Grid voltage regulation of a PMSG based RAPS using hybrid energy storage
Standalone operation of a wind turbine generating system is a challenging task, especially with intermittent wind and load conditions. This project develops a mathematical model for a standalone PMSG based wind energy system with HESS and its corresponding MATLAB model for voltage and frequency co...
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| Online Access: | http://hdl.handle.net/10356/71949 |
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sg-ntu-dr.10356-719492023-07-07T15:42:32Z Grid voltage regulation of a PMSG based RAPS using hybrid energy storage Shrikant, Kulkarni Siddhi Abhisek Ukil School of Electrical and Electronic Engineering DRNTU::Engineering::Electrical and electronic engineering Standalone operation of a wind turbine generating system is a challenging task, especially with intermittent wind and load conditions. This project develops a mathematical model for a standalone PMSG based wind energy system with HESS and its corresponding MATLAB model for voltage and frequency control of the load. The MATLAB model includes sub-modules for the wind turbine, the PMSG, the boost converter, the HESS, the HESS control mechanism and the SPWM inverter control. The HESS is composed of a battery and a supercapacitor to cater to fast changing loads and gradual load changes. The boost converter and the HESS control the DC-grid voltage for the inverter. A dynamic RL load is used to emulate a stand-alone system. This report systematically analyses the mathematical model along with the MATLAB Simulink models and presents test scenarios with changing wind speed and dynamic loading to test the model implemented. Through simulation studies carried out it has been demonstrated that the proposed control methods are capable of a) robust voltage and frequency regulation, b) effective management of the energy storage system. Bachelor of Engineering 2017-05-23T05:04:50Z 2017-05-23T05:04:50Z 2017 Final Year Project (FYP) http://hdl.handle.net/10356/71949 en Nanyang Technological University 47 p. application/pdf |
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DRNTU::Engineering::Electrical and electronic engineering Shrikant, Kulkarni Siddhi Grid voltage regulation of a PMSG based RAPS using hybrid energy storage |
| description |
Standalone operation of a wind turbine generating system is a challenging task, especially with
intermittent wind and load conditions. This project develops a mathematical model for a standalone PMSG based wind energy system with HESS and its corresponding MATLAB model
for voltage and frequency control of the load. The MATLAB model includes sub-modules for
the wind turbine, the PMSG, the boost converter, the HESS, the HESS control mechanism and
the SPWM inverter control. The HESS is composed of a battery and a supercapacitor to cater
to fast changing loads and gradual load changes. The boost converter and the HESS control the
DC-grid voltage for the inverter. A dynamic RL load is used to emulate a stand-alone system.
This report systematically analyses the mathematical model along with the MATLAB Simulink
models and presents test scenarios with changing wind speed and dynamic loading to test the
model implemented.
Through simulation studies carried out it has been demonstrated that the proposed control
methods are capable of a) robust voltage and frequency regulation, b) effective management of
the energy storage system. |
| author2 |
Abhisek Ukil |
| author_facet |
Abhisek Ukil Shrikant, Kulkarni Siddhi |
| format |
Final Year Project |
| author |
Shrikant, Kulkarni Siddhi |
| author_sort |
Shrikant, Kulkarni Siddhi |
| title |
Grid voltage regulation of a PMSG based RAPS using hybrid energy storage |
| title_short |
Grid voltage regulation of a PMSG based RAPS using hybrid energy storage |
| title_full |
Grid voltage regulation of a PMSG based RAPS using hybrid energy storage |
| title_fullStr |
Grid voltage regulation of a PMSG based RAPS using hybrid energy storage |
| title_full_unstemmed |
Grid voltage regulation of a PMSG based RAPS using hybrid energy storage |
| title_sort |
grid voltage regulation of a pmsg based raps using hybrid energy storage |
| publishDate |
2017 |
| url |
http://hdl.handle.net/10356/71949 |
| _version_ |
1772826641986224128 |