Method for measuring volume water content of debris flow critical soil body and debris flow pre-warning method

A technology of volumetric moisture content and soil moisture content, applied in soil material testing, alarms, instruments, etc., can solve problems such as inability to fully reflect physical characteristics, insufficient consideration, and difficulty in accurately calculating early rainfall.

Inactive Publication Date: 2013-07-10
INST OF MOUNTAIN HAZARDS & ENVIRONMENT CHINESE ACADEMY OF SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, the effective rainfall in the early stage can only indirectly reflect the soil characteristics during the debris flow period, and there is insufficient consideration of the important role of soil volume moisture content in the formation of debris flows.
After detailed analysis, this kind of method generally has the following deficiencies: 1. It is difficult to accurately calculate the rainfall in the previous period, and the results obtained by various calculation methods are quite different
But in fact, in the initial stage of debris flow formation, pore water pressure, water potential, and ground temperature all have obvious changes, and the time and scale of debris flow formation are closely related to short-duration rainfall intensity, so soil volume moisture content, matrix suction, In the case of indicators such as pore water pressure or ground deformation, the obtained early warning model cannot fully reflect the physical characteristics of the debris flow when it starts

Method used

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  • Method for measuring volume water content of debris flow critical soil body and debris flow pre-warning method
  • Method for measuring volume water content of debris flow critical soil body and debris flow pre-warning method
  • Method for measuring volume water content of debris flow critical soil body and debris flow pre-warning method

Examples

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Embodiment 1

[0039] The technical route shown in Figure 1-1, the critical soil volume moisture content W when the Jiangjiagou debris flow in Dongchuan District, Kunming City, Yunnan Province was measured by the method of the present invention a .

[0040] On-the-spot investigation of the Jiangjiagou debris flow basin determined that the formation area was the steep slope where loose material accumulated upstream, and this area was taken as the research area.

[0041] Collect breccia soil samples in the research area, and obtain basic soil data through experimental tests, including soil porosity n, permeability coefficient K, and particle gradation distribution characteristic parameters d 10 、d 30 、d 60 . Test result: soil bulk density 1.954g / cm 3 , porosity n0.3818, permeability coefficient K0.00807mm / s; the d 10 =0.01mm, d 30 =0.25mm, d 50 = 1 mm, d 60 = 3mm, then

[0042] Calculate and determine the critical soil volume moisture content W according to formula 1 a :

[0043] ...

Embodiment 2

[0046] Based on the technical solution of Example 1, the method of the present invention is used to further forecast and warn the occurrence of Jiangjiagou debris flow. The range of the research area determined in Example 1 is the range of the debris flow early warning area in this embodiment. In this embodiment, the mud-rock flow that occurred on July 16, 1999 in the Jiangjiagou River Basin is used as a sample to simulate the early warning and forecast of the mud-rock flow. Figure 2-1 is a schematic diagram of the technical route.

[0047] In addition to the experimental testing of breccia soil samples in the early warning area to obtain the basic soil data of the debris flow early warning area, it is also necessary to arrange soil moisture content sensors and rainfall sensors in the early warning area. The soil moisture content sensor is arranged on the slope of the early warning area, and the sensor element is buried at a depth of 5cm to 15cm. The soil moisture data and ra...

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Abstract

The invention discloses a method for measuring the volume water content of a critical soil body during debris flow and a debris flow happening pre-warning method. In order to overcome the shortcoming that the real-time soil body condition change of a pre-warning region can not be accurately reflected because the effective early rainfall serves as an indirect index in an effective early rainfall and real-time rainfall debris flow mode, the invention provides the method for measuring the volume water content of the debris flow critical soil body and a method for pre-warning the happening of the debris flow in a forming region by taking a method for measuring the volume water content of the critical soil body during the happening of the debris flow in the forming region of a debris flow drainage basin as a core by monitoring a coupled result of the volume water content of the current real-time soil body in the forming region and real-time rainfall data in real time. The methods are reliable in theories; a water content sensor is directly used for obtaining the real soil body water content; the debris flow is pre-warned according to the real-time rainfall change; the volume water content of the critical soil body is only required to be determined at first; the index is simple; and the suitability of the methods are high.

Description

technical field [0001] The invention relates to a method for measuring critical soil volume moisture content when debris flow occurs and a method for early warning of debris flow. Background technique [0002] Debris flows caused by heavy rains are mostly caused by the slope instability of loose sources in the source area of ​​the watershed under the action of rainfall infiltration, resulting in runoff that flows into channels in large quantities. At present, the early warning methods of rainstorm and debris flow mostly use the basic theoretical model of "effective previous rainfall-rain intensity / duration", and there are also forms of rainfall combination and critical threshold. However, the effective rainfall in the early stage can only indirectly reflect the soil characteristics during the debris flow period, and there are insufficient considerations for the important role of soil volume moisture content in the process of debris flow formation. After detailed analysis, t...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N33/24G08B21/10
Inventor 胡凯衡马超崔鹏洪勇
Owner INST OF MOUNTAIN HAZARDS & ENVIRONMENT CHINESE ACADEMY OF SCI
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