Effective Damping Support through VSC-HVDC Links with Short-Term Overload Capability

I. M. Sanz; P. D. Judge; C. E. Spallarossa; B. Chaudhuri; T. C. Green; G. Strbac

doi:10.1109/ISGTEurope.2017.8260280

Effective Damping Support through VSC-HVDC Links with Short-Term Overload Capability

I. M. Sanz, P. D. Judge, C. E. Spallarossa, B. Chaudhuri, T. C. Green, G. Strbac

School of Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Damping service provision through VSC-based HVDC links has been extensively covered in the literature. However, little or no attention has been paid to the available range of active and reactive power modulation when the HVDC link is already operating at rated capacity. In these conditions some overload capability is usually assumed, ignoring the physical constraints imposed by the safe operating area of the IGBT modules in the converter. This paper presents, in a unified framework, the provision of damping support from VSC-HVDC links equipped with additional control for short-term overload capability. The performance of a Model Predictive Control (MPC) damping controller that accounts for the extended P/Q operating area of the converter is analysed. Case studies are presented to show that the extracted short-term overload capability can significantly improve the damping support from VSC-HVDC links. Simulation results also include the impact of damping control action on the junction temperatures of the IGBT modules of the converters, quantifying the effect of this service on the semiconductor temperature dynamics.

Original language	Undefined/Unknown
Title of host publication	2017 IEEE PES Innovative Smart Grid Technologies Conference Europe (ISGT-Europe)
Pages	1-6
Number of pages	6
DOIs	https://doi.org/10.1109/ISGTEurope.2017.8260280
Publication status	Published - 1 Sept 2017

Keywords / Materials (for Non-textual outputs)

active power modulation
damping
Damping
damping service provision
damping support
extended P/Q operating area
HVDC link
HVDC power convertors
HVDC transmission
IGBT modules
insulated gate bipolar transistors
Model Predictive Control (MPC)
Model Predictive Control damping controller
Power conversion
Power Oscillation Damping (POD)
power system control
Power system dynamics
Power System Dynamics
predictive control
reactive power modulation
Rotors
short-term overload capability
Simulation
VSC Overload
VSC-HVDC
VSC-HVDC links

Access to Document

10.1109/ISGTEurope.2017.8260280

Cite this

@inproceedings{79e611d28a7d4c459b1e5c9767a20a2b,

title = "Effective Damping Support through VSC-HVDC Links with Short-Term Overload Capability",

abstract = "Damping service provision through VSC-based HVDC links has been extensively covered in the literature. However, little or no attention has been paid to the available range of active and reactive power modulation when the HVDC link is already operating at rated capacity. In these conditions some overload capability is usually assumed, ignoring the physical constraints imposed by the safe operating area of the IGBT modules in the converter. This paper presents, in a unified framework, the provision of damping support from VSC-HVDC links equipped with additional control for short-term overload capability. The performance of a Model Predictive Control (MPC) damping controller that accounts for the extended P/Q operating area of the converter is analysed. Case studies are presented to show that the extracted short-term overload capability can significantly improve the damping support from VSC-HVDC links. Simulation results also include the impact of damping control action on the junction temperatures of the IGBT modules of the converters, quantifying the effect of this service on the semiconductor temperature dynamics.",

keywords = "active power modulation, damping, Damping, damping service provision, damping support, extended P/Q operating area, HVDC link, HVDC power convertors, HVDC transmission, IGBT modules, insulated gate bipolar transistors, Model Predictive Control (MPC), Model Predictive Control damping controller, Power conversion, Power Oscillation Damping (POD), power system control, Power system dynamics, Power System Dynamics, predictive control, reactive power modulation, Rotors, short-term overload capability, Simulation, VSC Overload, VSC-HVDC, VSC-HVDC links",

author = "Sanz, {I. M.} and Judge, {P. D.} and Spallarossa, {C. E.} and B. Chaudhuri and Green, {T. C.} and G. Strbac",

year = "2017",

month = sep,

day = "1",

doi = "10.1109/ISGTEurope.2017.8260280",

language = "Undefined/Unknown",

pages = "1--6",

booktitle = "2017 IEEE PES Innovative Smart Grid Technologies Conference Europe (ISGT-Europe)",

}

TY - GEN

T1 - Effective Damping Support through VSC-HVDC Links with Short-Term Overload Capability

AU - Sanz, I. M.

AU - Judge, P. D.

AU - Spallarossa, C. E.

AU - Chaudhuri, B.

AU - Green, T. C.

AU - Strbac, G.

PY - 2017/9/1

Y1 - 2017/9/1

N2 - Damping service provision through VSC-based HVDC links has been extensively covered in the literature. However, little or no attention has been paid to the available range of active and reactive power modulation when the HVDC link is already operating at rated capacity. In these conditions some overload capability is usually assumed, ignoring the physical constraints imposed by the safe operating area of the IGBT modules in the converter. This paper presents, in a unified framework, the provision of damping support from VSC-HVDC links equipped with additional control for short-term overload capability. The performance of a Model Predictive Control (MPC) damping controller that accounts for the extended P/Q operating area of the converter is analysed. Case studies are presented to show that the extracted short-term overload capability can significantly improve the damping support from VSC-HVDC links. Simulation results also include the impact of damping control action on the junction temperatures of the IGBT modules of the converters, quantifying the effect of this service on the semiconductor temperature dynamics.

AB - Damping service provision through VSC-based HVDC links has been extensively covered in the literature. However, little or no attention has been paid to the available range of active and reactive power modulation when the HVDC link is already operating at rated capacity. In these conditions some overload capability is usually assumed, ignoring the physical constraints imposed by the safe operating area of the IGBT modules in the converter. This paper presents, in a unified framework, the provision of damping support from VSC-HVDC links equipped with additional control for short-term overload capability. The performance of a Model Predictive Control (MPC) damping controller that accounts for the extended P/Q operating area of the converter is analysed. Case studies are presented to show that the extracted short-term overload capability can significantly improve the damping support from VSC-HVDC links. Simulation results also include the impact of damping control action on the junction temperatures of the IGBT modules of the converters, quantifying the effect of this service on the semiconductor temperature dynamics.

KW - active power modulation

KW - damping

KW - Damping

KW - damping service provision

KW - damping support

KW - extended P/Q operating area

KW - HVDC link

KW - HVDC power convertors

KW - HVDC transmission

KW - IGBT modules

KW - insulated gate bipolar transistors

KW - Model Predictive Control (MPC)

KW - Model Predictive Control damping controller

KW - Power conversion

KW - Power Oscillation Damping (POD)

KW - power system control

KW - Power system dynamics

KW - Power System Dynamics

KW - predictive control

KW - reactive power modulation

KW - Rotors

KW - short-term overload capability

KW - Simulation

KW - VSC Overload

KW - VSC-HVDC

KW - VSC-HVDC links

U2 - 10.1109/ISGTEurope.2017.8260280

DO - 10.1109/ISGTEurope.2017.8260280

M3 - Conference contribution

SP - 1

EP - 6

BT - 2017 IEEE PES Innovative Smart Grid Technologies Conference Europe (ISGT-Europe)

ER -