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Method for measuring and calculating peak flow of drifting debris flow

A peak flow and debris flow technology, applied in calculation, computer-aided design, instruments, etc., can solve the problems of magnification and increase of peak flow of drift wood debris flow, enhancement of debris flow impact damage ability, etc., and achieve high engineering use value, calculation The effect of simple form and scientific calculation principle

Pending Publication Date: 2021-02-05
NORTHWEST UNIV(CN)
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] During the movement, the driftwood can be blocked in the narrow part of the channel, forming an unstable blockage, which leads to subsequent debris flow deposition. When the deposition reaches a certain level, under the impact of hydrostatic pressure and subsequent debris flow, the driftwood blockage suddenly collapse, the flow increases instantaneously, forming a larger-scale debris flow, which further enhances the impact and destruction ability of the debris flow, causing serious secondary disasters
Due to the influence of driftwood, the flow rate of debris flow has an amplification effect, but there are few studies on the flow amplification effect of debris flow blockage at present. In the design of prevention and control projects for driftwood debris flow, the peak flow rate of debris flow is mostly based on design experience and experience It is based on the formula and does not take into account the important factor of peak flow amplification of debris flow caused by driftwood

Method used

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  • Method for measuring and calculating peak flow of drifting debris flow
  • Method for measuring and calculating peak flow of drifting debris flow
  • Method for measuring and calculating peak flow of drifting debris flow

Examples

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Embodiment 1

[0028] Such as figure 1 shown. In a mudslide ditch on the right bank of the Lancang River in Yunnan, mudslides have been frequent in recent years. The drainage area of ​​the ditch is 4.53km 2 , the length of the main ditch is 3.21km, and the average vertical gradient is 195‰; there have been several large-scale debris flows in the ditch, and a large number of driftwood have been carried out. During the investigation of debris flow ditches, it was found that a large amount of driftwood was still accumulated in the debris flow formation area and circulation area, and the section of the channel was relatively narrow. Larger, the blocking effect may occur in the narrow part of the ditch, resulting in an increase in the flow of debris flow and greater loss of life and property to downstream residents.

[0029] In order to effectively control the driftwood debris flow and make the design parameters of the treatment project more reasonable, the method of the present invention is u...

Embodiment 2

[0037] Such as figure 1 shown. In a mudslide ditch in Nyingchi, Tibet, there have been frequent mudslides in recent years. Several large mudslides broke out in the ditch, and a large amount of driftwood was carried. The drainage area of ​​the ditch is 3.18km 2 , the length of the main ditch is 2.64km, and the average vertical gradient is 207‰. During the investigation of the debris flow ditch, it was found that there are still a large number of driftwood accumulated in the debris flow formation area and circulation area, and the section of the ditch is relatively narrow. Due to the large size of the driftwood in the ditch, the blocking effect may occur in the narrow part of the ditch, causing The flow of debris flow increases, causing greater loss of life and property to downstream residents.

[0038] In order to effectively control the driftwood debris flow and make the design parameters of the treatment project more reasonable, the method of the present invention is used ...

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Abstract

The invention discloses a method for measuring and calculating peak flow of drifting debris flow. The calculation method comprises the following steps of firstly, determining the average length, the average diameter, the total amount, the width of a debris flow channel, the volume ratio of solid substances in debris flow, the total amount of debris flow and the peak flow of debris flow without considering the condition of containing the floating wood, and then calculating the peak flow of the debris flow of the floating wood. The method comprehensively considers main influence factors causingdebris flow peak flow amplification, such as the average length, the average diameter, the total amount and the channel width of the debris flow, of the floating wood in the floating wood debris flow,is scientific in calculation principle, simple in calculation form and easy in parameter acquisition, and adapts to actual engineering design requirements.

Description

technical field [0001] The invention relates to the fields of measurement technology and debris flow prevention and control engineering design, in particular to a method for measuring and calculating the peak flow rate of drift wood debris flow. Background technique [0002] Debris flow is one of the common types of geological disasters in mountainous areas of my country. Its sudden outbreak, fast movement speed and strong destructive power often cause serious harm and threat to infrastructure construction and people's life and property safety. In my country's high-altitude mountainous areas, the vegetation coverage is high. Due to factors such as fires, earthquakes, and landslides in recent years, a large number of tree branches are scattered in the debris flow formation area or piled up in the circulation area. Wood, tilted out with the mud-rock flow, forming drift wood mud-rock flow. [0003] During the movement, the driftwood can be blocked in the narrow part of the chan...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F30/20G06Q50/26G06F113/08
CPCG06F30/20G06Q50/265G06F2113/08
Inventor 王新刚王道正陈晓清王家鼎王飞屈飞行
Owner NORTHWEST UNIV(CN)
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