Volume 35,Issue 5,2012 Table of Contents

1 Stiffness analysis and experiments of marine gearbox

LIU Ming yong , ZHU Cai chao , DU Xue song , XU Xiang yang , LIU Wei hui , NING Jie , CAO Jian xin

2012, 35(5):1-6. DOI: 10.11835/j.issn.1000-582X.2012.05.001

[Abstract](2334) [HTML](0) [PDF 2.91 M](1117)

Abstract:
Based on correlate technique conditions of marine gearbox，it is proposed to take run out value of input and output couplings as the stiffness evaluation of marine gearbox. This new method is put forth on rated load by considering the deformation interrelationship in transmission of some main parts，such as shaft，bearing，gear and box. Finite element analysis of strength and deformation of marine gearbox under forward and backward conditions are conducted. Parameters，such as box and axis deformation，bearing and shaft block stiffness，etc. are obtained and run out value of input and output couplings is calculated. Experiments are carried out at gear drive test bench to verify the reliable of stiffness evaluation method. Compared with the experimental results，the error is in 11 %，which shows the proposed stiffness method is valid.

2 Rotating machinery fault diagnosis based on Elman neural network optimized by immune genetic algorithm

CHEN Fa fa , TANG Bao ping , HUANG Qing qing

2012, 35(5):7-13. DOI: 10.11835/j.issn.1000-582X.2012.05.002

[Abstract](1606) [HTML](0) [PDF 2.44 M](986)

Abstract:
As it’s difficult to get comprehensive fault information with traditional machine model in the interrelated process of fault knowledge in rotating machinery fault diagnosis，an immune genetic algorithm (IGA) is proposed to optimize Elman neural network. Fault vibration signals are decomposed into several stationary intrinsic mode functions (IMF) first，then the instantaneous amplitude energy of the IMF which has the fault characteristics are computed and regarded as the input characteristic vector of the Elman neural network optimized by IGA algorithm for fault classification. EMD decomposition adaptively isolates fault vibration signals from original signals. IGA algorithm has more superior performance on global optimization and convergence speed. So it can improve the fault diagnosis accuracy and the adaptive dynamic memory of the Elman neural network. The result of rolling bearings fault simulation experiments show that，compared with traditional fault diagnosis model，the proposed method significantly improves the diagnostic accuracy and generalization ability of the typical failure of the rolling bearings.

3 Numerical simulation on phasing strategy for a gasoline engine with continuously variable intake camshaft

ZHANG Li , SHANG Hui chao , YUAN Zhi qiang , MA Wei , FU Qiu bo , CHEN Ming fei

2012, 35(5):14-21. DOI: 10.11835/j.issn.1000-582X.2012.05.003

[Abstract](2022) [HTML](0) [PDF 4.43 M](957)

Abstract:
Intake camshaft equipped with continuously adjustable cam phasing units is applied to a 486Q gasoline engine. Phasing strategies are researched through engine cycle simulation to achieve superior engine performance. The simulation results show that at high load and low and moderate speed of the engine，phasing adjustment can lead to 6% to 8% increase in power performance because phasing advance contributes to suppressing intake backflow at IVC(intake valve closed). Cam phases obtained from numerical optimization have good agreement with engine test. At moderate load，cycle simulations show that phasing advance can increase residual gas coefficient from 9% to 20%，and reduce NO emission by 80%，BSFC(brake specific fuel consumption) by 2% at a demonstration operation. With regard to fuel economy and emissions，adjustment and optimization of intake phasing at moderate load are further verified by engine test. At low load，technical approaches to enhance combustion stability，reduce HC emission and improve cold start are investigated. The effectiveness of suppressing exhaust backflow into intake duct by phasing retard is testified by simulation. Phasing changes at the operating condition are optimally obtained by engine test for improvement of combustion stability.

