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Prediction method for generation of Karman vortex street at tail end of vegetation group submerged under river

A prediction method and vegetation technology, applied in the fields of hydraulics and river dynamics, to achieve the effects of short shooting time, improved discrimination accuracy, and improved test efficiency

Active Publication Date: 2017-12-15
SICHUAN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] In view of the current technical situation that it is difficult to effectively predict whether Karman vortex street occurs at the tail end of river channel submerged vegetation group, the purpose of the present invention is to provide a method for predicting the occurrence of Karman vortex street at the tail end of river channel submerged vegetation group, so as to realize the utilization of The geometric size of the vegetation group (the height and width of the vegetation group) is used to judge whether the Karman vortex street occurs at the end of the submerged vegetation group

Method used

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  • Prediction method for generation of Karman vortex street at tail end of vegetation group submerged under river
  • Prediction method for generation of Karman vortex street at tail end of vegetation group submerged under river
  • Prediction method for generation of Karman vortex street at tail end of vegetation group submerged under river

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Experimental program
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Embodiment 1

[0037] In this embodiment, the identification index for the occurrence of Karman vortex street at the tail end of the submerged vegetation group in the river channel is determined through the flume simulation experiment for specific illustration.

[0038] ①Test purpose

[0039] The movement process of the vortex at the tail end of the submerged vegetation group was recorded by the flume test, and whether Karman vortex street occurred at the end of the submerged vegetation group was judged, and whether the Karman vortex street occurred in each group of working conditions was further tested by flow velocity spectrum analysis. Summarize the experimental results obtained, and put forward the discriminant index for the occurrence of Karman vortex street at the tail end of submerged high-density vegetation group.

[0040] ② Test equipment

[0041] The main equipment is shown in Table 1 below.

[0042] Table 1 Instruments and equipment used in dyeing agent test and flow rate measur...

Embodiment 2

[0077] In order to further test the practicability of the discriminant and predictive method for Karman vortex street occurrence at the tail end of high-density submerged vegetation groups, two groups of field experiments on natural rivers were carried out.

[0078] The test was carried out in the variable backwater area upstream of the Zipingpu Hydropower Station in Dujiangyan City, Sichuan Province. This area was submerged when the water was stored, and most of it was exposed when the water was discharged. There is sufficient sunlight and water, and the vegetation grows rapidly. The test was carried out when the reservoir was releasing water (the flow velocity of the water body was 14-17cm / s). At this time, there was only one main channel with a width of about 2m and a water depth of about 30cm. Some vegetation groups grew in the main channel. Two of the vegetation groups were selected for the experiment. First, the diameter (d) of a single plant in the vegetation group was m...

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Abstract

The present invention discloses a prediction method for generation of Karman vortex street at the tail end of a vegetation group submerged under river. The method comprises: measuring the width D and the height h of a submerged vegetation group with high density, and calculating the depth-width ratio h / D of the submerged vegetation group; and distinguishing whether the Karman vortex street at tail end of the submerged vegetation group is generated or not according to the depth-width ratio h / D of the submerged vegetation group. The prediction method provided by the invention only needs to measure the width (D) and the height (h) of the submerged vegetation group and distinguish whether the Karman vortex street at tail end of the submerged vegetation group is generated or not according to the depth-width ratio h / D of the submerged vegetation group, is simple and accurate, does not need to develop flow speed measurement work or a coloring agent test to detect the Karman vortex street, and has wide universality in the field.

Description

technical field [0001] The invention belongs to the field of hydraulics and river dynamics, and relates to a method for predicting the occurrence of Karman vortex street at the tail end of a river submerged vegetation group. Background technique [0002] In natural rivers, the vegetation group is generally the initial growth form of the aquatic plant community, and the vegetation grows intensively, and its shape is approximately circular when viewed from above. These aquatic plants grow in the river flow area, and the vegetation height is small in the initial growth stage, and they are usually in a state of being submerged. The emergence of submerged vegetation will change the water flow structure around it, especially the wake vortex structure will be formed at the end of the vegetation. [0003] Karman vortex street is a hydrodynamic phenomenon produced by viscous incompressible fluids. It is a steady stream that bypasses certain objects (such as vegetation groups) under ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06Q10/04G06Q50/06G06K9/00
CPCG06Q10/04G06Q50/06G06V20/188G06V20/42
Inventor 刘超单钰淇刘兴年杨克君
Owner SICHUAN UNIV