A. G. Phadke scite author profile

In a large and dense power network, the transmission lines, the generators and the loads are considered to be continuous functions of space. The continuum technique provides a macro-scale analytical tool to gain an insight into the mechanisms by which the disturbances initiated by faults and other random events propagate in the continuum. This dissertation presents onedimensional and two-dimensional discrete models to illustrate the propagation of electromechanical waves in a continuum system. The more realistic simulations of the nonuniform distribution of generators and boundary conditions are also studied. Numerical simulations, based on the swing equation, demonstrate electromechanical wave propagation with some interesting properties. The coefficients of reflection, reflection-free termination, and velocity of propagation are investigated from the numerical results. Discussions related to the effects of electromechanical wave propagation on protection systems are given. In addition, the simulation results are compared with field data collected by phasor measurement units, and show that the continuum technique provides a valuable tool in reproducing electromechanical transients on modern power systems. Discussions of new protection and control functions are included. A clear understanding of these and related phenomena will lead to innovative and effective countermeasures against unwanted trips by the protection systems, which can lead to system blackouts. z ave : Per-length transmission line impedance (pu) of the uniform discrete ring system. xiii

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Anatomy of power system blackouts: preventive relaying strategies

Tamronglak¹,

Horowitz²,

Phadke³

et al. 1996

IEEE Trans. Power Delivery

176

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Anatomy of power system disturbances: importance sampling

Thorp

Phadke

Horowitz³

et al. 1998

International Journal of Electrical Power & Energy Systems

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Artificial Neural Networks in Power System Restoration

Bretãs

Phadke

2002

IEEE Power Eng. Rev.

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A. G. Phadke

State Estimation with Phasor Measurements

Electromechanical wave propagation in large electric power systems

Anatomy of power system blackouts: preventive relaying strategies

Anatomy of power system disturbances: importance sampling

Artificial Neural Networks in Power System Restoration

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