• Title/Summary/Keyword: Chamber Wail

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Influence of Propellant Mixture ]Ratio Variation near Chamber Wall (액체로켓엔진의 내부 벽면 근처에서의 추진제 혼합비 변화의 영향에 대한 연구)

  • Han Poong-Gyoo;Chang Haeng-Soo;Cho Yong-Ho;Kim Kyoungho
    • Proceedings of the KSME Conference
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    • 2002.08a
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    • pp.255-258
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    • 2002
  • Liquid rocket engines using liquefied natural gas (LNG) or methane as a fuel is known to have several good characteristics, such as high specific impulse compared to other hydrocarbon fuels, environment-friendly exhaust gas, low production cost, and re-usability with low soot generation in the cooling channel. In this study, experimental combustion chambers capable of using LNC and $CH_{4}$ are being researched through experimental firing tests, and within easy range of eyes' inspection, there are the periodical existence of soot or discoloration in the chamber wall surface. This result means that mixture ratio of oxidizer and fuel fluctuates periodically between outer-row injectors in the mixing head in the circumferential direction. Therefore, based on this phenomenon, the variation of mixture ratio near the chamber wall caused by the spill pattern of a shear coaxial injector was analyzed quantitatively and the thermal heat flux Into the cooling channel is modified. Then, the calculated and modified results are compared with the measured ones.

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A study of detector size effect using Monte Carlo simulation

  • Park, Kwang-Yl;Yi, Byong-Yong;Vahc, Young W.
    • Proceedings of the Korean Society of Medical Physics Conference
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    • 2004.11a
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    • pp.36-38
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    • 2004
  • The detector size effect due to the spatial response of defectors is one critical source of inaccuracy in clinical dosimetry and has been a subject of numerous studies. Conventionally, the detector response kernel contains all of the influence that the detector size has on the measured beam profile. Various analytic models for this kernel have been proposed and studied in theoretical and experimental works. Here, we use a method to determine detector response kernel simply by using Monte Carlo simulation and convolution theory. Based on this numerical method and DOSIMETER, an EGS4 Monte Carlo code, the detector response for a Farmer type ion chamber embedded in water phantom is obtained. There exists characteristic difference in the simulated chamber readings between one with carbon graphite wall and the other with Acrylic wail. Using the obtained response and the convolution theory, we are planning to derive the detector response kernel numerically and remove detector size effect from measurements for 6MV, 10${\times}$l0cm2 and 0.5${\times}$10 cm2 photon beam.

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