中大機構典藏-NCU Institutional Repository-提供博碩士論文、考古題、期刊論文、研究計畫等下載:Item 987654321/50096
English  |  正體中文  |  简体中文  |  Items with full text/Total items : 78937/78937 (100%)
Visitors : 39859441      Online Users : 567
RC Version 7.0 © Powered By DSPACE, MIT. Enhanced by NTU Library IR team.
Scope Tips:
  • please add "double quotation mark" for query phrases to get precise results
  • please goto advance search for comprehansive author search
    •  Adv. Search
    HomeLoginUploadHelpAboutAdminister Goto mobile version


    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/50096


    Title: Ignition transition in turbulent premixed combustion
    Authors: Shy,SS;Liu,CC;Shih,WT
    Contributors: 機械工程學系
    Date: 2010
    Issue Date: 2012-03-27 17:03:24 (UTC+8)
    Publisher: 國立中央大學
    Abstract: Recently, Shy and his co-workers reported a turbulent ignition transition based on measurements of minimum ignition energies (MIE) of lean premixed turbulent methane combustion in a centrally-ignited, fan-stirred cruciform burner capable of generating intense isotropic turbulence. Using the same methodology, this paper presents new complete MIE data sets for stoichiometric and rich cases at three different equivalence ratios phi = 1.0, 1.2 and 1.3, each covering a wide range of a turbulent Karlovitz number (Ka) indicating a time ratio between chemical reaction and turbulence. Thus, ignition transition in premixed turbulent combustion depending on both Ka and phi can be identified for the first time. It is found that there are two distinct modes on ignition in randomly stirred methane-air mixtures (ignition transition) separated by a critical Ka where values of Ka(c) approximate to 8-26 depending on phi with the minimum Ka(c) occurring near phi = 1. For Ka < Ka(c). MIE increases gradually with Ka, flame kernel formation is similar to laminar ignition remaining a torus, and 2D laser tomography images Of Subsequent outwardly-propagating turbulent flames show sharp fronts. For Ka > Ka(c), MIE increases abruptly with Ka, flame kernel is disrupted, and subsequent randomly-propagating turbulent flames reveal distributed-like fronts. Moreover, we introduce a reaction zone Peclet number (P(RZ)) indicating the diffusivity ratio between turbulence and chemical reaction, such that the aforementioned very scattering MIE data depending on Ka and phi can be collapsed into a single curve having two drastically different increasing slopes with P(RZ) which are separated by a critical P(RZ) approximate to 4.5 showing ignition transition. Finally, a physical model is proposed to explain these results. (C) 2009 The Combustion Institute. Published by Elsevier Inc. All rights reserved.
    Relation: COMBUSTION AND FLAME
    Appears in Collections:[Departmant of Mechanical Engineering ] journal & Dissertation

    Files in This Item:

    File Description SizeFormat
    index.html0KbHTML306View/Open


    All items in NCUIR are protected by copyright, with all rights reserved.

    社群 sharing

    ::: Copyright National Central University. | 國立中央大學圖書館版權所有 | 收藏本站 | 設為首頁 | 最佳瀏覽畫面: 1024*768 | 建站日期:8-24-2009 :::
    DSpace Software Copyright © 2002-2004  MIT &  Hewlett-Packard  /   Enhanced by   NTU Library IR team Copyright ©   - 隱私權政策聲明