変動圧排気ターボ過給ニサイクルディーゼル機関におけるサイクルの近似理論的解析

DOI

書誌事項

タイトル別名
  • Approximate Theoretical Analysis of the Cycle for Pulse-Type Turbo Charged Two-Stroke Diesel Engine

抄録

To obtain adjustments, in the case of comparing performances of a turbocharged two-cycle diesel engine operating under different conditions of atmospheric pressure, temperature, scavenging air temperature, maximum combustion pressure or turbine back pressure, we developed a set of approximate theoretical equations for the turbocharged two cycle diesel engine under the following assumptions.<BR>(1) The exhaust gas turbine is treated as a pulse-type, and the exhaust blow down energy is considered as the theoretical exhaust blow down energy multiplyed by a coefficient introduced by the author, called utility coefficient.<BR>(2) For the gas flow between the turbine nozzle and the reduced port of the scavenging and exhaust port, the equilibrium relation is considered as the equivalent flow of the gas and the air volume.<BR>(3) The gas exchange in the scavenging period is in the middle stage of perfect mixing and perfect alienating; the heat exchange is in the middle of initial scavenging state and the final scavenging state.<BR>(4) The cycle in the engine cylinder is treated as a composite cycle. The compression and expansion indices, and constant pressure expansion ratio are determined depending upon the assumption that the pressures of the compression start and end point, and of the end point in the main combustion agree with those of the real cycle.<BR>More over, the specific heat of the gas is a function of the gas temperature and the composition.<BR>The developed equations several conditions of the cycles are simulated for comparison by means of a digital computer. And using the calculated results explain how the performance and cycle factors of the engine are affected by such conditions as atmospheric temperature and pressure, scavenging air temperature or cooling condition of the air cooler, muximum combustion pressure or fuel injection timing, turbine back pressure or flow passage area of the silencer.<BR>At the same time, we investigate the influence of the turbine and the compressor efficiency, and of the turbine nozzle area.<BR>The developed equations agreed with actual operating results. The equation can be used for a diesel engine in different conditions or two engines of similar types in different conditions.

収録刊行物

  • 日本舶用機関学会誌

    日本舶用機関学会誌 4 (2), 87-100, 1969

    公益社団法人 日本マリンエンジニアリング学会

詳細情報 詳細情報について

  • CRID
    1390282680136689664
  • NII論文ID
    130001336786
  • DOI
    10.5988/jime1966.4.87
  • ISSN
    18844758
    03883051
  • 本文言語コード
    ja
  • データソース種別
    • JaLC
    • Crossref
    • CiNii Articles
  • 抄録ライセンスフラグ
    使用不可

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