• Title/Summary/Keyword: Fuel-storage tank

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Development of Test Simulator for Developing Fuel Quantity Measurement System for Supersonic Jet Trainer Conformal Fuel Tank (초음속항공기 보조연료탱크 연료량측정시스템 개발용 모사시험장치 개발)

  • Kim, Bong-Gyun;Park, Dae-Jin;Jeon, Hyeon-Wu;Lee, Sangchul
    • Journal of the Korean Society for Aviation and Aeronautics
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    • v.26 no.2
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    • pp.76-82
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    • 2018
  • A test simulator is needed to develop a fuel quantity measurement system that takes into account the roll and pitch motion of the aircraft. In this paper, we develop a test simulator that consists of attitude simulation equipment, fueling equipment, and data storage equipment. The attitude simulation equipment simulates the aircraft attitude. It is manufactured to operate pitch angle and roll angle movement. The fueling equipment supplies fuel to the supplementary fuel tank. The data storage equipment collects and stores the measured data. We also develop an automation software that operates the test simulator and collects data automatically. The test simulator has been automated to prevent testers from being exposed to toxic fuel. Through automation software, the collection period is reduced by one quarter compared to manual collection. The developed fuel quantity measurement system is verified through the test simulator.

Baffled fuel-storage container: parametric study on transient dynamic characteristics

  • Lee, Sang-Young;Cho, Jin-Rae;Park, Tae-Hak;Lee, Woo-Yong
    • Structural Engineering and Mechanics
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    • v.13 no.6
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    • pp.653-670
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    • 2002
  • In order to ensure the structural dynamic stability of moving liquid-storage containers, the flow motion of interior liquid should be appropriately suppressed by means of mechanical devices such as the disc-type elastic baffle. In practice, the design of a suitable baffle requires a priori the parametric dynamic characteristics of storage containers, with respect to the design parameters of baffle, such as the installation location and inner-hole size, the baffle number, and so on. In this paper, we intend to investigate the parametric effect of the baffle parameters on the transient dynamic behavior of a cylindrical fuel-storage tank in an abrupt vertical acceleration motion. For this goal, we employ the ALE (arbitrary Lagrangian-Eulerian) kinematic description method incorporated with the finite element method.

Study on Safety Evaluation Process for Hydrogen Storage System of Hydrogen Bus (수소버스 수소저장용기의 측면충돌 안전성 평가방법 연구)

  • Kyungjin, Kim;Jaeho, Shin;Kyeonghee, Han;Hyeon Min, Han;Jeong Min, In;Siwoo, Kim
    • Journal of Auto-vehicle Safety Association
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    • v.14 no.4
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    • pp.113-119
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    • 2022
  • The structural safety of hydrogen buses is being evaluated for the successful introduction of hydrogen buses. The crash test methodology, for example, side impact test procedure is being discussed for hydrogen bus structure safety with a compressed hydrogen storage system located under the bus floor. Thus this study describes a new experiment method for side impact test with compressed hydrogen storage system independently based on finite element analysis instead of side impact test using full hydrogen bus. A side crash procedure of conceptual compressed hydrogen storage structure was investigated and impact simulations were performed. The finite element models of hydrogen bus, simplified structures, fuel tank system and side impact moving barrier were set up and simulation results reported model performance and result comparison of three different simplified models. Computational results and research discussion proposed the fundamental test framework for safety assessment of the compressed hydrogen storage system.

A Study on the Thermal Characteristics of High Pressure Hydrogen Storage Tank according to Nozzle Angle and Length/Diameter Ratio (고압수소 저장용기의 노즐 각도 및 길이/직경비에 따른 열적 특성 연구)

  • JEONG HWAN YOON;JUNYEONG KWON;KYUNG SOOK JEON;JIN SIK OH;SEUNG JUN OH
    • Journal of Hydrogen and New Energy
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    • v.34 no.5
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    • pp.431-438
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    • 2023
  • Recently, study on hydrogen is being conducted due to environmental pollution and fossil fuel depletion. High-pressure gas hydrogen commonly used is applied to vehicle and tube trailers. In particular, high-pressure hydrogen storage tank for vehicles must comply with the guidelines stipulated in SAE J2601. There is a charging temperature limitation condition for the safety of the storage tank material. In this study, numerical analysis method were verified based on previous studies and the nozzle angle was changed for thermal management to analyze the increase in forced convection effect and energy uniformity due to the promotion of circulation flow. The previously applied high-pressure hydrogen storage tank has a length/diameter ratio of about 2.4 and was analyzed by comparing the length/diameter ratio with 8. As a result, the circulation flow of hydrogen flowing into the high-pressure hydrogen storage tank is promoted at a nozzle angle of 30° than the straight nozzle and accordingly, the effect of suppressing temperature rise by energy uniformity and forced convection was confirmed.

Study on Adiabatic Performance of LNG Storage Tank for Vehicles (차량용 LNG연료용기의 단열성능에 관한 연구)

  • Han, Jeong-Ok;Lee, Young-Won
    • Journal of the Korean Institute of Gas
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    • v.12 no.1
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    • pp.31-35
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    • 2008
  • Natural gas vehicles are being applied to city buses for improving air quality in metropolitan and have proved the effective way to reduce the pollutant emissions. Liquified Natural Gas(LNG) has also attempted a vehicle fuel in order to raise the fuel storage density that is a disadvantage of Compressed Natural Gas(CNG). This paper described insulation characteristic of a LNG storage tank. From the results, adiabatic coefficient of a tested tank was around $40J/h{\cdot}^{\circ}C{\cdot}m^2$ and it was the lower level than gas safety regulation limit. Two experimental methods were adopted to justify the evaluation results and they were revealed that the results were very similar to each other. Also, through testing relief valve operation characteristic it was investigated venting amount of boiled off gas.

