A Voltage Support Control Strategy for Grid integrated Solar PV System During Abnormal Grid Conditions Utilizing Interweaved GI
Also Available Domains Solar Power Generation
Objective
Main objective of this project is control of active and reactive powers being fed into the grid network depending on requirements even during abnormal grid variations.
Abstract
In this project, a unique control strategy is presented for the control of solar Photovoltaic (PV) system interfaced to the grid utilizing an Interweaved Generalized Integrator (IGI). The main aspects for the control of grid integrated Voltage Source Converters (VSC) during abnormal grid variations are the control of voltage as well as power quality. During different irregular grid variations, the primary objective of control is to deliver the PV power to the grid. The system delivers power at a Unity Power Factor (UPF) during normal operation.
The profile of the PCC voltage is retained within prescribed limits by reactive power injection during variations in the grid voltage. In addition, during extreme voltage sags, LVRT activity is undertaken. In the absence of PV generation at night, the VSC and DC link capacitor act as a distribution static compensator, the usage of the system is increased. Unlike conventional control techniques, the systemβs power quality is not impaired. The achievements of the controller are demonstrated through simulation.
Keywords: Interweaved Generalized Integrator (IGI), LVRT, Power Quality, Solar PV Generation, Voltage Control.
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 / 4 GB (Min)
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 modular multilevel converter
- Introduction to multilevel inverters
- Introduction to Solar Panel
- Introduction to current control loop
- Introduction to MPPT Controller
- Introduction to voltage ripple compensation
- Introduction to open loop control
- Introduction to Solar Panel Companion Inverter
- Introduction to closed loop control
- Introduction to closed current controller
- Introduction to power electronics converters
- Introduction to phase locked loop (PLL)
- Introduction to parks transformation
- Introduction to Clarks transformation
- Design of inverse parks transformation
- Design of inverse Clarks transformation
- Introduction to PWM techniques
- Design of PLL
- Design of Solar Panel Companion Inverter
- Design of current controller
- Design of solar PV system
- Design of MPPT controller
- Design of DC β DC boost converter
- Design of bidirectional DC -DC converter
- Design of Voltage source converter
- We can learn about the generation of gate pulses to the cascaded H bridge Converter
- Introduction to open loop and closed loop control system
- Introduction to controllers
- Design of PI controller
- 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
Paper Publishing
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Disclaimer - Takeoff Edu Group Projects are not associated or affiliated with IEEE in any way. The IEEE Projects mentioned here are mentioned in the context of student projects, whose ideas are derived from IEEE publications, not projects of or by IEEE.
