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Field Effects of Buoyancy on a Premixed Turbulent Flame Studied by Particle Image Velocimetry.

机译：用粒子图像测速技术研究浮力对预混湍流火焰的场效应。

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Typical laboratory flames for the scientific investigation of flame /turbulence interactions are prone to buoyancy effects. Buoyancy acts on these open flame systems and provides upstream feedbacks that control the global flame properties as well as local turbulence/flame interactions. Consequently the flame structures, stabilization limits, and turbulent reaction rates are directly or indirectly coupled with buoyancy. The objective of this study is to characterize the differences between premixed turbulent flames pointing upwards (1g), pointing downwards (-1g), and in microgravity (mg). The configuration is an inverted conical flame stabilized by a small cone-shaped bluff body that we call CLEAN Flames (Cone-Stabilized Lean Flames). We use two laser diagnostics to capture the velocity and scalar fields. Particle image velocimetry (PIV) measures the mean and root mean square velocities and planar imaging by the flame fronts method outlines the flame wrinkle topology. The results were obtained under typical conditions of small domestic heating systems such as water heaters, ovens, and furnaces. Significant differences between the 1g and -1g flames point to the need for including buoyancy contributions in theoretical and numerical calculations. In Earth gravity, there is a complex coupling of buoyancy with the turbulent flow and heat release in the flame. An investigation of buoyancy-free flames in microgravity will provide the key to discern gravity contributions. Data obtained in microgravity flames will provide the benchmark for interpreting and analyzing 1g and -1g flame results.

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作者
Cheng, Robert K.;
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年度 2003
页码 1-4
总页数 4
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Buoyancy; Chemical reactions; Flame propagation; Heat transfer; Premixed flames; Turbulent flames; Feedback; Gravitation; Imaging techniques; Particle image velocimetry;

机译：浮力;化学反应;火焰传播;传热;预混火焰;湍流火焰;反馈;引力;成像技术;粒子图像测速;

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专利

1. Effects of buoyancy on turbulent premixed V-flames by large-eddy simulation [J] . Wu Y., Chan C.K. Combustion theory and modelling . 2010,第6期

机译：大涡模拟对浮力对湍流预混V型火焰的影响
2. Effects of buoyancy on turbulent premixed V-flames by large-eddy simulation [J] . Yingyan Wuab C. K. Chana Combustion Theory and Modelling . 2010,第6期

机译：大涡模拟对浮力对V型预混湍流的影响
3. A method to simultaneously image two-dimensional mixture fraction, scalar dissipation rate, temperature and fuel consumption rate fields in a turbulent non-premixed jet flame [J] . Jeffrey A. Sutton, James F. Driscoll Experiments in Fluids . 2006,第4期

机译：一种在非预混湍流火焰中同时对二维混合比，标量耗散率，温度和燃料消耗率场进行成像的方法
4. Effects of Buoyancy and Inlet Perturbation on Turbulent Scalar Transport in Non-Premixed Jet Flames [C] . Wu T., Jiang X., Jiang J., International Seminar on Fire and Explosion Hazards . 2017

机译：浮力与入口扰动对非预混喷射火焰中湍流标量运输的影响
5. Flowfield characterization of a piloted lean premixed injector by particle image velocimetry. [D] . Berdanier, Catherine G. P. 2013

机译：先导稀薄预混合喷射器的流场特征通过颗粒图像测速法进行表征。
6. Resolution Requirements in Stochastic Field Simulation of Turbulent Premixed Flames [O] . M. A. Picciani, E. S. Richardson, S. Navarro-Martinez -1

机译：湍流预混火焰随机场模拟中的分辨率要求
7. Effects of buoyancy on turbulent premixed V-flames by large-eddy simulation [O] . Wu Y, Chan CK 2010

机译：大涡模拟对浮力对V型预混湍流的影响

Field Effects of Buoyancy on a Premixed Turbulent Flame Studied by Particle Image Velocimetry.

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