文章摘要
申若竹,杨 敏,刘 鹏.地下空间出入楼梯洪水动力特性试验研究Journal of Water Resources and Water Engineering[J].,2012,23(6):124-127,131
地下空间出入楼梯洪水动力特性试验研究
Experiment on hydrodynamic characteristics of passageway in underground space
Received:September 24, 2012  Revised:October 10, 2012
DOI:10.11705/j.issn.1672-643X.2012.06.029
中文关键词: 地下空间  洪水入侵  洪水动力特性  模型试验
英文关键词: underground space  flood intrusion  flood hydrodynamic characteristics  model test
基金项目:
Author NameAffiliation
SHEN Ruozhu State Key Laboratory of Hydraulic Engineering Simulation and Safety, Tianjin University, Tianjin 300072, China 
YANG Min State Key Laboratory of Hydraulic Engineering Simulation and Safety, Tianjin University, Tianjin 300072, China 
LIU Peng Hydrochina Xibei Engineering Corporation, Xi''an 710065, China [KH*3D] 
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中文摘要:
      近年来国内外已有许多城市的极端强降水事件造成了地下空间受淹而导致巨大损失的发生,而地下空间防洪方面的研究成果寥寥无几。本文通过地下空间出入楼梯的水工模型试验,重点将人体所受水流阻力与流量的关系作为一个新的研究角度, 研究了入侵洪水的动力特性:当流量达到安全撤离的临界条件0.28m3/(s·m)时,最大流速到达3.9m/s。水流对人体的阻力随着流量的增加呈线性增长,双腿站立的阻力与流量关系曲线的斜率较单腿站立的要大;在最不利的着装条件下,单腿受力的最大值为3.93×9.8N,双腿受力的最大值为8.96×9.8N。其结果为防洪设计和疏散指导工作提供理论依据,并为今后地下空间洪水入侵机理的研究提供参考。
英文摘要:
      In recent years, extreme heavy precipitation events have happened and caused enormous losses to underground space at home and abroad. At present, reports about the problem of flood intrusion mechanism and hydrodynamic characteristics in underground space are few and unsystematic. This paper deals with a hydraulic model test of inundation in the passageway of underground space. Through numerous experiments under the various conditions, intrusive flow behaviors in the stairs of underground space are studied in details:The maximum velocity of the staircase is 3.9m/s when the flow discharge reaches to 0.28m3/(s·m). The dray force build-up curves have similar trends, which are all propinquity to liner-growth. The slope of force-discharge relation curve standing by double legs is bigger than the one standing by one leg. The maximum drag force of one leg is 3.93×9.8N while the one of double legs is 8.96×9.8N under the most unfavorable condition. The results provide theoretical significance to guide the normal design and evacuation in underground space and provide reference for the flood invasion mechanism research in the future.
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