2023年全國碩士研究生考試考研英語一試題真題(含答案詳解+作文范文)_第1頁
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1、 Based on sluice movement turbulent motion water body to organic matter degeneration experiment and research Wang Haiyun College of Hydraulic and Environmental Engineering China Three Gorges University Yi chang , China

2、 wanghaiyun@ctgu.edu.cn Wang zhen hua Architectural Design Turbulent made the hydrological flow field more complex, and river water’s mechanical properties changed from laminar flow into turbulence, reflux, or

3、mixed flow, showing typical non-linear characteristics. And the turbulent kinetic energy k’s affections on the degradation rate k1 conforms to “First Order Reaction“ theory, established a relation expression, used SPS

4、S11.0 statistical calculation software’s nonlinear fitting to get the relationship between degradation rate k1 and turbulent kinetic energy k, R2 = 0.9961, good correlation, reflecting the real characteristics of imp

5、act that lock turbulence had on the degradation of organic matter. Keywords-turbulence ; Degradation of organic matter; Gezhouba lock; Certification I. INTRODUCTON Lock is an important operating system for transmis

6、sion and distribution in water conservancy facilities, the water flow conditions and hydrodynamic conditions in lock channels as well as in chambers are very complicated, the self-purification capacity of water enviro

7、nment is affected by a variety of factors, and these places are sensitive segments causing environmental safety issues. Many domestic and international researches had been conducted to study the quality of water envi

8、ronment in lock areas, finding that the water pollution in lock areas was very serious, and they are prone and high-risk places for water quality decline and water pollution in water conservancy facilities. Therefore,

9、 the lock turbulent water on organic matter degradation problem has received extensive attention, but research is not enough, neither as the information. Distribution system is an important part of the lock, its main

10、 role is to complete water supply and drainage in the shortest time, in order to make the water level up and down consistent. The hydrology in lock areas is absolutely different from that in natural rivers because of

11、the velocity and high head of water in the distribution system. Most water pollution processes are not orderly, stable, balanced or certainly, but in a disorderly, non-stable, non-balanced and random turbulent state,

12、there is a turbulence in the nonlinear interaction [1]. In this paper, Gezhouba lock, for example, through the turbulent waters of the experimental control degradation of organic law [2], and using on-site monitoring

13、technology, access to a large number of first-hand information to verify the experimental results. II. OVERVIEW OF THESTUDY AREA A. Gezhouba Lock Gezhouba is the first large-scale water conservancy project built o

14、n the Yangtze River, according to its project arrangement, there is a channel in both banks and the river, on the confluence of left bank channel and Huangbaihe which is a tributary of the Yangtze River, there lies th

15、e 2nd and the 3rd lock. B. Water delivery system the inlet section of the No.2 lock uses inside water, locates six 4.5m × 7.0m (width × height) of the water hole. Supported by the bottom of the vertical and

16、 horizontal chamber water distributed dissipation corridor-style, side walls within the main corridor width of 5m, high-7m. Chamber floor with vertical 4 horizontal 6 corridor, filling and emptying a maximum capacity

17、 of 287,000 m3. 3 # Ship Lock the bottom of the distribution system using distributed aspect of energy dissipation branch corridor cover types, two main corridors are 3m section × 4m, situated at the gate around

18、walls, floor support corridor chamber size 4m × 2m. III. EXPERIMENTAL APPARATUS AND EQUIPMENT Simulated the characteristics of organic matter degradation in turbulent flow during operation of Gezhouba lock. The

19、 turbulence-induced experimental device was a tank of length of 8 meters, width of 0.5 meters, height of 0.6 meters and the bottom slope of 1% , which is glass specially made and generally consistent with the actual s

20、ituations. The flow into the tank and through the two sections was determined by reducing the actual flow ratio of 100 times, the inlet section 1 was on behalf of the Yangtze River, and the inlet section 2 stood for

21、the Huangbaihe River, and the export section was the lock chamber, as shown in Figure 1. Along the flow direction Three Gorges University, Scientific Research Foundation for Talent KJ2009B005978-1-4244-5089-3/11/$26.00

22、©2011 IEEEwater level changes was significantly affected by conditions, and the biggest change, between 24.8cm and 36.7cm, appeared at section A, which is close to the water section.Fig.5 showed that, from 90min

23、to 120 min, under the affection of conditions, the water level of each water section risen at first and then got down. Fig2 Condition 2 state level luffing15 20 25 30 35 40 45 5030 60 90 120 150 180 210cmAsection Bsect

24、ion Csection DsectionFig3 Condition 3 state level luffing15 20 25 30 35 40 45 5030 60 90 120 150 180 210cmA斷面 Bsection Csection DsectionFig4 Condition 4 state level luffing15 20 25 30 35 40 45 50cmAsection Bsection Csect

25、ion DsectionFig5 90-120 min water level luffing curve20 30 40 5030 90 120 210Asection Bsection Csection DsectionC The hydrodynamic flow field By measuring the hydrodynamic flow pattern and flow rate in 4 conditions,

26、got Fig.7,8 , showing that the water flow in the corridors kept a speed from 0.50 m/s to 0.60 m/s, and the flow would slow down and turn into reflux or turbulence when the distribution system stopped. Ⅵ ON-SITE VE

27、RIFIC ATION A Measuring hydraulic parameters Under the operating condition of the Gezhouba Lock, the chamber’s hydraulic parameters were displayed in Table 3, by locating sections according to Figure 8, the channel

28、 hydrological speed were shown. Table 3 Gezhouba ship lock Hydraulic water system operation parameters measured related B Measurement of water level amplitude Laid 4 water level measuring points as shown in Figure 8,

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