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Steady State Power Flow Calculations

Steady State Power Flow Calculations. Kevin Schneider, Chen-Ching Liu University of Washington Department of Electrical Engineering. Power Flow Information. Method used: Newton-Raphson. Assumptions: 1) Constant voltage at the shore stations 2) Constant direct current power loads

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Steady State Power Flow Calculations

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  1. Steady State Power Flow Calculations Kevin Schneider, Chen-Ching Liu University of Washington Department of Electrical Engineering

  2. Power Flow Information • Method used: Newton-Raphson Assumptions: 1) Constant voltage at the shore stations 2) Constant direct current power loads 3) Constant system topology

  3. Convergence Criteria • Sum of the differences of all node voltages between two iterations Example: Total Difference= .2+.3+.2+.1+.4= 1.2V

  4. Voltage Collapse • If PL exceeds the point of maximum power transfer the powerflow solution will not converge. • Operation beyond the Maximum Power Transfer Region must be avoided

  5. Sample Power Flow Calculations • Using the shown network topology 1) All nodes at 2.65 kW 2) All nodes at 4.3 kW 3) All nodes at 4.8 kW

  6. Results 1: 2650Watts per Node

  7. Results 2: 4300 Watts per Node

  8. Results 3: 4800 Watts per Node Voltage collapse occurs; the powerflow solution does not converge

  9. Questions?

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