Early-period identification method of debris flow at meizoseismal area and application of early-period identification method
An early identification and debris flow technology, applied to instruments, alarms, etc., can solve the problems of low identification accuracy of debris flow and single rainfall characteristics, and achieve the effect of improving early identification accuracy and early identification accuracy
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Embodiment 1
[0042] An early identification method for debris flow in a strong earthquake area, comprising the following steps:
[0043]a. Determine the basic parameters of potential debris flow basins through Google Earth or topographic maps: total debris flow basin area A0, debris flow basin formation area A, debris flow formation area shape factor F, debris flow formation area ditch length L, and debris flow formation area ditch Bed longitudinal gradient J;
[0044] b. On-site investigation to determine the average channel width W in the formation area of the debris flow basin, the particle size D in the formation area of the debris flow basin, and the source volume of loose solids in the debris flow basin V 0 ;
[0045] c. Calculate the provenance coefficient V of the debris flow basin by formula 1;
[0046] V=V 0 / A0 Formula 1
[0047] Among them, V is source coefficient of debris flow basin, unit m; V 0 is the amount of loose solid matter source in the debris flow basin, whi...
Embodiment 2
[0061] An early identification method for debris flow in a strong earthquake area, comprising the following steps:
[0062] a. Determine the basic parameters of potential debris flow basins through Google Earth or topographic maps: total debris flow basin area A0, debris flow basin formation area A, debris flow formation area shape factor F, debris flow formation area ditch length L, and debris flow formation area ditch Bed longitudinal gradient J;
[0063] b. On-site investigation to determine the average channel width W in the formation area of the debris flow basin, the particle size D in the formation area of the debris flow basin, and the source volume of loose solids in the debris flow basin V 0 ;
[0064] c. Calculate the provenance coefficient V of the debris flow basin by formula 1;
[0065] V=V 0 / A0 Formula 1
[0066] Among them, V is source coefficient of debris flow basin, unit m; V 0 is the amount of loose solid matter source in the debris flow basin, wh...
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