Gate control heavy pollution small watershed pollutant flux observation method

A technology for small watersheds and pollutants, applied in measuring devices, general water supply conservation, instruments, etc., can solve problems such as data dispersion, difficult maintenance, and difficulty in calculating the total amount of pollutants, and achieve a high degree of fitting effect

Active Publication Date: 2021-01-12
SOUTH CHINA INST OF ENVIRONMENTAL SCI MEP
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In recent years, the state has continuously strengthened the rectification of water environmental problems such as inferior V water bodies and urban black and odorous water bodies. As far as the water catchment area is concerned, when the water level is at a specific height, the drainage is mostly dependent on gate control (electric drainage, gate) to dispatch drainage, the scope of the basin is determined, and it is mainly replenished by human production and life or rainfall. The water balance relationship is simple. At the same time, due to hydrological monitoring It is not suitable for large-scale construction in small watersheds due to high construction costs, difficult maintenance, and slow water flow, so it is difficult to calculate the total amount of pollutants discharged into receiving water bodies
[0003] The flux of river pollutants is the product of river flow and water quality concentration. At present, domestic flow data are mostly obtained by short-sequence monitoring methods such as acoustic Doppler current meter (ADCP) and hydrological ship current meter. The flow monitoring frequency is low and the cost is high. Unsynchronized with water quality monitoring, scattered and difficult to share data, few monitoring points and other factors lead to large errors in pollutant flux estimation, and it is difficult to effectively calculate the proportion of pollutant load entering the receiving water body

Method used

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  • Gate control heavy pollution small watershed pollutant flux observation method
  • Gate control heavy pollution small watershed pollutant flux observation method
  • Gate control heavy pollution small watershed pollutant flux observation method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0030] like figure 1 A gating control pollutant flux observation method in a heavily polluted small watershed is shown, the method includes:

[0031] The relationship between water level and water volume is obtained based on the topographic data of the river: Q=b 1 h 2 +b 2 H+b 3 , where Q represents water volume; H represents water level; b 1 , b 2 , b 3 Indicates the regression coefficient;

[0032] By collecting relevant river topographic vector data and combining with the actual shape of the river, reasonably divide it into several river sections, each section is 3-10m, preferably 3m, (the river topographic data can also be obtained by ADCP and RTK with GPS function), according to After dividing the length of the river section and the bottom elevation data of the cross section of the river section, the MATLAB software is used to integrate and calculate the cross-sectional area at different water levels, and then multiplied by the length of the divided river section ...

Embodiment 2

[0056] This embodiment is the same as embodiment 1 except the following technical features:

[0057] Specific implementation: Select a heavily polluted sluice control (sluice) river in South China that has built an automatic water quality monitoring station as the calculation target. This river is a sluice to control drainage, and the river channel section is regular after river revetment and river bottom hardening. First, collect the topographic data of the river channel, and establish the water level-water volume relationship Q=0.3297H 2 +28.407H+113.08;

[0058] According to the measured water level data, the relationship between water level and water volume is obtained (taking the data in December 2019 as an example), and the opening and closing of the sluice is obtained according to the water level difference.

[0059] A water level gauge is installed at the bottom of the river sluice and at the bottom of the river channel. When the gate is closed, the two water level ga...

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Abstract

The invention relates to the technical field of pollutant flux high-frequency observation and calculation, and discloses a gate control heavy pollution small watershed pollutant flux observation method, which comprises the steps of obtaining a water level-water quantity relational expression based on river terrain data; according to the gate control switch and rainfall conditions, obtaining the daily mean value of the river sewage amount according to the calculated pollutant flux when the water amount balance relationship under the water level change condition of the heavy pollution closed small watershed water body does not consider groundwater supplementation, gate station non-scheduling and non-rainfall. The method has the beneficial effects that the formula fitting degree is high, thewater quantity change before and after drainage is directly read according to the water level change; the real-time, automatic and intelligent monitoring of the pollutant flux is realized through theconnection of a local area network and an intelligent terminal.

Description

technical field [0001] The invention relates to the technical field of high-frequency observation and calculation of pollutant flux, in particular to a gate-controlled pollutant flux observation method in a heavily polluted small watershed. Background technique [0002] The flux of river pollutants is the core index for evaluating the effect of river basin water environment governance. In recent years, the state has continuously strengthened the rectification of water environmental problems such as inferior V water bodies and urban black and odorous water bodies. As far as the water catchment area is concerned, when the water level is at a specific height, the drainage is usually controlled by gates (electric drainage, gates) to dispatch drainage, the scope of the basin is determined, and it is mainly replenished by human production and life or rainfall. The water balance relationship is simple. At the same time, due to hydrological monitoring Due to high construction costs...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06Q10/06G06Q50/26G06F17/11G06F17/18G01D21/02
CPCG06Q10/06393G06Q50/26G06F17/11G06F17/18G01D21/02Y02A20/152
Inventor 范中亚罗千里王钟陈钢王文才郭静胡艳芳杨汉杰赵长进陈昭婷黄菊张进
Owner SOUTH CHINA INST OF ENVIRONMENTAL SCI MEP
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