Deflagration Characteristics of Forest Trees from the Perspective of UAV
LÜ Zhen-yi1, HE Cheng2*, SHU Li-fu3*, JI Ren-xin4, ZHANG Si-yu2, WANG Yue2, GAO Jian-qi1, ZHAO Feng-jun3
1. Shenzhen Keweitai Enterprise Development Co., Ltd.,Shenzhen 518101, China
2. Nanjing Forest Police College, Nanjing 210023, China
3. State Forestry Administration’s Key Open Laboratory of Forest Protection, Research Institute of Forest Ecology, Environment and Protection, Chinese Academy of Forestry, Beijing 100091, China
4. China Fire and Rescue Institute, Beijing 102200, China
Abstract:The phenomenon of “deflagration” in forest fires is characterized by a sudden occurrence of high-intensity combustion with high spreading speed. Consensus hasn’t been reached about the causes of “detonation fire” so far. In this study, forest fire videos, real-time pose data, and wind speed estimation derived from KWT (Keweitai) drone, together with field research data were analyzed to characterize the spatial and temporal feature of forest fire spreading within a valley topography in Liangshan Prefecture, which killed 27 firefighters on 31 March 2019. We found that: the microclimate played a dominant role in complex terrain, and the special period of the high mountain terrain was 4:00—12:00 every day for the quiet wind period, which was the best period for the canyon forest fire fighting. The wind speed of the valley topography was active from 15:00—17:00 in the afternoon and from 20:00—22:00 in the evening, the model of relationship between inclination angle of the drone and wind speed was established y=-1.043 5+1.150 1x(y is the wind speed m·s-1, and x is the uav inclination °) . The wind speed and direction of the mountain, valley and mountainside were not uniform, and there was no positive correlation between wind speed and altitude. The peak state of the airflow velocity occurred in the middle of the valley to the depth of the valley, and there would be turbulent flow at the bottom of the valley, which provides objective and necessary conditions for the occurrence of deflagration fire. The short duration of drones was the bottleneck of forest fire monitoring.
Key words:Unmanned aerial vehicle (uav); Deflagration; High altitude; Fire; Explosion
基金资助: supported by Nature Science Foundation of China (31570645,31870643), China National Key R&D Program during the 13th Five-year Plan Period (2017YFD0600106),Jiangsu province “six talent peaks” high-level personnel training project,a part of a Excellent Scientific and Technological Innovation Team of Nanjing Forest Police College
作者简介: Lü Zhen-yi, (1963—),industry professor in Shenzhen KEWEITAI Enterprise Development Co., Ltd.
e-mail:
Lzy139029@keweitai.tom
引用本文:
吕振义,何 诚,舒立福,纪任鑫,张思玉,王 越,高建琦,赵凤君. 无人机视角下的林木爆燃火特性研究[J]. 光谱学与光谱分析, 2019, 39(12): 3946-3952.
LÜ Zhen-yi, HE Cheng, SHU Li-fu, JI Ren-xin, ZHANG Si-yu, WANG Yue, GAO Jian-qi, ZHAO Feng-jun. Deflagration Characteristics of Forest Trees from the Perspective of UAV. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2019, 39(12): 3946-3952.
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