MODELING AND CONTROL OF INTERLINE POWER FLOW CONTROLLER FOR POWER SYSTEM STABILITY ENHANCEMENT
Mitigation of power system oscillations is the problem of concern in the power industry as these oscillations, when exhibiting poor damping; affect the transmission line power transfer capability and power system stability. These oscillations greatly restrict power system operations and, in some...
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2011
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my-utp-utpedia.27722017-01-25T09:41:28Z http://utpedia.utp.edu.my/2772/ MODELING AND CONTROL OF INTERLINE POWER FLOW CONTROLLER FOR POWER SYSTEM STABILITY ENHANCEMENT ALIVELU, ALIVELU MANGA PARIMI Mitigation of power system oscillations is the problem of concern in the power industry as these oscillations, when exhibiting poor damping; affect the transmission line power transfer capability and power system stability. These oscillations greatly restrict power system operations and, in some cases, can also lead to widespread system disturbances. In this context, the Flexible AC Transmission System (FACTS) device, Interline Power Flow Controller (IPFC) employed to improve the transmission capability can be additionally utilized for damping control of power system oscillations. IPFC based damping controller design for power system stability requires proper and adequate mathematical representation of power system incorporating the FACTS device. This thesis reports the investigation on the development of steady state model, the dynamic nonlinear mathematical model of the power system installed with the IPFC for stability studies and the linearized extended Phillips Heffron model for the design of control techniques to enhance the damping of the lightly damped oscillations modes. In this context, the mathematical models of the single machine infinite bus (SMIB) power system and multi-machine power system incorporated with IPFC are established. The controllers for the IPFC are designed for enhancing the power system stability. The eigenvalue analysis and nonlinear simulation studies of the investigations conducted on the SMIB and Multi-machine power systems installed with IPFC demonstrate that the control designs are effective in damping the power system oscillations. The results presented in this thesis would provide useful information to electric power utilities engaged in scheduling and operating with the FACTS device, IPFC. 2011-09 Thesis NonPeerReviewed application/pdf en http://utpedia.utp.edu.my/2772/1/Modeling_and_Control_of_Interline_Power_Flow_Controller_for_.pdf ALIVELU, ALIVELU MANGA PARIMI (2011) MODELING AND CONTROL OF INTERLINE POWER FLOW CONTROLLER FOR POWER SYSTEM STABILITY ENHANCEMENT. PhD thesis, UNIVERISTI TEKNOLOGI PETRONAS. |
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Mitigation of power system oscillations is the problem of concern in the power
industry as these oscillations, when exhibiting poor damping; affect the transmission
line power transfer capability and power system stability. These oscillations greatly
restrict power system operations and, in some cases, can also lead to widespread
system disturbances. In this context, the Flexible AC Transmission System (FACTS)
device, Interline Power Flow Controller (IPFC) employed to improve the transmission
capability can be additionally utilized for damping control of power system
oscillations.
IPFC based damping controller design for power system stability requires proper
and adequate mathematical representation of power system incorporating the FACTS
device. This thesis reports the investigation on the development of steady state model,
the dynamic nonlinear mathematical model of the power system installed with the
IPFC for stability studies and the linearized extended Phillips Heffron model for the
design of control techniques to enhance the damping of the lightly damped
oscillations modes.
In this context, the mathematical models of the single machine infinite bus
(SMIB) power system and multi-machine power system incorporated with IPFC are
established. The controllers for the IPFC are designed for enhancing the power system
stability. The eigenvalue analysis and nonlinear simulation studies of the
investigations conducted on the SMIB and Multi-machine power systems installed
with IPFC demonstrate that the control designs are effective in damping the power
system oscillations. The results presented in this thesis would provide useful
information to electric power utilities engaged in scheduling and operating with the
FACTS device, IPFC. |
| format |
Thesis |
| author |
ALIVELU, ALIVELU MANGA PARIMI |
| spellingShingle |
ALIVELU, ALIVELU MANGA PARIMI MODELING AND CONTROL OF INTERLINE POWER FLOW CONTROLLER FOR POWER SYSTEM STABILITY ENHANCEMENT |
| author_facet |
ALIVELU, ALIVELU MANGA PARIMI |
| author_sort |
ALIVELU, ALIVELU MANGA PARIMI |
| title |
MODELING AND CONTROL OF INTERLINE POWER FLOW CONTROLLER
FOR POWER SYSTEM STABILITY ENHANCEMENT |
| title_short |
MODELING AND CONTROL OF INTERLINE POWER FLOW CONTROLLER
FOR POWER SYSTEM STABILITY ENHANCEMENT |
| title_full |
MODELING AND CONTROL OF INTERLINE POWER FLOW CONTROLLER
FOR POWER SYSTEM STABILITY ENHANCEMENT |
| title_fullStr |
MODELING AND CONTROL OF INTERLINE POWER FLOW CONTROLLER
FOR POWER SYSTEM STABILITY ENHANCEMENT |
| title_full_unstemmed |
MODELING AND CONTROL OF INTERLINE POWER FLOW CONTROLLER
FOR POWER SYSTEM STABILITY ENHANCEMENT |
| title_sort |
modeling and control of interline power flow controller
for power system stability enhancement |
| publishDate |
2011 |
| url |
http://utpedia.utp.edu.my/2772/1/Modeling_and_Control_of_Interline_Power_Flow_Controller_for_.pdf http://utpedia.utp.edu.my/2772/ |
| _version_ |
1739830957148471296 |
| score |
13.211869 |