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Novel water turbine activity guide vane vertical surface gap optimizing method based on finite element analysis

A movable guide vane and finite element technology, applied in the field of vertical clearance optimization of hydraulic turbine movable guide vanes, can solve the problems of increased guide vane weight, blind and untargeted repair plan, etc., to save material costs and reduce water leakage , the effect of saving water resources

Active Publication Date: 2014-01-22
HARBIN ELECTRIC MASCH CO LTD
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Problems solved by technology

However, the effect of reducing water leakage is not very ideal, and the increase in the weight of the guide vane will inevitably lead to an increase in material costs, which is extremely unfavorable to guide vane manufacturers and power plants
The existing method for repairing the clearance of the façade of movable guide vanes is usually to remove 0-0.5mm thick material from bottom to top along the sealing line. Although the amount of water leakage can be reduced to a certain extent, the repair plan is blind and there is no Targeted, unable to meet the optimal design of guide vane facade clearance

Method used

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  • Novel water turbine activity guide vane vertical surface gap optimizing method based on finite element analysis
  • Novel water turbine activity guide vane vertical surface gap optimizing method based on finite element analysis
  • Novel water turbine activity guide vane vertical surface gap optimizing method based on finite element analysis

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Embodiment Construction

[0029] Such as figure 1 , figure 2 As shown, a new method based on finite element analysis for the optimization of the façade clearance of movable guide vanes of hydraulic turbines, the operation steps are as follows:

[0030] 1) Use commercial software to establish a three-dimensional model including two complete movable guide vanes of a water turbine, use the 20-node hexahedron element SOLID95 to divide the grid, and define the elastic modulus of the guide vane material as: 2.068e5MPa, Poisson's ratio 0.3;

[0031] 2) Establish contact elements in the movable guide vane head 4 and guide vane tail 7 and guide vane seal contact area 8, the unit types are CONTA174 and TARGE170;

[0032] 3) apply the degree of freedom coupling constraints at the corresponding positions of the two movable guide vane heads 4, and apply the degree of freedom coupling constraints at the corresponding positions of the two guide vane tails 7;

[0033] 4) Calculate the torsional moment acting on the...

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Abstract

The invention discloses a novel water turbine activity guide vane vertical surface gap optimizing method based on finite element analysis. The tail shape of a water turbine activity guide vane is modified, the activity guide vane vertical surface gap can be reduced effectively, and the problem that large amount of water leaks when a unit is shut down is solved. According to the method, a contacting unit is utilized to simulate deformation conditions of water turbine activity guide vane hydrostatic shut-down conditions, and a gap, between the head and tail seal lines of a guide vane, calculating method can be derived according to geometry structure and arrangement position of the activity guide vane. Uneven shape modifying is performed on the tail sealed position of the activity guide vane according to acquired a vertical surface gap distributing curve so as to guarantee that the amount of shape modifying and that of the gap are canceled and allow the shape-modified guide vane vertical surface gap to be minimum. By the aid of the method, water leakage amount can be reduced effectively when the guide vane is closed, a large amount of water can be saved, and huge economical benefits are provided to a plant; and meanwhile, material cost increase since a manufacturer blindly pursuits guide vane deformation amount reduction is avoided.

Description

Technical field: [0001] The invention relates to a new method for optimizing the vertical clearance of movable guide vanes of water turbines based on finite element analysis. Background technique: [0002] When the hydro turbine is closed in still water, the deformation of the movable guide vane is relatively large, resulting in an increase in water leakage. Especially for axial flow turbines, due to the particularity of its structure, the height of the movable guide vanes is relatively high, and the amount of deformation also increases accordingly, resulting in more obvious problems of excessive water leakage. The usual measures are to increase the diameter of the guide vane pivot, widen the airfoil of the hollow movable guide vane, or even use a solid guide vane. However, the effect of reducing the amount of water leakage is not ideal, and the increase in the weight of the guide vanes will inevitably lead to an increase in material costs, which is extremely unfavorable to...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F17/50
Inventor 刘晶石庞立军肖良李永恒陈光辉贾伟田超
Owner HARBIN ELECTRIC MASCH CO LTD
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