• Title/Summary/Keyword: Gas fueling

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Study on the Optimum Capacity Analysis for Hydrogen Fueling Station in Korea (국내 수소충전소의 적정 용량 분석)

  • HAN, JA-RYOUNG;PARK, JINMO;LEE, YOUNG CHUL;KIM, SANG MIN;JEON, SO HYUN;KIM, HYOUNG SIK
    • Journal of Hydrogen and New Energy
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    • v.28 no.6
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    • pp.649-656
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    • 2017
  • At present, hydrogen is emerging as a future energy source based on environment-friendly aspect, creation of new industry, and enhancement of domestic energy security. In accordance with it, the world's leading automobile companies are focusing on the development and commercialization of hydrogen electric vehicle technology, and each country is strengthening its hydrogen fueling station deployment strategy for its own country. Furthermore, the supply of hydrogen fueling stations is actively promoting under national support. More than 500 hydrogen fueling stations are being constructed, operated and planned around the world. The introduction of hydrogen energy is also progressing in Korea, by announcing road-map to supply hydrogen electric vehicles and hydrogen fueling stations by year. However, there is insufficient discussion on the capacity of hydrogen fueling station in Korea. Therefore, this study suggests the optimum capacity of hydrogen fuelling station for domestic hydrogen economy.

Analysis of Damage Range and Impact of On-Site Hydrogen Fueling Station Using Quantitative Risk Assessment Program (Hy-KoRAM) (정량적 위험성평가 프로그램(Hy-KoRAM)을 이용한 제조식 수소충전소 피해범위 및 영향 분석)

  • KIM, HYELIM;KANG, SEUNGKYU
    • Journal of Hydrogen and New Energy
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    • v.31 no.5
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    • pp.459-466
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    • 2020
  • As the hydrogen industry grows, expansion of infrastructure for hydrogen supply is required, but the safety of hydrogen facilities is concerned due to the recent accidents at the Gangneung hydrogen tank and the Norwegian hydrogen fueling station. In this study, the damage range and impact analysis on the on-site hydrogen fueling station was conducted using Hy-KoRAM. This is a domestically developed program that adds functions based on HyRAM. Through this risk assessment, it was evaluated whether the on-site hydrogen fueling station meets international standards and suggested ways to improve safety.

Gas Flow Pattern Through a Long Round Tube of a Gas Fueling System (II) (기체연료주입계의 긴 원형도관에서 기체 흐름의 유형 (2))

  • In, S.R.
    • Journal of the Korean Vacuum Society
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    • v.15 no.6
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    • pp.594-604
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    • 2006
  • Gas fueling systems operated in the mode of a fixed valve opening at a constant line pressure, and the mode of a constant inlet flow are simulated to establish the relationships between the gas flow pattern and the tube dimensions under various system conditions.

Gas flow pattern through a long round tube of a gas fueling system (I) (기체연료주입계의 긴 원형도관에서 기체 흐름의 유형)

  • IN, S.R.
    • Journal of the Korean Vacuum Society
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    • v.15 no.5
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    • pp.465-474
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    • 2006
  • A gas fueling system composed of a gas reservoir, an on-off valve, and a gas transferring tube, which is the simplest construction for the pre-programmed gas puffing, was simulated by numerically solving the time-dependent one-dimensional gas flow equation. The purpose of the simulation is to establish the relationship between the gas flow pattern (the elapsed time to the maximum flow, the maximum flow rate, the gas pulse duration) and the system parameters (the filling pressure and the volume of the gas reservoir, and the length and the diameter of the gas transferring tube).

The KSTAR Vacuum Pumping and Fueling System Upgrade

  • Lim, J.Y.;Chung, K.H.;Cho, S.Y.;Lee, S.K.;Shin, Y.H.;Hong, S.S.
    • Proceedings of the Korean Vacuum Society Conference
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    • 1999.07a
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    • pp.39-39
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    • 1999
  • The KSTAR (Korea Superconducting Tokamak Advanced Research) tokamak is a nuclear fusion experimental device for a long pulse/steady-state plasma operation, adopting fully superconducting magnets. In accordance with completion of the basic design of the torus vacuum vessel and the enclosing cryostat, the vacuum pumping and gas fueling basic design has been developed to fulfil the physics requirements. The ultra-high vacuum pumping and sophisticated gas fueling system of the machine is essential to achieve such roles for optimized plasma performance and operation. Recently the vacuum exhaust system using dedicated pumping ports for the vacuum vessel and cryostat has been modified to meet more reliable and successful performance of the KSTAR[Fig. 1].In order to achieve the required base pressure of 5 x 10-9 torr, the total impurity load to the vessel internal is limited to ~5 x 10-5 torr-1/x, while the cryostat base pressure is kept as ~5 x 105 torr to mitigate the thermal load applied to the superconducting magnets. Each KSTAR fueling system will be separately capable of fueling gas at a rate of 50 torr-1/x, consistent with the given pumping throughput. In order to initiate a plasma discharge in KSTAR, the vacuum vessel is filled to a gas pressure of few 10-6 to few 10-4 torr, and additional gas injection is required to maintain and increase the plasma density during the course of the discharge period.

