Power Flow Control Solutions for a Modern Grid Using SMART Power Flow Controllers. Kalyan K. Sen
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СКАЧАТЬ symbols shown in the figure are

       Vs is the sending‐end voltage with a magnitude (Vs) and a phase angle (δs),

       Vr is the receiving‐end voltage with a magnitude (Vr) and a phase angle (δr),

       R′ is the line resistance in each section,

       X′L is the inductive reactance in each section of the line, and

       X′C is the line‐to‐ground (shunt) capacitive reactance in each section.

      The additional symbols shown in the figure are

       VXn is the natural voltage across the line reactance with a magnitude (VXn) and a phase angle (θVXn),

       VRn is the natural voltage across the line resistance with a magnitude (VRn) and a phase angle (θVRn),

       In is the natural line current with a magnitude (In) and a phase angle (θIn),

       Psn is the natural active power flow at the sending end,

       Qsn is the natural reactive power flow at the sending end,Figure 1-4 Power flow along a transmission line between sending and receiving ends.

        Prn is the natural active power flow at the receiving end,

       Qrn is the natural reactive power flow at the receiving end,

       R is the line resistance (R > 0 and represents a positive resistance), and

       X is the line reactance (X > 0 and represents an inductive reactance).

      The natural active and reactive power flows (Psn and Qsn) at the sending end are derived in Appendix B as

      (B‐12)equation

      and

      (B‐14)equation

      where

      (B‐13)equation

      and the power angle is given in Chapter 2 as

      (2‐27)equation

      The natural active and reactive power flows (Prn and Qrn) at the receiving end are

      (B‐21)equation

      and

      (B‐22)equation

      (2‐40)equation

      (2‐43)equation

      (2‐46)equation

      and

      (2‐48)equation

      where

      (2‐41)equation

Schematic illustration of (a) Electric grid: power flow along a lossless transmission line between sending and receiving ends; (b) equivalent an electrical machine; (c) equivalent an inverter.

      (2‐207)equation

      and

      (2‐208)СКАЧАТЬ