Control of Photovoltaic Inverters for Transient and Voltage Stability Enhancement

Also Available Domains Solar Power Generation

Project Code :TEPGPS439

Objective

The main objective of this project is to , improve the transient stability and enhance the voltage stability of solar PV system.

Abstract

The increasing number of megawatt-scale Photovoltaic (PV) power plants and other large inverter-based power stations that are being added to the power system are leading to changes in the way the power grid is operated. In response to these changes, new grid code requirements establish that inverter based power stations should not only remain connected to the grid during faulty conditions but, also provide dynamic support. This feature is referred in the literature to as momentary cessation operation.

The few published studies about momentary cessation operation for PV power plants have not shed much light on the impact of these systems on the overall power system stability problem. As an attempt to address this issue, this project proposes a control scheme for PV inverters that improves the transient stability of a synchronous generator connected to the grid.

It is shown through the paper that the proposed control scheme makes the PV inverter's dc link capacitors absorb some of the kinetic energy stored in the synchronous machine during momentary cessation. Besides that, the proposed solution is also able to improve voltage stability through the injection of reactive power. simulation results are presented in order to demonstrate the effectiveness of the proposed control scheme.

Keywords: Photovoltaic generation, synchronous machine, transient stability, voltage stability.

NOTE: Without the concern of our team, please don't submit to the college. This Abstract varies based on student requirements.

Block Diagram

Specifications

Software Configuration:

Operating System : Windows 7/8/10

Application Software : Matlab/Simulink

Hardware Configuration:

RAM : 8 GB

Processor : I3 / I5(Mostly prefer)

Learning Outcomes

Introduction to Matlab/Simulink
What is EISPACK & LINPACK
How to start with MATLAB
About Matlab language
About tools & libraries
Application of Matlab/Simulink
About Matlab desktop
Features of Matlab/Simulink
Basics on Matlab/Simulink
Introduction to electrical machines.
We can learn about synchronous machine.
How to reduces LVRT ?
Design of moving average filter.
Design of PMU.
Introduction to solar power generation
Design of PV panel.
Design of MPPT.
Design of Voltage source converter
We can learn about the generation of gate pulses to the converter.
Introduction to controllers
Design of PI controller
We can learn about the Clarke’s transformation
We can learn about the park’s transformation
Introduction to open loop and closed loop control system
Project Development Skills:

Problem analyzing skills
Problem solving skills
Creativity and imaginary skills
Programming skills
Deployment
Testing skills
Debugging skills
Project presentation skills
Thesis writing skills

Demo Video

Power Systems

Solar Power Generation
Wind Power Generation
Power Quality
Hybrid Systems
Microgrids
Distribution Systems
HVDC

Power Electronics

DC - AC Converters
AC-DC Converters
AC-AC Converters
DC - DC Converters
Multilevel Converters

Electrical Drives

AC Drives
Electrical Vehicles
DC Drives