Demonstrates methods for applying network theory to problem-solving techniques on large computers used by power industry engineers. It offers methods for solving short circuits, power flows, and transient stability in large power networks and introduces eigenvalues, eigenvectors, linear programming, and optimization methods. This updated edition contains new chapters on state estimation, optimum load flow, and economic dispatch.
Read More
Demonstrates methods for applying network theory to problem-solving techniques on large computers used by power industry engineers. It offers methods for solving short circuits, power flows, and transient stability in large power networks and introduces eigenvalues, eigenvectors, linear programming, and optimization methods. This updated edition contains new chapters on state estimation, optimum load flow, and economic dispatch.
Read Less