• Title/Summary/Keyword: gas generator

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Effect of Propellant-Supply Pressure on Liquid Rocket Engine Performance (추진제 공급압력이 액체로켓엔진의 성능에 미치는 영향)

  • Cho, Won-Kook;Park, Soon-Young;Nam, Chang-Ho;Kim, Chul-Woong
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.34 no.4
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    • pp.443-448
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    • 2010
  • In this paper, the changes in performance parameters, e.g., the combustor pressure, turbine power, engine mixture ratio, temperature of gas generator, and product gas, of a liquid rocket engine employing gas generator cycle with the variations in propellant-supply pressure have been described. Engine performance is numerically calculated using the 13 major system-level variables of the rocket engine. The combustor pressure and turbine power increase with an increase in the oxidizer-supply pressure and decrease with an increase in fuel-supply pressure. The lower mixture ratio of gas generator for increased fuel mass flow rate decreases the gas generator gas temperature and deteriorates the gas material properties as the turbine working fluid. The turbine power decreases with an increase in fuel-supply pressure; this results in a decrease in the main-combustor pressure, which is directly proportional to engine thrust.

Rocket Engine Test Facility Improvement for Hot Firing Test of 75 ton-f Class Gas Generator and Cold Flow Test (75톤급 가스발생기 연소시험을 위한 시험장 개선 및 수류시험)

  • Kang, Dong-Hyuk;Lim, Byoung-Jik;Ahn, Kyu-Bok;Seo, Seong-Hyeon;Han, Yeoung-Min;Choi, Hwan-Seok
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2009.11a
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    • pp.29-33
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    • 2009
  • On the basis of the development experience of a gas generator for the 30 ton-f thrust liquid rocket engine combustor a Subscale Ground Firing Test Facility was designed and fabricated for a gas generator for the 75 ton-f thrust liquid rocket engine combustor. The Subscale Ground Firing Test Facility developed is going to be used to develop 75 ton-f class gas generator. Acquired data and test technique from this facility will be used to develope the high performance liquid rocket engine combustor and the Ground Firing Test Facility. This report describes the improved Subscale Ground Firing Test Facility for 75 ton-f class gas generator and results of the cold flow test.

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Research on the Ejection Gas Generator to Improve Ejecting Performance (사출성능 개선을 위한 사출용 가스발생기 연구)

  • Oh, Seok-Jin;Jang, Seung-Gyo;Cha, Hong-Seok
    • Journal of the Korean Society for Aeronautical & Space Sciences
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    • v.41 no.5
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    • pp.383-390
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    • 2013
  • The reduction of the maximum acceleration which causes shock for a missile is very important to prevent abnormal operation of a missile and decrease size and cost of missile components. Because the maximum acceleration created by operation of an ejection gas generator occurs in the initial ejection stage, the design parameters which affect initial ejection stage were examined. The igniter and the nozzle closure were selected as design parameters of a gas generator. The maximum acceleration created by the gas generator was examined experimentally by changing of the design parameters. Finally the reduction effect of the maximum acceleration was compared quantitatively by static fire test of a gas generator. The maximum acceleration of the best model which was applied to each optimal design parameter was about 68% reduced than that of the reference model.

Applicability to Gas Engine and Small Sized Generator of Low Caloric Synthetic Gas Fuel from Coal Gasification (저발열량 석탄가스화연료의 가스엔진 및 소형발전기 적용연구)

  • Kim Tae-Kwon;Kim Sung-Roon;Jang Jun-Young
    • Journal of the Korean Institute of Gas
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    • v.10 no.3 s.32
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    • pp.1-6
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    • 2006
  • This paper presents the applicability of low caloric synthetic gas from coal gasification to a gas engine system and small sized generator. A commercial LPG engine is modified to use the low caloric synthetic gas from coal gasification as the gas engine fuel. The modification is focused on the fuel supplying system, which includes air flowrate adjusting orifice, gas mixer, vaporizer, preheater, regulators, and fuel tank. From the results of engine performance data, we have demonstrated that the engine modified by using the coal gasification gas is well operated from idle to wide open throttle conditions although the engine power is somewhat reduced relative to LPG fueled engine. And we have also demonstrated that the generator is well operated with various loads.

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A study on the channel design of bipolar plate of electrolytic cell by flow dynamic simulation in the two phase flow system (2상 흐름계에서 유로설계에 따른 전해조 분리판의 전산모사 연구)

  • Jo, Hyeon-Hak;Jang, Bong-Jae;Song, Ju-Yeong
    • Journal of the Korean Applied Science and Technology
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    • v.27 no.4
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    • pp.415-420
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    • 2010
  • This study is focused on the channel design of bipolar plate in the electrode of hydrogen gas generator. The characteristics of hydrogen gas generation was studied in view of efficiency of hydrogen gas generation rate and a tendency of gas flow through the riv design of electrode. Since the flow rate and flow pattern of generated gas in the two phase flow system are the most crucial in determining the efficiency of hydrogen gas generator, we adopted the commercial analytical program of COMSOL MultiphysicsTM to calculate the theoretical flow rate of hydrogen gas from the outlet of gas generator and flow pattern of two phase fluid in the electrode. In this study, liquid electrolyte flows into the bipolar plate and decomposed into gas phase, two phase flow simulation is applied to measure the efficiency of hydrogen gas generation.

