Study on the Influence of Air-inlet Width on Fire Whirls Combustion Characteristic☆

Abstract The size of air-inlets in fire scene influences the air entrainment, and the power of air entrainment has an obvious effect on the formation and the combustion characteristic of fire whirls. In order to study the air-inlet influence on fire whirl combustion characteristic, the experiment in this work used the fire whirl generator with six free-setting horizontal openings to simulate different size of air-inlets in fire scene. The results show that the forming time of fire whirls decreases firstly and increases afterward with the increase of air-inlet width, and accordingly the intensity and stability increase firstly and then decrease. When the air-inlet widths are 20∼30 cm, the fire whirls intensity and stability is superior to others, the forming time is the shortest and the lasting time is the longest. In addition, this paper explains preliminarily the reason for the influence that air-inlet width makes on fire whirls combustion characteristic.

[1]  K. Satoh,et al.  Simulations of Swirling Fires Controlled by Channeled Self-generated Entrainment Flows , 1997 .

[2]  Xia Yun Effects of Magnetic Field on the Characteristics of Fire Whirl , 2003 .

[3]  Huo Yan Experiments and Flame Characteristics of Fire Whirls in a Small Scaled Vertical Square Shaft , 2011 .

[4]  Xia Yun An Analysis of Fire Whirl Stability in Magnetic Field , 2002 .

[5]  Howard W. Emmons,et al.  The fire whirl , 1967 .

[6]  Kohyu Satoh,et al.  Experiments and Numerical Simulations of Swirling Fires due to 2 × 2 Flames in a Channel With a Single Corner Gap , 1998, Heat Transfer: Volume 2 — Combustion and Radiation Heat Transfer.

[7]  Liao Guang Experimental study on extinguishment of fire whirlwind by water mist , 2002 .

[8]  Wan Ki Chow,et al.  The primary characteristics of fire whirls in vertical square channels with a lateral seam , 2010 .

[9]  Kozo Saito,et al.  Modeling a fire whirl generated over a 5-cm-diameter methanol pool fire , 2009 .

[10]  Kohyu Satoh,et al.  Measurements of Fire Whirls From a Single Flame in a Vertical Square Channel With Symmetrical Corner Gaps , 1999, Heat Transfer: Volume 4.

[11]  Keng Hoo Chuah,et al.  The prediction of flame heights and flame shapes of small fire whirls , 2007 .

[12]  Xia Yun-chun Study on the Critical Rotating Speed of a Rotating Magnetic Field Inducing Fire Whirl , 2004 .

[13]  Shu Li-fu Research progress on forest fire whirl , 2010 .

[14]  Xia Yun-chun Experimental Study on Combustion Rules of Fire Whirl , 2009 .