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Simulation on the gas fueling for the base operation of the KSTAR tokamak (KSTAR 토카막 기본운전을 위한 연료주입 모의실험)

  • In, S.R.;Kim, T.S.;Jeong, S.H.
    • Journal of the Korean Vacuum Society
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    • v.16 no.6
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    • pp.489-495
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    • 2007
  • The assembly of the main system of the KSTAR tokamak has been recently completed, and the preparation for the 1st plasma and test operations is progressed. The fueling system established for these purposes uses only one port placed at the opposite side of the pumping duct, and has a difficulty of attaining a uniform and fast supply of fuel particles to the plasma. At the base operation stage after finishing the test operation, the fueling system must be improved to provide a uniform fueling and a feed-back control in accordance with a high-density tokamak plasma maintained for a long period. As a part for understanding the points to be improved in the fueling system, a Monte Carlo simulation on the gas fueling into the tokamak plasma has been executed. After modeling the vacuum vessel and the plasma of quasi-D shapes as tori of rectangular cross-sections, the influences of the position and the number of the fueling inputs on the particle density distribution for a given pumping probability and mean free path were investigated.

An Analysis of the Effect of Pressure Ramp Rate on the Major Parameters of the Standard Hydrogen Fueling Protocol (수소충전 시 압력상승률이 표준충전프로토콜 중요변수에 미치는 영향 해석)

  • Chae, Chungkeun;Kim, Yonggyu;Chae, Seungbeen
    • Journal of the Korean Institute of Gas
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    • v.24 no.1
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    • pp.23-32
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    • 2020
  • It is not easy to fully fuel high pressure(70 MPa) hydrogen in a hydrogen vehicle tank quickly. This is because the temperature inside the tank rises rapidly due to heat caused by the Joule-Thomson effect, etc. So fueling protocols such as SAE J2601 in the U.S. and JPEC-S 0003 in Japan appeared. However, there is a problem with these protocols that a number assumption are introduced and the content is too complex and limited in scope. This study was conducted to develop a new protocol based on complete real-time communication. In this study, the hydrogen fueling simulation program were used to examine how the pressure ramp rate affects the temperature and pressure rise in the tank and the fueling flow rate. The results confirmed that the first parameter to be considered in determining the pressure ramp rate is the temperature of the tank.

Exergy Analysis and Optimization of Chiller System in Hydrogen Fueling Station Using R290 Refrigerant (R290 냉매를 이용한 수소 충전소 냉각시스템 엑서지 분석 및 공정 최적화)

  • HYEON, SOOBIN;CHOI, JUNGHO
    • Journal of Hydrogen and New Energy
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    • v.32 no.5
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    • pp.356-364
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    • 2021
  • During the hydrogen fueling process, hydrogen temperature inside the compressed tank were limited below 85℃ due to the allowable pressure of tank material. The chiller system to cool compressed hydrogen used R407C, greenhouse gas with a high global warming potential (GWP), as a refrigerant. To reduce greehouse gas emission, it should be replaced by refrigerant with a low GWP. This study proposes a chiller system for fueling hydrogen with R290, consisted in propane, by applying the C3 pre-cooled system use d in the LNG liquefaction process. The proposed system consisted of hydrogen compression and cooling sections and optimized the operating pressure through exergy analysis. It was also compared to the exergy efficiency with the existing system at the optimal operating pressure. The result showed that the optimal operating pressure is 700 kPa in 2-stage, 840 kPa/490 kPa in 3-stage, and the exergy efficiency increased by 17%.

A Development of Simulation Program for CNG Refueling Station (CNG 충전시스템 충전특성해석 프로그램 개발)

  • Yang, Pan-Seok;Kang, Chan-Goo;Kwan, Yong-Ho
    • Proceedings of the KSME Conference
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    • 2001.06d
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    • pp.331-336
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    • 2001
  • Theoretical approach was taken to the whole CNG refueling process. In particular, this study was focused on the prediction of flow rate at any given piping configuration of CNG system, in order that a simulation program for the CNG refueling system should be developed. The simulation result of refueling process was compared with experimental result obtained from various kinds of fueling configuration. The simulation results showed a satisfactory agreement within 10% errors in fueling time, fueling amount, and residual pressure. The developed program would be used a good engineering tools for estimating fueling performance for a any given CNG station.

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A Study on Safety Impact Assessment of a Multiple Hydrogen Refueling Station (다차종 동시 충전을 위한 수소 스테이션의 안전 영향 평가 연구)

  • Boo-Seung Kim;Kyu-Jin Han;Seung-Taek Hong;Youngbo Choi
    • Journal of the Korean Institute of Gas
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    • v.28 no.1
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    • pp.85-99
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    • 2024
  • As the proliferation of hydrogen electric vehicles accelerates, there is observed diversification in hydrogen refueling station models. This diversification raises safety concerns for different types of stations. This study conducted a quantitative risk assessment of a multi-vehicle hydrogen station, capable of simultaneously refueling cars, buses, and trucks. Utilizing Gexcon's Effects&Riskcurves Software, scenarios of fire and explosion due to hydrogen leaks were assessed. The study calculated the impact distances from radiative heat and explosion overpressure, and measured risks to nearby buildings and populations. The largest impact distance was from fires and explosions at dispensers and high-pressure storage units. High-pressure storage contributes most significantly to personal and societal risk. The study suggests that conservative safety distances and proper protective measures for these facilities can minimize human and material damage in the event of a hydrogen leak.