4 Dynamics simulation of compacting mechanism for multi function paver

LUO Wen jun , LUO Tian hong , GAN Xin fu

2012, 35(5):22-28. DOI: 10.11835/j.issn.1000-582X.2012.05.004

[Abstract](2539) [HTML](0) [PDF 2.94 M](1061)

Abstract:
To solve the problem that single eccentric vibrator causes horizontal direction force，a double eccentric vibrator is proposed and differential equations of the 4 DOF vibration system of the compacting mechanism are established to analyze the system’s natural frequencies. The state space model of compacting mechanism is constructed and the parameter variety’s influence of tamper，vibrator and compacting beam on the dynamic characteristics is analyzed by MatLab/Simulink. The results indicate that double eccentric vibrator provides double pressure，and the system’s natural frequency reduces while the quality of screed increases. Besides，the parameters of compacting beams and tamper have more influence on the dynamic characteristics of compacting mechanism than that of vibrator. Therefore，the parameter adjustment of tamper and compacting beam should be paid more attention to obtain optimal effect.

5 Resource matching mode of collaborative manufacturing process for outsourcing planning of equipment products

GUO Gang , SHEN Lei , YANG Lian xing , XU Jian ping

2012, 35(5):29-34. DOI: 10.11835/j.issn.1000-582X.2012.05.005

[Abstract](1866) [HTML](0) [PDF 2.31 M](972)

Abstract:
To solve the problems of outsourcing planning matching with outsourcing resource and outsourcing process monitoring，outsourcing parts of collaborative manufacture mode based on project manufacturing management mode is put forward. The mode involved collaborative manufacturing resource capacity model，outsourcing plans and promises resources matching matrices based on constraints of time and resource，outsourcing planning and resource conflict resolution model can improve the feasibility of the outsourcing planning，resource matching and execution effectively and guarantee the outsourcing plans completed on time.

6 Empirical analysis on blast furnace fault diagnosis method based on ontology

CHEN Guo rong , YAN Ping , CHEN Yan hua , SHI Jin liang , DENG Ju li

2012, 35(5):35-39. DOI: 10.11835/j.issn.1000-582X.2012.05.006

[Abstract](1657) [HTML](0) [PDF 2.09 M](1016)

Abstract:
Blast furnaces’ maintenance records of mechanical fault contain great amount of information which is useful to identify the similar fault，but the structural representation and the knowledge reasoning problem prevent us to use the records effectively. Aiming at the problem，a blast furnace fault knowledge representation based on ontology is proposed. Blast furnaces’ knowledge characteristics，ontology building significance and principle of fault are analyzed，and the four factors of BF cause，BF phenomenon，BF ways，Blast furnace in blast furnaces’ mechanical fault diagnosis are brought out. The fault ontology frame of BFClass，BFProperties，BFIndividuals，BFRelationships，BFDomain are defined and described in detail. The applications of fault diagnosis ontology are studied in protégé. The case study shows that the fault knowledge representation based on ontology is very intuitive and efficient，and it provides a novel way to deal with the blast furnace fault diagnosis problem.

7 A method for feature contour extraction of triangular meshesbased on multi seed points

TANG Xian zhi , YANG Gang sheng , LIU Fei

2012, 35(5):40-46. DOI: 10.11835/j.issn.1000-582X.2012.05.007

[Abstract](1806) [HTML](0) [PDF 3.27 M](967)

Abstract:
An algorithm for extracting feature curves of triangular meshes based on multi seed points is proposed. First, feature contour positions of triangular meshes are detected on the basis of curvature value and normal vector, and these positions are highlighted with difference colours. Then, several seed points on the proper position are assigned and their feature attributes are computed. Next, their node assessment functions are constructed and correct path nodes are chosen. Finally, the curves extracted from the triangular meshes are smoothed. Experimental results show that the method is not only effective to extract closed feature curves and sharp edges, but also useful for opened feature curves and the region that the features change gently. It has higher accuracy than other methods to detect feature at the branch feature regions.

