• Title/Summary/Keyword: Velocity-compounded

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Design of Velocity and Pressure Compounded Impulse Turbine (속도 및 압력 복합형 충동 터빈 설계)

  • Jeong, Eun-Hwan;Park, Pyun-Goo;Kim, Jin-Han
    • Aerospace Engineering and Technology
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    • v.9 no.2
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    • pp.185-192
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    • 2010
  • Design of velocity-compounded turbine for 75ton class LRE turbopump application and pressure compounded turbine for 30ton class LRE turbopump has been performed. 1D calculation and CFD analysis were conducted in determining blade and flow passage shape of velocity compounded turbine iteratively. Finally, 23.1% improved specific power and 5% reduced weight turbine to the original design was developed. In case of pressure-compounded supersonic turbine design, rotational speed was increased by 50% and the effect of carryover ratio, 2nd nozzle installation angle, leakage flow of 2nd nozzle, and work sharing factor was studied. Final 1D design resulted 36% increased specific power and 51% reduced weight comparing to the original single-row impulse turbine. It is anticipated that nozzle flow path design will be very important for the accomplishment of expected performance of pressure-compounded turbine and nozzle shape optimization will be conducted through the CFD analysis.

Development of the Velocity Compounded Impulse Turbine for the 75ton Liquid Rocket Engine Application (75톤급 액체로켓엔진 터보펌프용 속도복식 터빈개발)

  • Jeong, Eunh-Wan;Park, Pyun-Goo;Lee, Hang-Gi;Kim, Jin-Han
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2011.04a
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    • pp.7-11
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    • 2011
  • A velocity-compounded(VC) turbine for the 75ton turbopump was developed as an improved performance backup for the single-rotor baseline turbine. Curvic coupling was adopted for the power transmission between the rotors and shaft. High temperature torsion test and spin test was performed for the curvic coupling design validation. Aerodynamic performance test revealed that VC turbine can generate 20.5% higher specific power than the baseline turbine.

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Development of a Velocity Compounded Impulse Turbine for the 75ton Liquid Rocket Engine Application (75톤급 액체로켓엔진 터보펌프용 속도복식 터빈개발)

  • Jeong, Eun-Hwan;Lee, Hang-Gi;Park, Pyun-Goo;Kim, Jin-Han
    • Journal of the Korean Society of Propulsion Engineers
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    • v.15 no.3
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    • pp.40-46
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    • 2011
  • A velocity-compounded(VC) turbine of the 75ton turbopump was developed as an improved performance backup for a single-rotor base-line turbine. Curvic coupling was used for the connection between rotors and shaft. High temperature torsion test and spin test was performed for the curvic coupling design validation. Aerodynamic performance test revealed that the developed VC turbine can generate 20.5% higher specific power than the base-line turbine. It has been measured that $1^{st}$ rotor of the subject turbine generates 74.1% of total power at design operating condition.

INFLUENCES OF SOIL-WATER PROPERTIES ON GROWTH OF MEDICINAL PLANT "KANZO" UNDER CONSTANT GROUNDWATER LEVEL

  • Kiyotomo, Haruka;Yasufuku, Noriyuki;Omine, Kiyoshi;Kobayashi, Taizo;Furukawa, Zentaro
    • Proceedings of the Korean Geotechical Society Conference
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    • 2010.09c
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    • pp.81-85
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    • 2010
  • The medicinal plant, Kanzo (Glycyrrhiza uralensis), mainly grows on arid lands. The root of Kanzo has been compounded about 70% of herbal medicines in Japan because it has an important medicinal element. In addition, in recent years, the expansion of desertification becomes a serious problem. The cause is chiefly man activity such as over gathering plants1). The aim of this study is to prevent desertification by cultivating Kanzo with high quality. The first step is to grow Kanzo for greening. The second step is to stably produce the root with high medicinal quality. This paper presents growth properties of cultivating Kanzo by bottom watering method, which is under constant groundwater level. The main results of this paper are as follows: (1) The lower water content of cultivating soil is, the longer the root length is, (2) Growth of Kanzo is influenced by soil types, (3) Thick primary roots grow directly and vertically in low water content. On the other hand, thin secondary roots grow curvedly and horizontally in high water content and (4) Measuring evapo-transpiration velocity is the effective method to evaluate roots' growth tendency in the field.

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