• Title/Summary/Keyword: Hydrogen vehicle

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Accident Risk Consequences Analysis for Operating a Hydrogen Refueling Station in Urban Railway Site (도심 내 철도부지 수소충전소 운영을 위한 사고 위험 영향 분석)

  • Jae Yong Lee;Deokkyu Youn;Chul-Ho Lee;Jaeyoung Lee
    • Journal of the Korean Institute of Gas
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    • v.27 no.4
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    • pp.70-77
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    • 2023
  • In response to climate change, each country is proposing a goal to reduce greenhouse gases in its energy supply and demand plan, and the use of hydrogen gas is a topic that is always prioritized as an energy resource for implementation. A popular way to use this hydrogen gas is the use of hydrogen fuel cell vehicles, and expansion of hydrogen charging stations is essential for using these hydrogen fuel cell vehicles. However, there are several limitations to the expansion of hydrogen refueling stations, the most representative of which is resident acceptance. Most of the hydrogen charging stations currently built in Korea are located in the outskirts with low population density, so the inconvenience to hydrogen fuel cell vehicle users has not been resolved, and as a result, there has been no progress in the spread of hydrogen fuel cell vehicles. In this paper, we analyzed the consequences of accident damage to determine the risks of constructing a hydrogen charging station on a railroad site frequently used by citizens. The target hydrogen charging station site was a railroad depot in Busan, and there are trains, national highways, and commercial facilities around this site. Assuming the worst-case scenario, we would like to consider the safety of the hydrogen refueling station site by analyzing the area affected by the accident and its consequence.

Experimental Study on the NO2/NOX Ratio from Exhaust of Diesel Vehicles by Chassis Dynamometer (경유자동차에서 배출되는 NO2/NOX 비율 특성)

  • KIM, SUNMOON;KIM, JOUNGHWA;JUNG, SUNGWOON;SUNG, KIJAE;KIM, JEONGSOO;KIM, INGU
    • Journal of Hydrogen and New Energy
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    • v.28 no.2
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    • pp.220-224
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    • 2017
  • Nitrogen dioxide ($NO_2$) is an important urban pollutant in Korea. Expecially, diesel vehicles are responsible for the most traffic rated nitrogen oxide ($NO_X$) emission, including nitric oxide (NO) and nitrogen dioxide ($NO_2$). Though nitrogen oxide ($NO_X$) emission from vehicle was applied a strict enforcement of emission standard, the specific $NO_2$ fraction in $NO_X$ ($NO_2/NO_X$) from various types of diesel vehicles was not understood. In order to investigate the fraction of $NO_2/NO_X$, the vehicle emission study was carried out at the facility of Transport Pollution Research Center (TPRC), National Institute of Environmental Research (NIER), Korea. Three different types of diesel vehicles(VAN, SUV, passenger) were tested on the NIER driving mode. The result of $NO_2/NO_X$ ratio was over 0.1 for all test vehicles and the highest $NO_2$ emission was observed at the van vehicle. The observation was showed that the emission trend of $NO_2/NO_X$ for passenger and SUV vehicles were inversely proportional. Also, as the emission standard has been strengthen, the emission rate of $NO_2$ has been decrease.

Performance Characteristics of the Thermal Management System for Passenger Hydrogen Fuel Cell Vehicle (수소연료전지 자동차의 열관리시스템 성능특성에 관한 연구)

  • Lee, Ho-Seong;Won, Jong-Phil;Cho, Chung-Won;Lee, Moo-Yeon
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.13 no.3
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    • pp.986-993
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    • 2012
  • The objective of this study is to investigate performance characteristics of the thermal management system for passenger hydrogen fuel cell vehicle under various operating conditions. The thermal management systems comprised of a stack cooling system, an electric device cooling system and an air conditioning system for a passenger room were tested with driving conditions. As a result, in highway driving mode, the cooling performance of the stack cooling system with air conditioning on condition was 28.8 % lower than that of the air conditioning off condition. And cooling load of the electric cooling system in the city driving mode was 65.6% higher than that of the highway driving mode.