8 Corrosion image recognition andcorrosion behavior analysis of AZ40 magnesium alloy

LIU Li ping , LI Ling jie , LEI Jing lei , HE Dong hai , LI Fang jun , ZHANG Sheng tao , PAN Fu sheng

2012, 35(5):47-51. DOI: 10.11835/j.issn.1000-582X.2012.05.008

[Abstract](2649) [HTML](0) [PDF 2.17 M](1082)

Abstract:
The corrosion behavior of AZ40 magnesium alloy is studied based on image recognition technique. The corrosion images of AZ40 magnesium alloy in simulated sea water are pre processed by median filter and histogram equilibrium methods. The mathematical morphology and wavelet transformation are used to analyze the pre processed images. Three parameters, the grayscale distribution variance, foreground area of binary image and energy feature are extracted to describe the corrosion behavior of AZ40 magnesium alloy comprehensively and exactly. Results indicate that the natural oxide film on the magnesium alloy’s surface is destroyed by corrosive medium, which makes the corrosion resistance decrease. The corrosion starts from local area, spreads rapidly and develops into general corrosion. Insolvable corrosion products precipitate slowly and provide little protection to the alloy in short period. However, after long time precipitation, the insolvable corrosion products can increase the corrosion resistance and provide protection.

9 BP neural network and genetic algorithm for thefilling properties optimization of crankshaft

ZHOU Jie , LU Xian zheng , SHU Rui zhi , LING Jun

2012, 35(5):52-56. DOI: 10.11835/j.issn.1000-582X.2012.05.009

[Abstract](1868) [HTML](0) [PDF 1.55 M](1023)

Abstract:
The structure of wedge flash is proposed to improve the filling properties for deep cavity structure of crankshaft die with dimensional splitting mold. BP genetic algorithm is applied to optimize the structure parameters of wedge flash based on Matlab. Samples which are selected by orthogonal test are analyzed via FEM, and the minimum unfilled distance obtained are employed to conduct the BP neural network training. Then the optimum parameters with minimum unfilled distance are gained from genetic algorithm. Error between the parameters predicted and the results get from simulations is less than 5%. The productive practice indicates that the cavity is fully filled and the material utilization ratio increases from 75.7% to 81.4%, which confirms the correctness of optimization of wedge flash structure.

10 The Taylor series multipole boundary element method (TSM BEM)and its applications in rolling engineering

CHEN Ze jun , XIAO Hong

2012, 35(5):57-63. DOI: 10.11835/j.issn.1000-582X.2012.05.010

[Abstract](2065) [HTML](0) [PDF 5.94 M](1004)

Abstract:
The fast multipole boundary element methods (FM BEMs) are developed by means of the multipole expansions in conjunction with the implicit solution GMRES (generalized minimum residual method) of linear system arising from BEM. The Taylor series multipole boundary element method (TSM BEM) updates the solution mode of conventional BEM, enhances the computational efficiency rapidly, and enlarges the scale of solution. The development and research status of TSM BEM are introduced, the basic ideas and principles are described, and the classify methods are presented. The Taylor series expansions for fundamental solutions and basic procedures of boundary elements integrals are presented for multipole BEM. The numerical method is applied to rolling engineering. The elastic deformation of rollers and the contact and deformation analysis of HC mill roll system are provided. The numerical example demonstrates that the TSM BEM is suitable for the solution of large scale rolling engineering problems.

11 Drying shrinkage characteristics of alkali slag cement mortar

CHEN Ke , YANG Chang hui , PAN Qun , ZHAO Shuang , YU Ze dong

2012, 35(5):64-68. DOI: 10.11835/j.issn.1000-582X.2012.05.011

[Abstract](1940) [HTML](0) [PDF 1.02 M](1149)

Abstract:
The drying shrinkage characteristics of alkali slag cement mortar from the view of irreversibility are studied. It is found that the shrinkage of alkali slag cement mortar water curing after drying is significantly greater than that of OPC mortar which is cured under the same conditions. The drying shrinkage (14 d) of alkali slag cement mortar activated with NaOH solution and water glass is respectively 5.5 and 2.2 times of those of OPC mortar. Moreover, the majority of drying shrinkage of alkali slag cement mortar is irreversible, and the proportion of this part is up to 86%(activated with water glass) and 68%(activated with NaOH solution).