Healthy Assessment of Generator Stator Cores using EL-CID (ELectromagnetic Core Imperfection Detector) (EL-CID를 이용한 발전기 고정자 철심의 건전성 평가)

  • Kim, Byeong-Rae;Kim, Hee-Dong
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.58 no.2
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    • pp.356-362
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    • 2009
  • The ELectromagnetic Core Imperfection Detector (EL-CID) test was performed on a small generator in the laboratory and a gas turbine generator in the field to assess the fault condition of generator stator core. Artificial defects with six different sizes were introduced in the small generator. The scan results on six defects show a very large increase in the magnitude of fault current compared to that obtained with a healthy core. After the stator core heats up, a thermal imaging camera was used to detect hot spot on the inner surface of the core for comparison. Several faults were found during inspection of the gas turbine generator with the EL-CID. It has been shown that the existence of a fault can be determined by monitoring the magnitude of fault current.

충돌형 가스발생기 탈설계점 연소시험

  • Kim, Seung-Han;Han, Yeung-Min;Seo, Seong-Hyeon;Moon, Il-Yoon;Lee, Kwang-Jin;Kim, Jong-Kyu;Seol, Woo-Seok
    • Aerospace Engineering and Technology
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    • v.3 no.2
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    • pp.81-90
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    • 2004
  • This paper describes the results of combustion performance test of fuel-rich gas generator(GG) using LOx and kerosene as propellant at off-design conditions. The chamber pressure is thought to be a function of O/F ratio and total propellant mass flow rate. The test shows that the spatial temperature deviation at the exit of gas generator remains within 7.5K and that the average gas temperature at the exit is a function of propellant O/F ratio. The results of firing test of gas generator at off-design conditions, especially the relation between gas temperature and O/F ratio, can provide useful data for the design of future gas generator and for the development of low-O/F ratio reaction analysis code.

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A Study on the Generating Efficiency and NOx Emissions of a 30kW Gas Engine Generator with Hydrogen Addition (수소 첨가에 따른 30kW급 가스엔진 발전기의 발전효율 및 질소산화물 배출량 특성 연구)

  • Cha, Hyo-Seok;Kim, Tae-Soo;Eom, Tae-Jun;Chun, Kwang-Min;Song, Soon-Ho
    • Journal of Hydrogen and New Energy
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    • v.22 no.3
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    • pp.313-318
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    • 2011
  • This study is about characteristics of generating efficiency and $NO_x$ emissions of a 30 kW gas engine generator in case of using model biogas with hydrogen addition. In this case, both generating efficiency and $NO_x$ emissions are lower than the case of using urban gas (LNG). However, generating efficiency and $NO_x$ emissions are higher than the case of using model biogas only. It means that adding hydrogen which has a high flame propagation velocity has the possibility to improve the generating efficiency, but simultaneously it is also able to increase the $NO_x$ emissions of a gas engine generator.

Combustion Characteristics of High Pressure Gas Generator for Liquid Rocket Engine (액체로켓엔진용 가스발생기의 고압연소특성)

  • Han Yeoung-Min;Lee Kwang-Jin;Moon Il-Yoon;Seo Seong-Hyeon;Choi Hwan-Seok;Lee Soo-Yong
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2005.11a
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    • pp.341-345
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    • 2005
  • This paper is for the combustion characteristics of gas generator which drive 1.5MW-class turbo pump and runs in fuel-rich combustion regime with LOx/kerosene as propellant. The outline of development procedure of real scale high pressure gas generator is introduced and the relation between O/F ratio and outlet temperature and the molecular weight and specific heat ratio of combustion gas are described. The relation between O/F ratio and temperature is newly obtained at higher pressure and the molecular weight and specific heat ratio is modified and their validity is confirmed by the mass relation equation.

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Evaluation of Specific Impulse for Liquid Rocket Engine Adopting Gas Generator Cycle (가스발생기 사이클 액체로켓엔진의 비추력 평가)

  • Cho, Won-Kook;Seol, Woo-Seok
    • Aerospace Engineering and Technology
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    • v.9 no.1
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    • pp.93-97
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    • 2010
  • The analysis of specific impulse of the liquid rocket engine employing gas generator cycle with LOx/kerosene as propellant has been performed. The relative error of performance of 300 ton level engine is 0.1%s for specific impulse and 12% for optimal combustion pressure comparing with the published data. The difference of the performance model and the material property models of gas generator product gas are the presumed major reason of discrepancy. The optimal condition of 30 ton level engine is combustion pressure of 68 bar and mixture ratio of 2.2 for maximum specific impulse. This optimal condition can be changed by performance models.