Here you can download the Computer Techniques In Power System Analysis PDF Notes VTU of as per VTU Syllabus. Below we have list all the links as per the modules.

## Computer Techniques In Power System Analysis PDF Notes VTU

Please find the download links of Computer Techniques In Power System Analysis PDF Notes VTU are listed below:

**Link: Complete Notes**

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**PART – A**

**Link: Part A Notes**

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**UNIT – 1**

NETWORK TOPOLOGY: Introduction, Elementary graph theory – oriented graph, tree, co-tree, basic cut-sets, basic loops; Incidence matrices – Element-node, Bus incidence, Tree-branch path, Basic cut-set, Augmented cut-set, Basic loop and Augmented loop; Primitive network – impedance form and admittance form.

**Link: Unit 1 Notes**

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**UNIT – 2**

NETWORK MATRICES: Introduction, Formation of YBUS – by the method of inspection (including transformer off-nominal tap setting), by the method of singular transformation (YBUS = ATyA); Formation of Bus Impedance Matrix by step by step building algorithm (without mutual coupling elements).

**Link: Unit 2 Notes**

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**UNIT – 3 & 4**

LOAD FLOW STUDIES:Introduction, Power flow equations, Classification of buses, Operating constraints, Data for load flow; Gauss-Seidel Method – Algorithm and flowchart for PQ and PV buses (numerical problem for one iteration only), Acceleration of convergence; Newton Raphson Method – Algorithm and flowchart for NR method in polar coordinates (numerical problem for one iteration only); Algorithm for Fast Decoupled load flow method; Comparison of Load Flow Methods.

**Link: Unit 3 & 4 Notes**

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**PART – B**

**Link: Part – B Notes**

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**UNIT – 5 & 6**

ECONOMIC OPERATION OF POWER SYSTEM: Introduction, Performance curves, Economic generation scheduling neglecting losses and generator limits, Economic generation scheduling including generator limits and neglecting losses; Iterative techniques; Economic Dispatch including transmission losses – approximate penalty factor, iterative technique for solution of economic dispatch with losses; Derivation of transmission loss formula; Optimal scheduling for Hydrothermal plants – problem formulation, solution procedure and algorithm.

**Link: Unit 5 & 6 Notes**

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**UNIT – 7 & 8**

TRANSIENT STABILITY STUDIES: Numerical solution of Swing Equation – Point-by-point method, Modified Euler‟s method, Runge-Kutta method, Milne‟s predictor-corrector method. Representation of power system for transient stability studies – load representation, network performance equations. Solution techniques with flow charts.