12 An improved dynamic model of transformer hotspot temperature based on top oil temperature

CHEN Wei gen , SU Xiao ping , ZHOU Qu , PAN Chong , XIE Bo

2012, 35(5):69-75. DOI: 10.11835/j.issn.1000-582X.2012.05.012

[Abstract](2647) [HTML](0) [PDF 1.89 M](1222)

Abstract:
The winding hot spot temperature of the oil immersed power transformer is an important parameter. It has a great influence on the transformer insulation aging and a close relationship with the transformer top oil temperature. The changes of non linear thermal resistance, open circuit impedance, and oil viscosity and winding losses with temperature are also taken into account. An improved model added on the transformer top oil temperature to calculate transformer winding hot spot temperature by using the viscosity and loss correction factors is proposed. Model parameters are estimated by Levenberg Marquardt method. In the end, by comparing with the measured data tested under different conditions, the model shows good consistency under underload (90%), rated load (100%) and overload (110%) conditions respectively, and describes the temperature variation more accurately in the dynamic loading profiles.

13 Strategy and implementation of resolve overlapping spectra based on curve fitting

HU Yao gai , ZHANG Xiao xing , ZHAO Zheng yu , FENG Bo

2012, 35(5):76-82. DOI: 10.11835/j.issn.1000-582X.2012.05.013

[Abstract](3161) [HTML](0) [PDF 1.84 M](1198)

Abstract:
Aming at the overlapping peaks in spectrum analysis, a novel method of curve fitting based on Gaussian function is presented to resolve the overlapping peaks. The theory of curve fitting is introduced firstly, and then an algorithm is proposed based on both the minimum separable peak peak interval and the curve fitting error. In the peak positioning, a gradually strict strategy is introduced to exclude the fake peaks. The resolution of several kinds of overlapping peaks with computer simulated noise has been performed and discussed in details. The calculated results indicate that the peak positions can be extracted effectively, even in the case of serious overlapped, and clearly show the effectiveness of the proposed method.

14 Modeling and simulation of the upper limb artery system using three section electric network model

HE Wei , XIAO Han guang , LIU Xing hua

2012, 35(5):83-88. DOI: 10.11835/j.issn.1000-582X.2012.05.014

[Abstract](1705) [HTML](0) [PDF 2.17 M](970)

Abstract:
A three section electric network model is built for human upper limb arterial system according to the Windkessel model. Blood pressure waveform of brachial artery is inputted into the electric network model. The state space equations of the electric network model are refined by using the state space analysis and solved numerically by the fourth order Runge Kutta method to obtain the blood pressure and flow waveform of radial artery. Effects of changes of the electric network model’s parameters on the blood pressure and flow waveform are also analyzed in normal and different pathological conditions(arteriosc lerosis and hypertension). The results of simulation show that the parameters of the model can well reflect the physiological significations of the upper limb arterial system; the analytic and computational methods are of fairly high precision and fast convergence for the model; and the model can simulate effectively the hemodynamic characteristics of upper limb arteries under normal and different pathological conditions.

15 Hierarchical control method of low voltage looped microgrid

ZHOU Nian cheng , WU Jian xiong , FU Peng wu , WANG Qiang gang

2012, 35(5):89-96. DOI: 10.11835/j.issn.1000-582X.2012.05.015

[Abstract](1978) [HTML](0) [PDF 5.52 M](1146)

Abstract:
The low voltage (LV) looped microgrid has high reliability of power supply and good accessibility of the DG. The medium voltage distribution network with single loop network and multi sectioned & multi linked is studied to analyze the wiring mode of the LV looped microgrid. A research on the two hierarchical control scheme of the looped microgrid is conducted, and the sub microgrid, which meets island operation requirements, is divided according to their segments. Then the incidence matrix is formed based on the connection relation of different segments and components, and the plan for switching the microgrid operation status is concluded from the reform of incidence matrix on the basis of the judgment of island and reconnection segments. A resynchronization strategy using microgrid central controller is proposed. The MATLAB/SIMULINK simulation software is used to analyze the dynamic characteristics of different operation status switching and synchronizing, and the results verify the effectiveness and correctness of the proposed control method.

