Icing shape test-based overhead power transmission line galloping prediction method and system
An overhead transmission line and forecasting method technology, applied in the field of power transmission and distribution, can solve the problems of high cost, short warning time, limited precision and accuracy, etc. Effect
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Embodiment 1
[0026] This embodiment discloses a method for predicting galloping of overhead transmission lines based on ice-covered shape tests, such as figure 1 shown, including:
[0027] Step S1, building an artificial climate chamber. Among them, the wind speed v, temperature t, and rainfall p of the artificial climate chamber are controllable.
[0028] Step S2: Carry out ice coating shape tests of different line structures under different meteorological conditions in the artificial climate chamber, and obtain observation records. Specifically, it is to obtain the observation records of the average conductor ice thickness H, the conductor maximum ice thickness L, and the conductor minimum ice thickness S changing with time T under different meteorological conditions and line structure conditions, denoted as C, C i =[H i , L i , S i ,T i ]; where, i is the serial number of the observation record.
[0029] Step S3, draw the growth curve of the ice thickness according to the observa...
Embodiment 2
[0036] Corresponding to the above-mentioned method embodiments, this embodiment discloses a system for galloping prediction of overhead transmission lines based on icing shape tests, which at least includes the following first to fourth processing units.
[0037] The first processing unit is used to carry out ice coating shape tests of different line structures under different meteorological conditions in an artificial climate chamber with controllable wind speed v, temperature t, and rainfall p, and obtain the average ice coating of conductors under different meteorological conditions and line structure conditions Observation records of thickness H, wire maximum ice thickness L, wire minimum ice thickness S changing with time T, denoted as C, C i =[H i , L i , S i ,T i ]; where, i is the serial number of the observation record.
[0038] The second processing unit is used to draw the ice thickness growth curve based on the observation records of the artificial climate cham...
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