|±¾ÆÚĿ¼/Table of Contents|

[1]³ÂÓгÉ,´úÕÅÒô,»ÆäÈÝá,µÈ.µØ±í»ðÒýȼÔÆÄÏËÉÊ÷¹Ú»ðÂûÑÓ¹æÂÉÑо¿*[J].Öйú°²È«Éú²ú¿Æѧ¼¼Êõ,2025,21(4):125-133.[doi:10.11731/j.issn.1673-193x.2025.04.017]
¡¡CHEN Youcheng,DAI Zhangyin,HUANG Congbao,et al.Study on propagation laws of crown fire of Yunnan Pine ignited by surface fire[J].JOURNAL OF SAFETY SCIENCE AND TECHNOLOGY,2025,21(4):125-133.[doi:10.11731/j.issn.1673-193x.2025.04.017]
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¾í:
21
ÆÚÊý:
2025Äê4ÆÚ
Ò³Âë:
125-133
À¸Ä¿:
Ö°Òµ°²È«ÎÀÉú¹ÜÀíÓë¼¼Êõ
³ö°æÈÕÆÚ:
2025-04-30

ÎÄÕÂÐÅÏ¢/Info

Title:
Study on propagation laws of crown fire of Yunnan Pine ignited by surface fire
ÎÄÕ±àºÅ:
1673-193X(2025)-04-0125-10
×÷Õß:
³ÂÓгɴúÕÅÒô»ÆäÈÝáÖÓÂüÒü½­Ôó±ê
£¨¹óÖÝ´óѧ ¿óҵѧԺ£¬¹óÖÝ ¹óÑô 550025£©
Author(s):
CHEN Youcheng DAI Zhangyin HUANG Congbao ZHONG Manyin JIANG Zebiao
(College of Mining,Guizhou University,Guiyang Guizhou 550025,China)
¹Ø¼ü´Ê:
ÔÆÄÏËÉÊ÷¹Ú»ðPyrosimÂûÑÓ¹æÂÉ
Keywords:
Yunnan Pine crown fire Pyrosim propagation law
·ÖÀàºÅ:
X954
DOI:
10.11731/j.issn.1673-193x.2025.04.017
ÎÄÏ×±êÖ¾Âë:
A
ÕªÒª:
Ϊ½ÒʾÎ÷ÄϵØÇøÉ­ÁÖ»ðÔÖÖеرí»ðÒýȼÊ÷¹Ú»ðºóµÄÂûÑÓ¹æÂÉ£¬»ùÓÚPyrosim»ðÔÖÄ£ÄâÈí¼þ£¬¶ÔµØ±í»ðÏòÔÆÄÏËÉÊ÷¹Ú»ðµÄת»¯¹ý³Ì¼°ÂûÑÓÌØÐÔ½øÐÐÊýֵģÄ⣬ģÄâ·ÖÎö²»Í¬·çËÙºÍƶÈÌõ¼þϵĻðÔÖÂûÑÓÇé¿ö¡£Ñо¿½á¹û±íÃ÷£º·çËÙÊÇÓ°ÏìÊ÷¹Ú»ðÂûÑÓËÙÂʵĹؼüÒòËØ¡£·çËÙ3 m/sϵĻð³¡×î¸ßζȽϷçËÙ1 m/sÉÏÉý100 ¡æ£¬»ðÂûÑӼӿ죻·çËÙÔö¼ÓÖÁ5 m/sʱ£¬·åֵζȽøÒ»²½Éý¸ßÖÁ1 400 ¡æ¡£ÔÚÏàͬƶÈÏ£¬·çËÙµÄÔö¼ÓÏÔÖø¼Ó¿ìÊ÷¹Ú»ðµÄÂûÑÓËÙÂÊ£»ÔÚÏàͬ·çËÙÏ£¬Æ¶ȵÄÔö¼ÓÒ²»á´Ù½ø»ðÊÆÂûÑÓ¡£ÔÚ15¡ãƶÈÏ£¬Ëæ×Å·çËÙÔö¼Ó£¬»ðÔÖȼÉÕÇ¿¶ÈºÍÂûÑÓËÙÂÊÃ÷ÏÔÌáÉý£¬ÆäÖй¤¿öS-3µÄÈÈÊÍ·ÅËÙÂÊ£¨HRR£©ÇúÏß·åÖµ×î¸ßÇÒÇúÏßÃæ»ý×î´ó£¬·çËÙ¼Ó¿ìÁË»ðÑæµÄÂûÑÓ¡£È»¶ø£¬·çËÙΪ1 m/sʱ£¬¾¡¹ÜƶȴÓ25¡ãÔö¼Óµ½35¡ã£¬HRR·åÖµºÍÇúÏßÃæ»ýÎÞÏÔÖø±ä»¯£¬±íÃ÷ÔڵͷçËÙÌõ¼þÏ£¬Æ¶ȶԻðÑæÂûÑÓµÄÓ°Ïì½ÏС¡£Ñо¿½á¹û¿ÉΪɭÁÖ»ðÔÖ·À¿Ø²ßÂÔµÄÓÅ»¯ÌṩÀíÂÛÓëÊý¾Ý²Î¿¼¡£
Abstract:
In order to reveal the propagation laws of crown fire ignited by surface fire in the forest fires of southwest China,the numerical simulation was conducted on the transformation process and propagation characteristics of surface fire into crown fire of Yunnan Pine based on Pyrosim fire simulation software.The fire propagation under different wind speed and slope conditions was simulated and analyzed.The results show that the wind speed is a key factor affecting the rate of crown fire propagation.The maximum temperature of the fire scene at a wind speed of 3 m/s increased by 100 ¡æ compared to a wind speed of 1 m/s,and the spread of the fire accelerated.When the wind speed increases to 5 m/s,the peak temperature further increases to 1 400 ¡æ.Under the same slope,the increase in wind speed significantly accelerates the propagation rate of crown fire,and under the same wind speed,the increase in slope also promotes the propagation of fire.At a 15¡ã slope,as the wind speed increases,the fire burning intensity and propagation rate increase significantly.Among them,the heat release rate (HRR) curve of working condition S-3 has the highest peak value and the largest curve area,and the wind speed accelerates the propagation of the flame.However,when the wind speed is 1 m/s,although the slope increases from 25¡ã to 35¡ã,the HRR peak value and curve area do not change significantly,indicating that under low wind speed conditions,the influence of slope on flame propagation is small.The research results can provide theoretical and data reference for the optimization of forest fire prevention and control strategies.

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