16 Analysis on mechanical characteristic of coarse and fine particles layered structure of tailings

ZHANG Qian gui , YIN Guang zhi , ZHOU Yong kun , JING Xiao fei , JIANG Chang bao

2012, 35(5):97-102. DOI: 10.11835/j.issn.1000-582X.2012.05.016

[Abstract](2169) [HTML](0) [PDF 2.94 M](1120)

Abstract:
Indoor triaxial tests and direct shear tests are adopted to study the mechanical characteristic of coarse and fine particle layered structure of tailings, including two and three layer structures, and the influence of the change of lay thickness is taken into account. Triaxial tests results show that hierarchical structure’s cohesions, generally, are lower than those of fine and coarse particle tailings, and internal friction angles are between the fine and coarse particle tailings’. For the two layer structure, the specimen’s cohesion reduces and internal friction angle increases with the increase of coarse particle tailings’ layer thickness. For the three layer structure, when the coarse particle tailing is the interlayer, the specimen’s cohesion reduces with the increase of interlayer thickness; while when the fine tailing is the interlayer, the specimen’s internal friction angle decreases with the increase of interlayer thickness. Direct shear tests results show that hierarchical structure’s cohesions and internal friction angles are all lower than those of coarse and fine particle tailings.

REN Song , CHEN Jie , JIANG De yi , YANG Chun he , LIU Chun

2012, 35(5):103-108. DOI: 10.11835/j.issn.1000-582X.2012.05.017

[Abstract](1850) [HTML](0) [PDF 2.44 M](1019)

Abstract:
A similar model experimental platform of flow field in construction period of salt caverns is established based on the similar theory of “selected laws of physics”. The movement rule of flow field in cavity construction period is analyzed by systematic experiments with staining. It finds that the brine migration in reverse circulation of cavity construction can be divided into 6 role zones: buoyant plume zone, convection diffusion zone, buffer diffusion zone, saturated precipitation zone, border dissolution zone and waterfall flow zone. The increase of water injection flow rate accelerates its influence scope and spread speed, but the brine’s movement trend cannot be changed. The change of tube pitch and its spatial location changes the influence scope of water injection flow. Promoting the tube pitch makes the influence scope of fresh water upward, which accelerates the dissolution of upper salt rock. Interlayer changes not only the state of water injection flow, but also the state of boundary mass flow. The more the number of sandwich, the more complex the motion state and the concentration distribution of brine are. With the expansion of the cavity, the relative influence scope of the injection flow and the boundary mass flow become small, and injection water flow’s influence scope gradually goes upward.

18 Experimental analysis of matrix shrinkage’s influence on mechanical permeability of gas filled coal

PENG Shou jian , XU Jiang , YIN Guang zhi , JIANG Chang bao , YANG Hong wei

2012, 35(5):109-114. DOI: 10.11835/j.issn.1000-582X.2012.05.018

[Abstract](2242) [HTML](0) [PDF 1.11 M](1238)

Abstract:
Based on the coal seam of Zhao zhuang coal mine and Si he coal mine belong to Jin cheng anthracite Mining Group in Shanxi province, by using the self developed three axial servo controlled seepage equipment for hot fluid solid coupling of coal containing methane, parallel experiments for permeability of helium and methane under different gas pressures are carried out to quantitatively study the influence of Klinkenberg effects on the permeability of coal. Meanwhile, the problem of permeability decreasing caused by fluid pressure decreasing and gas desorption is eliminated by controlling the effective stress. The results show thatthe Klinkenberg effect is obvious under low gas pressure. With the increase of gas pressure, the permeability of coal decreases at first and then increases. The inflection points of gas pressure for Klinkenberg effect are about 0.9 MPa both for coal samples in Zhao zhuang coal mine and Si he coal mine. When the effective stress is constant, with the increase of gas pressure, the permeability increment caused by Klinkenberg effect decreases, while permeability increment caused by coal matrix shrinkage increases. Coal matrix shrinkage has a close relationship with the mechanical properties of coal rock mass. For the coal sample with a poor mechanical property, coal matrix shrinkage is more obvious.