A Study of Battery Charging Time for Efficient Operation of Fuel Cell Hybrid Vehicle (연료전지 하이브리드 차량의 효율적인 작동을 위한 배터리 충전 시기에 대한 연구)

  • Jin, Wei;Kwon, Oh-Jung;Jo, In-Su;Hyun, Deok-Su;Cheon, Seung-Ho;Oh, Byeong-Soo
    • Journal of Hydrogen and New Energy
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    • v.20 no.1
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    • pp.38-44
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    • 2009
  • Recently, the research focused on fuel cell hybrid vehicles (FCHVs) is becoming an attractive solution due to environmental pollution generated by fossil fuel vehicles. The proper energy control strategy will result in extending the fuel cell lifetime, increasing of energy efficiency and an improvement of vehicle performance. Battery state of charge (SoC) is an important quantity and the estimation of the SoC is also the basis of the energy control strategy for hybrid electric vehicles. Estimating the battery's SoC is complicated by the fact that the SoC depends on many factors such as temperature, battery capacitance and internal resistance. In this paper, battery charging time estimated by SoC is studied by using the speed response and current response. Hybrid system is consist of a fuel cell unit and a battery in series connection. For experiment, speed response of vehicle and current response of battery were determined under different state of charge. As the results, the optimal battery charging time can be estimated. Current response time was faster than RPM response time at low speed and vice versa at high speed.

Effect of Composite Sandwich Endplates on the Improvement of Cold Start Characteristics for PEMFC (복합재료 샌드위치 엔드플레이트의 연료전지 냉시동성 향상에 미치는 효과)

  • Suh, Jung-Do;Ko, Jae-Jun;Ahn, Byung-Ki;Yu, Ha-Na;Lee, Dai-Gil
    • Journal of Hydrogen and New Energy
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    • v.22 no.6
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    • pp.859-867
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    • 2011
  • The cold start problem is one of major obstacles to overcome for the commercialization of fuel cell vehicles. However, the cold start characteristics of fuel cell systems are very complicated since various phenomena, i.e. ice-blocking, electro-chemical reactions, heat transfer, and defrosting of BOP components, are involved in them. This paper presents a framework to approach the problem at a full stack scale using Axiomatic Design (AD). It was characterized in terms of Functional Requirements (FRs) and Design Parameters (DPs) while their relations were established in a design matrix. Considering the design matrix, the endplates should have low thermal conductivity and capacity without increase in weight or decrease in structural stiffness. Consequently, composite sandwich endplates were proposed and examined both through finite element analyses and experiments simulating cold start conditions. From the examinations, it was found that the composite sandwich endplates significantly contributed to improving the cold start characteristics of PEMFC.

The Study of the Design and Control for the Hydrogen Recirculation Blower Noise and Vibration Reduction (수소 재순환 블로어 소음 진동 저감을 위한 설계 및 제어에 관한 연구)

  • Bae, Ho June;Ban, Hyeon Seok;Noh, Yong Gyu;Jang, Seok Yeong;Lee, Hyun Joon;Kim, Chi Myung;Park, Yong Sun
    • Journal of Hydrogen and New Energy
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    • v.25 no.5
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    • pp.509-515
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    • 2014
  • At the fuel processing system (FPS) of fuel cell vehicle, hydrogen recirculation blower (HRB) is used for the recirculation of remained hydrogen after reaction. In this paper, noise and vibration improvement of HRB is studied by changing design and control. It is checked the campbell diagram and critical speed for stability of rotor, and housing stiffness is improved using simulation of frequency response function (FRF). A method is suggested that can decrease the unbalance amount of the rotor and impeller which main source of noise and vibration. In order to reduce the noise during deceleration of blower, electrical braking is applied and tested the risk impact of durability. Founded the optimum switching frequency of the motor control, and reduced the idle rpm by increasing of aerodynamic performance. The superiority of paper is proved by measurement of the improved product's noise and vibration.

