• Title/Summary/Keyword: Hydrogen Damage

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Assessment of Materials Degradation in a Hydrogen Environment (수소환경에서의 재료 열화도 평가)

  • Won, Sun-Ho;Hyeon, Yang-Gi;Lee, Jong-O;Lee, Jae-Do;Jo, Gyeong-Sik
    • 연구논문집
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    • s.31
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    • pp.149-156
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    • 2001
  • Hydrogen damage affects carbon steel tubes in many fossil-fuel-fired boilers, often causing large tube ruptures that necessitate an immediate shutdown. Therefore, equipment handling high-temperature, high-pressure hydrogen must undergo careful periodic inspection because of its susceptibility to hydrogen attack. This paper describes the application of an ultrasonic technique for detecting the presence of hydrogen damage in utility boiler tubes. The accuracy of the technique has been shown in laboratory tests. However, it is difficult to evaluate hydrogen attack quantitatively by this technique, because ultrasonic wave is influenced by the test conditions and the material itself.

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Consequence Analysis on the Leakage Accident of Hydrogen Fuel in a Combined Cycle Power Plant: Based on the Effect of Regional Environmental Features (복합화력발전소 내 수소연료 적용 시 누출 사고에 대한 피해영향범위 분석: 지역별 환경 특성 영향에 기반하여)

  • HEEKYUNG PARK;MINCHUL LEE
    • Journal of Hydrogen and New Energy
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    • v.34 no.6
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    • pp.698-711
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    • 2023
  • Consequence analysis using an ALOHA program is conducted to calculate the accidental impact ranges in the cases of hydrogen leakage, explosion, and jet fire in a hydrogen fueled combined cycle power plant. To evaluate the effect of weather conditions and topographic features on the damage range, ALOHA is executed for the power plants located in the inland and coastal regions. The damage range of hydrogen leaked in coastal areas is wider than that of inland areas in all risk factors. The obtained results are expected to be used when designing safety system and establishing safety plans.

Prediction of Damage Area due to Explosion of LNG-Hydrogen Mixed Gas (도시가스-수소 혼합가스의 누출사고 영향범위 분석)

  • Chan-sik, Yoon;Jin-du, Yang;Gil-soo, Na;Sung-Hyun, Im;Ki-young, Kim;Eun-ki, Choi
    • Explosives and Blasting
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    • v.40 no.4
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    • pp.27-34
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    • 2022
  • The government is promoting various policies to reduce greenhouse gas emissions for carbon neutrality, one of the key tasks is to revitalize the hydrogen economy. As one of these policies the government has formulated a plan to incorporate hydrogen into existing city gas pipes, and aims to commercialize 20% hydrogen mixing by 2026. In preparation for the commercialization of city gas and hydrogen mixture, this study quantitatively predicts the scale of damage and the range of impact in the event of leakage of these two gas mixtures. The quantitative damage prediction method is to calculate the damage conversion distance through the calculation of the TNT equivalent by setting the leakage amount of the gas mixture in the event of an accident under a virtual scenario.

Damage Visualization of Filament Wound Composite Hydrogen Fuel Tank Using Ultrasonic Propagation Imager (초음파전파영상화 시스템을 이용한 필라멘트 와인딩 복합재 수소 연료 탱크의 손상 가시화)

  • Lee, Jung-Ryul;Jeong, Hyomi;Chung, Truong Thanh;Shin, Hejin;Park, Jaeyoon
    • Composites Research
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    • v.28 no.4
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    • pp.143-147
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    • 2015
  • This paper proposes laser ultrasonic technique for the impact damage inspection of hydrogen fuel tank and proves that the impact damage can be visualized using an ultrasonic wave propagation imager with an easy detachable sensor head as an impact damage inspection tool for hydrogen fuel tanks. Also the performances of the proposed ultrasonic propagation imager support it can be implemented in real-world technology when the hydrogen car becomes popular.

A Study on Safety Improvement for Packaged Hydrogen Refueling Station by Risk Assessment (위험성 평가를 통한 패키지형 수소충전소 안전성 향상에 관한 연구)

  • KANG, SEUNGKYU;HUH, YUNSIL;MOON, JONGSAM
    • Journal of Hydrogen and New Energy
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    • v.28 no.6
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    • pp.635-641
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    • 2017
  • In this study, the components of packaged hydrogen filling station were analyzed and risk factors were examined. Risk scenarios were constructed and quantitative risk assessments were conducted through a general risk assessment program (phast/safeti 7.2). Through the risk assessment, the range of damage according to accident scenarios and the ranking that affects the damage according to the risk factors are listed, and scope of damage and countermeasures for risk reduction are provided. The quantitative risk assessment result of the packaged hydrogen filling station through this task will be used as the basic data for improving the safety of the packaged filling system and preparing safety standards.

A Study on Hydrogen Energy Safety according to the Revitalization of the Hydrogen Economy (수소경제 활성화에 따른 수소에너지 안전성 고찰)

  • Park, Woo-Il;Tak, Song-Su;Lee, In-Woo;Hong, Soon-Pa
    • Journal of the Korean Institute of Gas
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    • v.25 no.6
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    • pp.74-79
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    • 2021
  • This study analyzed the current status of the global hydrogen economy and the safety of energy sources currently in use due to the activation of the hydrogen economy. Understanding the hydrogen economy, identifying government policy trends, comparing and analyzing characteristics with existing energy sources such as gasoline, propane, and methane, and evaluating damage impact for each energy source using PHAST, a quantitative damage impact assessment program. Using the analysis results, this study analyzes the safety of hydrogen energy to revitalize the hydrogen economy and suggests ways to improve safety.