19 Laboratory investigation on stress sensitivity of carbonate reservoir considering vuggy connectivity

LI Song , KANG Yi li , LI Da qi , YOU Li jun , YAN Feng ming

2012, 35(5):115-120. DOI: 10.11835/j.issn.1000-582X.2012.05.019

[Abstract](1574) [HTML](0) [PDF 2.78 M](1060)

Abstract:
Due to the changes of pressure, fractures intersected with borehole open and stress sensitivity happens in the progress of drilling, which make the diameters of solid materials unmatched to the loss channels and aggravates mud loss controlling. The existence and connectivity of vugs affect the variation range of fracture width. Carbonate outcropping core samples with different vug types are taken as laboratory subject. Experimental results including 6 groups rock samples shows that stress sensitive coefficients of the single vug(5 mm), single vug(10 mm), double vugs(5 mm, disconnected), double vugs(5 mm, connected), double vugs(10 mm, disconnected), double vugs(10 mm, connected) core samples are respectively 0.66, 0.59, 0.47, 0.24, 0.66, 0.43, and the degree of stress sensitivity is respectively medium to strong, medium to strong, medium to weak, weak, medium to strong, medium to weak. It shows that the vugs intensify the rangeability of fracture width and the stress sensitivity. Though the vuggy connectivity weakens the stress sensitivity of fractures, it destabilizes the plugged zone and fails in lost circulation controlling, which causes severe lost circulation.

20 AHP and fuzzy mathematical method to assess the potential of cleaner production of electroplating enterprises

XIONG Wen qiang , YING Gang , WANG Li li

2012, 35(5):121-125. DOI: 10.11835/j.issn.1000-582X.2012.05.020

[Abstract](1853) [HTML](0) [PDF 1.30 M](1007)

Abstract:
Electroplating industry is a high energy consumption and high pollution industry, thus promoting cleaner production is very necessary. Assessing the potential of cleaner production is very important and it is the foundation. AHP (analytic hierarchy process) method combined with fuzzy mathematics is adopted to establish a cleaner production potential assessment model. The potential of cleaner production is assessed by the model and the result is validated through case evidence.

21 Cavern type airflow control technology of mine

WANG Hai ning

2012, 35(5):126-131. DOI: 10.11835/j.issn.1000-582X.2012.05.021

[Abstract](1628) [HTML](0) [PDF 1.84 M](1170)

Abstract:
The traditional methods of airflow controlling and the layout forms of mine air curtain are introduced. It defines cavern type airflow control device—the mine air curtain, which is installed in the side chamber of mine tunnel, could cut off airflow as flexible damper, increase resistance to airflow reduction as flexible wind window, and eject airflow as cavern type accessorial fan or fan ventilator station. Field application results show that the airflow partition rate of flexible damper reaches 85%〖XC半字线.tif,JZ〗88%. The flexible wind window can effectively increase airflow resistance in transport tunnel. The airflow ejected by cavern type accessorial fan or fan ventilator station reaches 30〖XC半字线.tif,JZ〗40 m 3/s. In transportation tunnel where a damper, a wind window, an accessorial fan or a fan ventilator station are difficult to be set up, the cavern type airflow control device in mine can effectively control airflow short circuit, airflow reverse and airflow cycle, increase or decrease of roadway ventilation. It can strengthen the blasting fume and dust exhaust through stage ventilation network, protect workers healthy, and improve the efficient ventilation rate to promote the mine airflow. The technology boasts wide application prospect.

22 Finite element analysis for the structure of large crystallizer

LI Hao , YUAN Xue dong

2012, 35(5):132-136. DOI: 10.11835/j.issn.1000-582X.2012.05.022

[Abstract](1841) [HTML](0) [PDF 2.57 M](1044)

Abstract:
Crystallizer is a key equipment of the 1.2 million tons production line. It is a complicated shell structure and a large but thin machine. The power mixing process is a typical property of the crystallizer. So the structure reliability and the modal of crystallizer should be analyzed. The structure strength, safety coefficient and multi modal are analyzed by COSMOS which is large scale finite element software. The results show that the static strength of the support part meets the requirement, the weakest part of the crystallizer is the weld point, the steel beam with the equivalent stress is 260 MPa, safety coefficient is 1.243 and the stability of crystallizer main structure under dynamic disturbance meets the requirements, thus resonance doesn’t occur.

