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    题名: On interaction of centrally-ignited, outwardly-propagating premixed flames with fully-developed isotropic turbulence at elevated pressure
    作者: Liu,CC;Shy,SS;Chen,HC;Peng,MW
    贡献者: 機械工程學系
    关键词: EXPANDING SPHERICAL FLAMES;BURNING VELOCITY;CRUCIFORM BURNER;COMBUSTION;METHANE;TRANSITION;MIXTURES;SCALE;RATES
    日期: 2011
    上传时间: 2012-03-27 17:07:46 (UTC+8)
    出版者: 國立中央大學
    摘要: A new apparatus for the study of turbulent premixed flames at atmospheric and elevated pressures is proposed. The apparatus includes a high-pressure fan-stirred cruciform burner, the inner chamber, which is resided in a relatively large pressure-absorbing safety chamber (the outer chamber). Both chambers are optically accessible, allowing direct visualization and measurement of flame and turbulence interactions. The inner burner applies the same turbulence generating mechanism as that previously reported by Shy et al. [10], capable of generating intense near-isotropic turbulence. The additional modification lies in its vertical vessel which has four sensitive pressure-releasing valves installed symmetrically, so that the pressure difference between the inner and outer chambers during explosion can be eliminated. Flame speed measurements for centrally-ignited, outwardly-propagating lean CH(4)-air flames at the equivalence ratio phi = 0.8 under both quiescent and turbulent conditions are conducted over an initial pressure range of p = 0.1-1 MPa. It is found that, contrary to the popular scenario for laminar flames, the coupling influence of elevated pressure and turbulence significantly enhances turbulent flame speeds. Our experimental data show that the unstretched laminar burning velocities (S(L)) decrease with p(-0.52), while turbulent burning velocities (S(T)) increase with p(0.14) when a constant turbulent fluctuating velocity u' approximate to 1.4 m/s is applied. In terms of the power law relation proposed by Kobayashi and his co-workers, we found that S(T)/S(L) approximate to 1.07[(u'/S(L))(p/p(0))](0.44) where p(0) is the atmospheric pressure, showing a similar increasing trend but with much lower values of S(T)/S(L) to what they found in a Bunsen-type burner. It is suggested that S(T) approximate to p(0.14) is attributed to further flame surface area increment induced by the enhancement of hydrodynamic instability due to the decrease of kinematic viscosity at elevated pressure. (C) 2010 The Combustion Institute. Published by Elsevier Inc. All rights reserved.
    關聯: PROCEEDINGS OF THE COMBUSTION INSTITUTE
    显示于类别:[機械工程學系] 期刊論文

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