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Electrical Distribution System Analysis

Introduction to Electrical Distribution System

Components of Distribution System Substation and Busbar Layouts

Components of Distribution System and Feeder Configurations

Nature of Loads in a Distribution System

Load Allocation in a Distribution System

K Factors and Their Applications

Analysis of Uniformly Distributed

Lumping Loads in Geometric Configurations Rectangular

Lumping Loads in Geometric Configurations Triangular

Impedance of Distribution Lines and Feeders Part I

Series Impedance of Distribution Lines and Feeders Part II

Models of Distribution Lines and Cables

Modelling of Single-Phase and Three-Phase Transformers

Modelling of Three-Phase Transformers-Part I

Modelling of Three-Phase Transformers â€“ Part II

Modelling of Three-Phase Transformers â€“ Part III

Modelling of Three-Phase Transformers â€“ Part IV

Modelling of Step Voltage Regulators - Part I

Modelling of Step Voltage Regulators â€“ Part II

Modelling of Step Voltage Regulators â€“ Part III

Modelling of Step Voltage Regulators â€“ Part IV

Load Models in Distribution System - Part I

Load Models in Distribution System - Part-II

Modelling of Distributed Generation

Applications and Modeling of Capacitor Banks

Summary of Modelling of Distribution System Components

Backward/Forward Sweep Load Flow Analysis - Part I

Backward/Forward Sweep Load Flow Analysis - Part II

Direct Approach Based Load Flow Analysis - Part I

Direct Approach Based Load Flow Analysis - Part II

Direct Approach Based Load Flow Analysis - Part III

Direct Approach Based Load Flow Analysis: Weakly Meshed System

Gauss Implicit Z-matrix Method

Sequence Component Based Short Circuit Analysis

Thevenin's Equivalent and Phase Variable Based Short Circuit Analysis

Direct Approach for Short-Circuit Analysis: Introduction and LG Fault

Direct Approach for Short-Circuit Analysis: LLG and LLLG Fault

Direct Approach for Short-Circuit Analysis: LL Fault and Examples

Direct Approach for Short-Circuit Analysis: Weakly Meshed System

Applications of Distribution System Analysis

Description:

COURSE OUTLINE: The structure and load patterns of a power distribution system are significantly different than a transmission system. In addition, distribution systems are transitioning from passive to active with the adoption of distributed generation, storage, and smart-grid technologies. Therefore, the analysis tools developed for a transmission system will not be directly applicable to a distribution network. This course shall introduce the modeling of the components (feeders, distribution transformer, regulators, capacitors, loads, distributed generation, storage, etc.) and analysis methods (load flow, short-circuit, etc.), specially developed for the distribution system.

Electrical Distribution System Analysis

NPTEL

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#Engineering #Electrical Engineering #Telecommunications #Power Systems

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