A reduced-scale equivalent physical experiment method for transmission lines
A technology for transmission lines and physical experiments, applied in the field of effective physical experiments, can solve problems such as not reflecting the characteristics along the line, and achieve the effect of ensuring equivalence
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Embodiment 1
[0085] like figure 1 As shown, the conductors of an AC 1000kV UHV transmission line are arranged in a triangle. Select the working frequency f as 10kHz, scale down 200 times, and select the scale-down scheme with constant conductivity of the wire, namely: N=200, N 1 =14.14,N 2 = 1, the circuit parameters before and after scaling are shown in Table 2.
[0086] Table 2. Triangular arrangement of conductors, circuit parameters before and after scaling when the scale is 200 times
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Embodiment 2
[0089] like figure 1 As shown, the conductors of an AC 1000kV UHV transmission line are arranged in a triangle. Select the working frequency f as 100kHz, scale down 2000 times, and select the scale-down scheme with constant conductivity of the wire, namely: N=2000, N 1 =44.72, N 2 =1, the circuit parameters before and after scaling are shown in Table 3. Use PSCAD simulation to verify the equivalence of the line before and after scaling. The original model and scaled model of the half-wavelength power transmission are as follows image 3 shown;
[0090] Table 3. Triangular arrangement of conductors, circuit parameters before and after scaling when the scale is 2000 times
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[0092] The voltage amplitude of the given voltage source line is 1000kV, the voltage amplitude of the two models is the same as the value of the load, and the load size is respectively selected to match the load value Z C , 0.5Z C , 2Z C , open circuit in four cases. The transmission line ...
Embodiment 3
[0095] like figure 2 As shown, the conductors of an AC 1000kV UHV transmission line are arranged horizontally. Select the working frequency f as 10kHz, scale down 200 times, and select the scale-down scheme with constant conductivity of the wire, namely: N=200, N 1 =14.14,N 2 =1, the circuit parameters before and after scaling are shown in Table 5.
[0096] Table 4 Load voltage under two models
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[0098] Table 5 Conductors arranged horizontally and scaled 200 times before and after scaled circuit parameters
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