Large-eddy simulation of a three-feed non-premixed flame for an oxy-fuel gas turbine burner

DOI Web Site 25 References Open Access
  • Yu Panlong
    Department of Advanced Environmental Science and Engineering, Kyushu University International Institute for Carbon-Neutral Research, Kyushu University
  • Nishiie Takayuki
    Interdisciplinary Graduate School of Engineering Sciences, Kyushu University Numerical Flow Designing Co., Ltd.
  • Kitagawa Toshiaki
    Department of Mechanical Engineering, Faculty of Engineering, Kyushu University
  • Watanabe Hiroaki
    Department of Advanced Environmental Science and Engineering, Kyushu University International Institute for Carbon-Neutral Research, Kyushu University

Description

The development of turbulent combustion models for a three-feed non-premixed flame is essential for the research of gas-turbine in the oxy-fuel integrated coal gasification combined cycle (IGCC) system. The quasi-two-dimensional flamelet models are considered effective and accurate substitutes for the two-dimensional flamelet model, however, there are still many aspects worth further investigations in terms of each dimension in the flamelet library. The considerations of heat loss, the presumed probability density function (PDF), and the resolution of the diluent fraction in large-eddy simulation (LES) should be attached importance to. In this paper, heat loss, diluent fraction PDF, and resolution of the diluent fraction have been investigated. It has been shown that the current heat loss model in the flamelet equation can correctly interpret the reactions which are facilitated by high temperature. The beta-PDF used for diluent fraction results in a lower temperature in the flame zone than that of the delta-PDF as the diluent fraction fluctuation cannot be overlooked. And also, coarse resolution in terms of the diluent fraction gives interpolation error and should be paid attention to.

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