A simulation analysis method for uneven de-icing of ice-coated transmission lines based on finite particle method

A transmission line, simulation analysis technology, applied in design optimization/simulation, special data processing applications, etc., can solve the problems of cumbersome iterative calculation, low solution efficiency, difficult to simulate, etc., to avoid the modeling process, high computational efficiency, suitable for wide range of effects

Active Publication Date: 2020-07-31
NANJING UNIV OF SCI & TECH
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Problems solved by technology

However, finite element software has many steps in modeling, and form finding is complicated, cumbersome and error-prone. Deicing analysis in different scenarios starts with modeling form finding, which is not easy to simulate a large number of scenarios; and complex nonlinear stiffness is formed when solving Matrix, the iterative calculation is cumbersome, the solution efficiency is low, and the calculation time is long

Method used

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  • A simulation analysis method for uneven de-icing of ice-coated transmission lines based on finite particle method
  • A simulation analysis method for uneven de-icing of ice-coated transmission lines based on finite particle method
  • A simulation analysis method for uneven de-icing of ice-coated transmission lines based on finite particle method

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Experimental program
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Embodiment

[0149] Select wire LGJ500 / 45, wire parameters and working condition settings are shown in Table 1:

[0150] Table 1 Conductor characteristic parameters and working conditions

[0151] parameter unit value cross-sectional area mm 2

531.68 Wire outer diameter mm 30 unit mass kg / m 1.688 Elastic Modulus MPa 65000 Calculate breaking force N 128100 initial tension N 23058 Horizontal span m 300 height difference m 0 Icing thickness mm 10

[0152] Perform 100% deicing at the full gear, simulate for 20s, and take the damping coefficient as 0.2. The results of the deicing jump height at the middle position of different methods are shown in Table 2:

[0153] Table 2 The jump height of each method

[0154] method Jump result (m) Calculation time (s) ANSYS 1.5878 / Finite Element Method 1.5904 602.6 finite particle method 1.5926 135.4

[0155] It can be seen fr...

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Abstract

The invention discloses an ice-accreted transmission line non-uniform deicing simulation analysis method based on a finite particle method; the method of the invention comprises the steps of initializing particle attributes, setting a path unit, performing transmission line ice accretion form-finding, setting a non-uniform deicing scene, and performing deicing dynamic analysis. In the method, non-uniform deicing simulation analysis for a transmission line is finished via solving of kinematic equations and update iteration of related quantities. The method of the invention enables the problem to be solved that modeling in existing finite element analysis software before transmission line dynamic analysis is complex and tedious, and can provide simulation for mass different complex scenes. The method of the invention is applicable to uniform and non-uniform ice accretions with or with no height differences, non-uniform deicing and other cases, is widely applicable, and has high computing speed.

Description

technical field [0001] The invention belongs to a method for simulating and analyzing uneven deicing of transmission lines, in particular to a method for simulating and analyzing uneven deicing of iced transmission lines based on the finite particle method. Background technique [0002] With the rapid development of my country's economy, the requirements for the power system are getting higher and higher. As an important part of the power grid system, transmission lines are the basis for ensuring the safety and stability of the power grid by performing various mechanical calculations and static and dynamic analysis on them. As a flexible cable structure, the transmission wire is only subjected to tension but not compression, and its low stiffness is easily affected by the outside world. As one of the common loads on the transmission wire, the icing load has a great impact on the safety of the transmission line. When the transmission wire deices and vibrates, the towers, ins...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F30/20
CPCG06F30/20
Inventor 谢云云黄琳雁宋雯雯陈晞吕友杰蔡胜李凯嵘陈佳欣卜京殷明慧姚娟邹云蔡晨晓张俊芳
Owner NANJING UNIV OF SCI & TECH
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