23 Analysis on the effect of runoff retention and pollution load control for two vegetation roofs during rainfall events

WANG Shu min , HE Qiang , SUN Xing fu , WANG Zhen tao

2012, 35(5):137-142. DOI: 10.11835/j.issn.1000-582X.2012.05.023

[Abstract](1831) [HTML](0) [PDF 1.32 M](1105)

Abstract:
In order to understand the effect of runoff retention and pollution load control for vegetation roofs during rainfall events, the evaluation criterion of vegetation roof performance is redefined and two vegetation roofs are established artificially based on the code for the design of roof greening, which is investigated during rainfall events. Results show that ophiopogon japonicus roof can delay the production of runoff by 25〖XC半字线.tif,JZ〗48 min compared to the rain occurring and retention runoff volume by 40%〖XC半字线.tif,JZ〗58%, while sambucus dhinensis roof can make the generation of runoff 60〖XC半字线.tif,JZ〗130 min later than the rain beginning and runoff volume retention can be as high as 54%〖XC半字线.tif,JZ〗80%. In addition to PO 3-4 P, the reduction of pollution load of NO -2 N, NH3 N, TP, COD, TN and NO -3 N by both vegetation roofs can reach 95.1%〖XC半字线.tif,JZ〗98.6%, 87.2%〖XC半字线.tif,JZ〗93%, 72.4%〖XC半字线.tif,JZ〗83%, 76%〖XC半字线.tif,JZ〗81.8%, 68.7%〖XC半字线.tif,JZ〗78.4% and 40.9%〖XC半字线.tif,JZ〗60.6% respectively. The level of pH, COD, NH3 N and TP in vegetation roofs runoff can meet class Ⅲ surface water standard. Meanwhile, both vegetation roofs have similar effect in neutralization acid deposition (i.e., from 5.8〖XC半字线.tif,JZ〗6.0 (in rain water) to 7.0〖XC半字线.tif,JZ〗7.6 (in eco roof runoff water)). Plants grown on vegetation roofs can influence the performance of vegetation roofs. Based on the results, ophiopogon japonicus has an advantage of sambucus chinensis in controlling phosphorus pollution, while sambucus chinensis manifests better in reducing nitrogen load. Vegetation roofs are becoming an important urban landscape more and more, and study results in this paper provide references for the improvement of vegetation roofs construction and more reasonable evaluation of their running performance.

24 1D hydrodynamic model on Pengxi (Xiaojiang) River Backwater Area in the Three Gorges Reservoir

LI Zhe , GUO Jin song , FANG Fang , LONG Man , LIU Zhi ping , GAO Xu

2012, 35(5):143-150. DOI: 10.11835/j.issn.1000-582X.2012.05.024

[Abstract](2977) [HTML](0) [PDF 3.96 M](1110)

Abstract:
A 1D hydrodynamic model on Pengxi Backwater Area (PBA) in the Three Gorges Reservoir during its preliminary operation period (2007 2008) is set up based on HEC RAS. In the large submerged area or water fluctuation zone, virtual levee is set up in the model between the conveyance channel and the storage area. The Manning’s n in PBA is calibrated and selected in the range of 0.27〖XC半字线.tif,JZ〗0.35. Calibrated model has good modeling results. Quasi Steady simulation approach is applied to calculate 1D hydrodynamic condition in the PBA during the study period. Analysis on the hydrodynamic condition in the PBA show that in the low water level operation stage, average velocity of upper reach in PBA will exceed 0.5 m/s, which is close to natural river. The Gaoyang Lake is formed as a relative independent and semi closure dam lake in the middle reach of PBA. Due to the enlarged cross section, the velocity at downstream of PBA is significantly decreased. In the high water level operation stage, no remarkable difference of velocity among cross sections in the PBA, indicating a significant hydrological characteristic of deep river based reservoir. The variation of reservoir capacity and hydraulic retention time in the PBA is 8.26×10 8〖XC半字线.tif,JZ〗2.51×10 8 m 3 and 157.0〖XC半字线.tif,JZ〗3.8 d respectively. The variation of reservoir capacity in PBA is impacted by the water level fluctuation more significantly. The hydraulic retention time in the PBA is impacted by both and river discharge dually. Frequency analysis show that 17.8% of hydraulic retention time data in the PBA is showed to be overflow reservoir type and 82.2% of that data showed to be transition type.

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