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Comparison of the Internal Pressure Behavior of Liquid Hydrogen Fuel Tanks Depending on the Liquid Hydrogen Filling Ratio (액체수소 충전 비율에 따른 액체수소 연료탱크의 내부 압력 거동 비교)

  • Dongkuk Choi;Sooyong Lee
    • Journal of Aerospace System Engineering
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    • v.18 no.3
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    • pp.8-16
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    • 2024
  • Because hydrogen has very low density, a different storage method is required to store the same amount of energy as fossil fuel. One way to increase the density of hydrogen is through liquefaction. However, since the liquefied temperature of hydrogen is extremely low at -252 ℃, it is easily vaporized by external heat input. When liquid hydrogen is vaporized, a self-pressurizing phenomenon occurs in which the pressure inside the hydrogen tank increases, so when designing the tank, this rising pressure must be carefully predicted. Therefore, in this paper, the internal pressure of a cryogenic liquid fuel tank was predicted according to the liquid hydrogen filling ratio. A one-dimensional thermodynamic model was applied to predict the pressure rise inside the tank. The thermodynamic model considered heat transfer, vaporization of liquid hydrogen, and fuel discharging. Finally, it was confirmed that there was a significant difference in pressure behavior and maximum rise pressure depending on the filling ratio of liquid hydrogen in the fuel tank.

Analysis of Back-to-back Refueling for Heavy Duty Hydrogen Fuel Cell Vehicles Using Hydrogen Refueling Stations Based on Cascade System (캐스케이드 시스템 기반 수소 충전소를 이용한 대형 수소 연료 전지 차량 연속 충전 분석)

  • GYU SEOK SHIM;BYUNG HEUNG PARK
    • Journal of Hydrogen and New Energy
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    • v.35 no.3
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    • pp.300-309
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    • 2024
  • Hydrogen utilization in the transportation sector, which relies on fossil fuels, can significantly reduce greenhouse gas by using to hydrogen fuel cell vehicles, and its adoption depends performance of hydrogen refueling station. The present study developed a model to simulate the back-to-back filling process of heavy duty hydrogen fuel cell vehicles at hydrogen refueling stations using a cascade method. And its quantitatively evaluated hydrogen refueling station performance by simulating various mass flow rates and storage tank capacity combinations, analyzing vehicle state of charge (SOC) of vehicles. In the cascade refueling system, the capacity of the high-pressure storage tank was found to have the greatest impact on the reduction of filling time and improvement of efficiency.

The Study on the Performance of the Fuel Cell Driven Compound Source Hybrid Heat Pump Heating and Cooling System to Large Community Building (대형 Community 건물의 연료전지 구동 복합열원 하이브리드 히트펌프 냉.난방 시스템 성능 해석)

  • Byun, Jae-Ki;Jeong, Dong-Hwa;Choi, Young-Don
    • Proceedings of the SAREK Conference
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    • 2007.11a
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    • pp.82-87
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    • 2007
  • In the present study, the simulation on the annual performance evaluation of a renewable energy systems with fuel cell driven compound source hybrid heat pump systems is applied to the heating and cooling of large community building. The large community building has the economical advantage to apply heat pump cooling and heating systems the long period operation. If air and ground source hybrid heat pump systems are combined, COP of the system can be increased largely. Fuel cell driven compound source hybrid heat pump system can reduced the fuel cost as well as thermal storage tank sharply.

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Experimental and Numerical Study on the Hydrogen Refueling Process (고압 수소 충전 시스템에 대한 실험 및 수치해석)

  • Lee, Taeck-Hong;Kim, Myoung-Jin;Park, Jong-Kee
    • Journal of Hydrogen and New Energy
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    • v.18 no.3
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    • pp.342-347
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    • 2007
  • The research on production and application of hydrogen as an alternative energy in the future is being carried out actively. It hydrogen storage is necessary in order that user use hydrogen economically without much difficulty. Among the ways of hydrogen storage the method which is compressed hydrogen gas by high pressure is easier for application than other methods. In this study, we have been calculated gas with changing pressure and temperature variation of container wall through applied to mass and energy balance equation when compressing hydrogen by high pressure, and also to Beattie-Bridgeman equation of state for the kinetic of hydrogen. We will apply above date as a preliminary for design of hydrogen storage tank.

A Study of Mechanical Characteristics at Room/Cryogenic Temperature of Powder Insulation Materials Applied to Type C Fuel Tank (Type C 연료탱크에 적용되는 분말형 단열 소재의 상온/극저온 기계적 특성에 관한 연구)

  • Kim, Tae-Wook;Oh, Jae-Won;Seo, Young-Kyun;Han, Seong-Jong;Lee, Jae-Myung
    • Journal of the Korean Society of Industry Convergence
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    • v.24 no.6_2
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    • pp.787-793
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    • 2021
  • The global demand for Liquefied Natural Gas(LNG) continues to increase and is facing a big cycle. To keep pace with the increase in international demand for LNG, the demand for LNG fueled ships is also increasing. Since LNG fuel tanks are operated in a cryogenic environment, insulation technology is very important, and although there are various types of insulation applied to Type C tanks, multi-layer insulation and vacuum insulation are typically applied. Powder insulation materials are widely used for storage and transportation of cryogenic liquids in tanks with such a complex insulation structure. In this study, compression tests at room and cryogenic temperature were performed on closed perlite, glass bubble, and fumed silica, which are representative powder insulation material candidates. Finally, the applicability to the Type C fuel tank was reviewed by analyzing the experimental results of this study.