Power System Analysis-I

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    Power System Analysis-I

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    This unique application is for all students across the world. It covers 188 topics of Power system Analysis in detail. These 188 topics are divided in 5 units.

    Each topic is around 600 words and is complete with diagrams, equations and other forms of graphical representations along with simple text explaining the concept in detail.

    This USP of this application is "ultra-portability". Students can access the content on-the-go from anywhere they like.

    Basically, each topic is like a detailed flash card and will make the lives of students simpler and easier.

    Some of topics Covered in this application are:

    1. Introduction to development of Modern power system
    2. Introduction to Modern power system
    3. Basic Structure of a Power System
    4. Series Parameters of Transmission Lines
    5. Line Resistance
    6. Inductance of a Straight Conductor
    7. Internal Inductance
    8. External Inductance
    9. Inductance of a Single-phase Line
    10. Inductance of Three-Phase Lines with Symmetrical Spacing
    11. Inductance of Three-Phase Lines with Asymmetrical Spacing
    12. Transposed Line
    13. Composite Conductors
    14. Inductance of Conductor
    15. Bundled Conductor
    16. Shunt parameters of Transmission Lines
    17. Capacitance of a Straight Conductor
    18. Capacitance of a 1- Φ transmission line
    19. Capacitance of a Three Phase line with equilateral spacing
    20. Capacitance of three phase unsymmetrical space transmission line
    21. Capacitance of a double circuit line
    22. Effect of Earth on Capacitance of Transmission Line
    23. Synchronous Machine Model
    24. Transformer Model
    25. Balanced Operation of a Three Phase Circuit
    26. Per Unit Representation
    27. Network Admittance and impedance matrices
    28. Formation of Bus Admittance Matrix
    29. Node Elimination by matrix partitioning
    30. Node Elimination by Kron Reduction
    31. Inclusion of line charging capacitor
    32. Elements of the bus impedance and admittance matrices
    33. Modification of Bus Impedance Matrix
    34. Adding a new bus to the reference bus
    35. Adding a new bus to an existing bus through an impedance
    36. Adding Impedance between two Existing Buses.
    37. Direct Determination of Zbus Matrix
    38. Thevenin Impedance and Zbus Matrix
    39. Transmission Line Models
    40. ABCD Parameters
    41. Short Transmission Line
    42. Medium transmission Line
    43. Equivalent - Representation of a long line
    44. Nominal T Representation
    45. Characterization of a long lossless line
    46. Voltage and Current Characteristics of an SMIB System
    47. Mid Point Voltage and Current of Loaded Lines
    48. Power in lossless line
    49. Economic Operation Of Power System
    50. Economic Distribution of Loads between the Units of a Plant
    51. Generating limit
    52. Economic sharing of loads between different plants
    53. Automatic Generation Control
    54. Load Frequency Control
    55. Coordination between LFC And Economic Dispatch
    56. Load Flow Studies
    57. Real and reactive power injected in a bus
    58. Classification of Buses
    59. Preparation of data for load flow
    60. Load Flow by Gauss-Seidel Method
    61. Updating load bus voltage
    62. Updating P-V Bus voltage
    63. convergence of the algorithm
    64. Solution of a Set of Nonlinear Equations by Newton-Raphson Method
    65. Load Flow By Newton-Raphson Method
    66. Load flow Algorithm
    67. Formation of Jacobian Matrix
    68. Load Flow Results
    69. Load flow program in MATLAB
    70. Forming Ybus Matrix
    71. Gauss Seidel Load Flow
    72. Solving Nonlinear Equations using Newton-Raphson
    73. Newton-Raphson Load Flow
    74. Short Circuit Studies - Symmetrical Faults
    75. Transients in R-L Circuits
    76. DC Source
    77. AC Source
    78. Fault in an AC Circuit
    79. Short Circuit in an Unloaded Synchronous Generator
    80. Calculation of Fault Current Using Zbus Matrix
    81. Circuit breaker selection
    82. Symmetrical Fault in a Power System
    83. Symmetrical Components and Representation of Faulted Networks.
    84. Symmetrical Component Transformation
    85. Real and Reactive power

    All topics are not listed because of character limitations set by the Play Store.

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