Start and Idle Combustion Characteristics of Hydrogen Engine for the HALE UAV (고고도 무인기용 수소 엔진의 시동성 및 공회전 연소 특성)

  • Kim, Yong-Rae;Choi, Young;Lee, Janghee
    • Journal of the Korean Institute of Gas
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    • v.19 no.6
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    • pp.22-27
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    • 2015
  • Hydrogen features highest energy density per mass and is expected to be desirable as a fuel of HALE(High altitude long endurance) UAV(Unmanned aerial vehicle). A reciprocating internal combustion engine is known to be a reliable and economic power source for this kind of UAV. Therefore, the combination of hydrogen and engine is worth of doing research. Test bench with 2.4L Spark-Ignited engine was prepared for the experiment in which start and combustion characteristics at idle condition were examined in this study. Stable hydrogen supply system and a universal ECU(Engine control unit) were also utilized for the test engine. Equivalence ratio and spark timings at idle operation were investigated and compared to the data of gasoline engine. The results will be a starting point for full-scale research of hydrogen engine for HALE UAV.

Status of the Real-time Safety Monitoring System of Hydrogen Refueling Station According to the Operation (수소충전소 실시간 이중 모니터링 시스템 운영을 통한 안전성 향상)

  • Lee, Jin-Woo;Park, Jong-Hee;Kim, Dae-Hyun;Tak, Song-Su;Yang, Byung-Jo
    • Journal of the Korean Institute of Gas
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    • v.25 no.6
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    • pp.92-97
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    • 2021
  • In accordance with the revision of the Enforcement Regulations of the High-Pressure Gas Safety Management Act in February 2021, from August 27, 2021, the operation status of safety devices such as gas leak detection and alarm devices, emergency shut-off devices and flame detectors installed at hydrogen vehicle charging stations can be monitored in real time. It is transmitted and operated by the computer system managed by Korea Gas Safety Corporations. We intend to share the results of statistical analysis of abnormal signals that have occurred along with the results of the monitoring system construction so that they can be used for the safety management of hydrogen refueling stations, and to seek future safety management directions.

Study for Zero Emission Vehicle Technology : Current Status and Recent Trends (무공해 자동차 기술의 현 상태와 발전방향)

  • Lee, Sunguk;Park, Byungjoo
    • The Journal of the Convergence on Culture Technology
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    • v.5 no.1
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    • pp.377-384
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    • 2019
  • To cope with severe global warming and environmental pollution problem regulations on automobile emissions and fuel efficiency has been tightened around the world. Therefore zero emission vehicles which do not use fossil fuels such as electric vehicles have attracted attention by government and both industry and academia at developed countries. In the market, electric vehicles are being selected from more and more consumers because of technological advances and policy support. Recently another zero emission vehicle, hydrogen fuel cell vehicle, is drawing attention and is expected to become deployed widely. This paper reviews technology, current status and global trends of zero emission vehicle. The economical analysis of zero emission vehicles are also presented.

A numerical analysis study on the flammable volume by leakage of hydrogen fuel vehicles in parking lot (지하주차장 내 수소연료차의 수소 방출시 가연체적에 관한 수치해석적 연구)

  • Lee, Ho-Hyung;Kim, Hyo-Gyu;Yoo, Ji-Oh;Kim, Doo-Young
    • Journal of Korean Tunnelling and Underground Space Association
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    • v.23 no.6
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    • pp.439-449
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    • 2021
  • The recent reduction in greenhouse gases, interest in environmental pollution such as low-carbon emission policies is increasing. Accordingly, the penetration rate of eco-friendly vehicles, including hydrogen battery vehicles capable of reducing carbon emission, is increasing, and thus it is required for disaster prevention and safety-related measures. In this study, the degree of risk for the concentration distribution of hydrogen when leaking hydrogen fuel vehicles according to ventilation conditions was analyzed through numerical analysis, limited to places in parking lots. As a result, when only one hydrogen tank was released, the combustible volume ratio of hydrogen in the underground parking lot was up to 8.6%, and as ventilation continued, the volume ratio of combustible hydrogen decreased to less than 1% after 150 seconds, indicating that mechanical ventilation is essential. In the case of simultaneous release or stage release of three hydrogen tanks, the final combustible volume ratio of hydrogen is similar, but the increase in the combustible volume ratio of hydrogen in the early stage of release is low, and further research is expected.