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MODELING and TOOLS

  • TLine, Gen, Xfmr Estimators
  • TLine, Gen, Xfmr Code Creators
  • Generation Plant Modeling
  • Cable Parameter Estimator
  • ----------------- TOOLS -----------------
  • Compensated Bus ΔV
  • Interpolation Calculator
  • Ferranti Calculator
  • Line Dropping Calculator
  • Long Line Model Calculator
  • Motor Starting Calculator
  • Parallel Xfmr Flow Calculator
  • Power Factor Calculator
  • Phase-Shifting Xfmr Power Flow
  • PST Flicker Calculator
  • PU - Physical Calculator
  • PU Base Change Calculator
  • Series Capacitor Voltage Rise
  • Series Line Compensation
  • SIL Calculator & St.Clair Plot (us)
  • SIL Calculator & St.Clair Plot (metric)
  • Two Bus Line Flow Calculator
  • Test Report Calculator (2W)
  • Test Report Calculator (3W)
  • Δ - T - Δ Converter (3W)
  • Xfmr Tap Calculator
  • Z-Y Converter

Ferranti Effect Calculator

Lumped Line Parameters

Load

System |V1| = 1 θ1 = 0° |V2| = 1.0493 θ2 = -0.306° 0.00735 + j0.06851 Z' 0.00060 + j0.68620 Y'/2 0.00060 + j0.68620 Y'/2 0.51 140.62 0.45 72.00 0.07 75.55 0.00 0.00 0.06 68.62 0.07 75.55 P = 0.0 Q = 0.0
V_{2}\approx\frac{1}{\cos\left[\frac{2\pi fd}{c}\right]}

If the transmission line could be considered lossless...

the voltage rise does not depend on line parameters.

only depends on line length and frequency.

ferranti effect plot matplotlib logo
Defaults Ferranti Effect Explained
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