에 커다란 영향을 미칠 것으로 예상되고 있다. 그러므로 세계 각국은 수소에너지를 미래에너지원으로 개발하기 위하여 대규모로 기술개발 및 실증연구를 실시하고 있으며, 주로 수소연료전지자동차 개발과 아울러 수소스테이션 개발에 대한 인프라 구축에 대해 이루어지고 있다. 국내에서도 국가주도로 수소스테이션 건설이 이루어지고 있으며, 본 연구에서는 수소연료전지자동차를 이용하여 수소인프라와의 모니터링에 대한 현황에 대해 논의하고자 한다.

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Comparison of WiFi Protocols for Safety Communication Between Hydrogen Refueling Station and Fuel Cell Electric Vehicle (수소충전소와 수소전기차간의 안전통신을 위한 WiFi 프로토콜 비교)

  • Ha-Jin Hwang;Dong-Geon So;Do-Ho Cha;Hye-Jin Chae;Seo-Hee Jung;Sung-Ho Hwang
    • The Journal of the Institute of Internet, Broadcasting and Communication
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    • v.23 no.6
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    • pp.81-87
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    • 2023
  • SAE J2601 and SAE J2799, the communication protocols between a hydrogen refueling station and a fuel cell electric vehicle, only cover hydrogen charging. In this paper, we measure the hydrogen detection, current, and voltage of a fuel cell electric vehicle and transmit the sensor data to the hydrogen refueling station by changing the WiFi protocol. A small-scale laboratory model was built using Raspberry Pi for sensing, controlling, and transmitting sensor data of a fuel cell electric vehicle. The sensor data was stored in the database of the hydrogen refueling station, and a dashboard was configured using Grafana to analyze the stored data. When hydrogen is detected, the dispenser valve of the hydrogen refueling station is locked. Then, we measured the average transmission delay according to the WiFi protocol. The results showed that IEEE 802.11a is the most suitable WiFi protocol for transmitting sensor data between the hydrogen refueling station and the fuel cell electric vehicle.