A Study on the Evaluations of Damage Impact due to VCE in Liquid Hydrogen Charging Station (액화수소 충전스테이션에서 VCE로 인한 피해영향평가에 관한 연구)

  • Lee, Suji;Chon, Young Woo;Lee, Ik Mo;Hwang, Yong Woo
    • Journal of the Korean Institute of Gas
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    • v.21 no.5
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    • pp.56-63
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    • 2017
  • Hydrogen charging station was invested and supported around the world. In this study, the extent of damage caused by VCE in the charging station handling liquefied hydrogen was calculated, and the human and material damage was estimated through the Probit model. In addition The optimal height of vent stack for low temperature hydrogen was set. The damage range is 8.24m in small scale, 14.10m in medium scale, and 22.38m in large scale based on interest overpressure 6.9kPa. In case of death due to pulmonary hemorrhage, 50m of the small and medium scale and 100m of the large scale were injured. Structural damage was 200m in small scale, 300m in medium scale and 500m in large scale. The optimum height of the vent stack is 4.7 m in small scale, 8.8 m in medium scale and 16.9 m in large scale.

Effect of Ignition Location on a Vented Deflagration of Hydrogen-air Mixtures in Semi-confined Space (반밀폐공간 내 점화원의 위치가 수소-공기 혼합물 벤트폭연에 미치는 영향)

  • UNGGI YOON;BYOUNGJIK PARK;INJU HWANG;WOOKYUNG KIM;YANGKYUNG KIM
    • Journal of Hydrogen and New Energy
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    • v.35 no.4
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    • pp.415-427
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    • 2024
  • Explosion experiments were conducted using a rectangular concrete structure filled with hydrogen-air mixture (29.0%). In addition, the effect of ignition location on explosion was investigated. The impact on overpressure and flame was increased with the increasing distance of the ignition source from the vent. Importantly, depending on the ignition location the incident pressure was up to 24.4 times higher, while the reflected pressure was 8.7 times higher. Additionally, a maximum external overpressure of 30.01 kPa was measured at a distance of 2.4 m from the vent, predicting damage to humans at the injury level (1% fatality probability). Whereas, no significant damage would occur at a distance of 7.4 m or more from the vent.

Effect of Kimchi Ingredients to Reactive Oxygen Species in Skin Cell Cytotoxicity (김치 주.부재료의 활성산소에 대한 피부 세포독성 완화효과)

  • 문갑순;류승희;전영수;문정원;이영순
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.26 no.6
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    • pp.998-1005
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    • 1997
  • Kimchi showed protective effect from oxidative damage generated by hydrogen peroxide and paraquat. To investigate the major components of kimchi which reduce the cytotoxicity against reactive oxygen species, keratinocyte(A431, epidermoid carcinoma, human) and fibroblast(CCD-986SK, normal control, human) were cultured under oxidative stress condition provoked by paraquat, a superoxide anion generator, and hydrogen peroxide in the absence or presence of kimchi ingredients. Most keratinocyte and fibroblast cells were killed by hydrogen peroxide and paraquat over 1mM concentration, but kimchi ingredients showed protective effects from oxidative damage generated by hydrogen peroxide and onion, among those, garlic showed the most remarkable preventive effect. Most of kimchi ingredients showed protective effect against paraquat, especially leek notably increased cell survival. For fibroblast cells, ginger had the preventive effect against paraquat, especially leek notably increased cell survival. For fibroblast cells, ginger had the preventive effect from cell killing by high dose of hydrogen peroxide, but most ingredients were not effective against paraquat.

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A Study on the Analysis of the Leakage Characteristics and the Selection of Leakage Scenarios of the Blending Hydrogen into Natural Gas Pipeline (수소혼입 천연가스 배관망의 누출 특성 분석 및 누출 시나리오 선정에 관한 연구)

  • Song Su Tak;Ki Seop Lim
    • Journal of the Korean Society of Safety
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    • v.39 no.1
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    • pp.27-32
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    • 2024
  • This study analyzed cases of hydrogen (H2) and natural gas (CH4) leakage from a hydrogen-blended natural gas pipeline to determine a range of leakage characteristics, including leakage type, pipe material, pipe diameter, pressure, and damage size. Based on the results of this analysis, five hydrogen-blended natural gas leakage scenarios were selected. The national vision for a carbon-neutral society by 2050 is a very important strategic objective and promotes environmentally sustainable economic development in the age of the climate crisis. Accordingly, zero-carbon and low-carbon policies are being promoted in various fields, including energy production, consumption, and industrial processes. Hydrogen-blended natural gas is eco-friendly and is considered an important step towards carbon neutrality, with various countries including the United States and several European countries conducting empirical research to further investigate its potential. In Korea, a national research project commenced in April 2023 to verify and demonstrate the life cycle safety of blending hydrogen into the natural gas network. The results of this study will provide important data for the analysis of the damage impacts caused by the leakage of hydrogen-blended natural gas, such as the diffusion of gas clouds, fires, and gas explosions.