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Coursera

Load Flow Analysis

L&T EduTech via Coursera

Overview

This course is designed to provide a comprehensive analysis of various solution techniques available for load flow analysis of power system networks. Objectives By the end of this course, you will be able to: • Declare the need for model formulation of power system network and derive the model formulation equations of a network with suitable illustrations. (BL3) • Deduce the need and applications for tap changers in transformers and arrive at the representation of off nominal tap changing transformer with pi model equivalent circuit. (BL3) • Develop a comprehensive understanding of the formation of bus impedance and bus admittance matrices using appropriate techniques and illustrate with numerical examples. (BL4) • Illustrate the concept of graph theory in bus admittance matrix formation and discuss the sparsity in power systems. (BL4) • Discover the algorithm/flowchart of various numerical solution techniques such as Gauss-Seidel, Newton Raphson and Fast Decoupled algorithms used to obtain load flow solution of power system networks and examine a comparative analysis of these algorithms. (BL4) • Elucidate the concept of DC and AC-DC load flow equations and their solution with suitable algorithms and case study/examples. (BL4) This course provides a specialized focus on network model formulation and construction of network matrices, namely, bus admittance and bus impedance matrices supported with real time test system. The course touches upon the detailed procedure of applying iterative solution techniques such as Gauss-Seidel, Newton-Raphson, and Fast Decoupled methods to solve the load flow problem imbibed with demonstrations of live examples. The course stands out for its hands-on ETAP demonstrations, which is an industrial software used in power grid sectors, providing learners with practical skills in the field of power system design and analysis. To be successful in this course, you should have a background in basic electrical engineering principles, including knowledge of circuit analysis, electromagnetism, transmission and distribution of electrical power, per unit computation and modeling of power system components. Familiarity of any simulation packages such as MATLAB, POWER WORLD will be beneficial for hands-on exercises. By enrolling in this course, participants will not only gain theoretical knowledge but also practical skills that are directly applicable in the field of power system analysis and design Whether you're a student aspiring to enter the industry or a professional seeking to deepen your expertise, this course offers a unique blend of theoretical insights and hands-on applications, equipping you with the tools to excel in this dynamic field.

Syllabus

  • LOAD FLOW SOLUTION FOR POWER SYSTEM NETWORKS - PART - I
    • Let’s begin this course by understanding the network topology of a power system network and formation of network matrices namely bus admittance and bus impedance matrices, which finds application for various power system studies.
  • LOAD FLOW SOLUTION FOR POWER SYSTEM NETWORKS - PART - II
    • This module imparts knowledge on development of power flow equations in rectangular form and polar form and obtaining load flow solution for a given power system network using Gauss-Seidel and Newton Raphson iterative techniques.
  • LOAD FLOW SOLUTION FOR POWER SYSTEM NETWORKS - PART - III
    • This module aims to explore the Fast Decoupled Load Flow method, DC Load Flow Method and AC-DC Load Flow method through a structured algorithm/flowchart and suitable illustrations of interest.

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