The influence of MTDC control on DC power flow and AC system dynamic responses

L. Shen; W. Wang; M. Barnes

The influence of MTDC control on DC power flow and AC system dynamic responses

L. Shen, W. Wang, M. Barnes

Research output: Chapter in Book/Conference proceeding › Conference contribution › peer-review

Abstract

Different control schemes adopted in a multi-terminal VSC HVDC (MTDC) system will change the power injections into the connected AC grid and thus affect its dynamic performance. This paper investigates a multi-machine AC system model integrating a 4 terminal VSC HVDC system for wind farm connection and onshore power sharing. A series of control strategies are created for the MTDC grid including voltage margin control and different droop control settings. The DC system power sharing and the corresponding effects on the AC system are mainly considered. This work is carried out in DIgSILENT PowerFactory using case study simulations of the integrated system model.

Original language	English
Title of host publication	host publication
Place of Publication	Washington DC
Publisher	IEEE
Pages	1-5
Number of pages	5
Publication status	Published - Jul 2014
Event	IEEE PES General Meeting, Conference & Exposition - Duration: 1 Jan 1824 → …

Conference

Conference	IEEE PES General Meeting, Conference & Exposition
Period	1/01/24 → …

Keywords

MTDC, Dynamic GB system, Voltage margin control, Droop control, AC/DC integration

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Cite this

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title = "The influence of MTDC control on DC power flow and AC system dynamic responses",

abstract = "Different control schemes adopted in a multi-terminal VSC HVDC (MTDC) system will change the power injections into the connected AC grid and thus affect its dynamic performance. This paper investigates a multi-machine AC system model integrating a 4 terminal VSC HVDC system for wind farm connection and onshore power sharing. A series of control strategies are created for the MTDC grid including voltage margin control and different droop control settings. The DC system power sharing and the corresponding effects on the AC system are mainly considered. This work is carried out in DIgSILENT PowerFactory using case study simulations of the integrated system model.",

keywords = "MTDC, Dynamic GB system, Voltage margin control, Droop control, AC/DC integration",

author = "L. Shen and W. Wang and M. Barnes",

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T1 - The influence of MTDC control on DC power flow and AC system dynamic responses

AU - Shen, L.

AU - Wang, W.

AU - Barnes, M.

PY - 2014/7

Y1 - 2014/7

N2 - Different control schemes adopted in a multi-terminal VSC HVDC (MTDC) system will change the power injections into the connected AC grid and thus affect its dynamic performance. This paper investigates a multi-machine AC system model integrating a 4 terminal VSC HVDC system for wind farm connection and onshore power sharing. A series of control strategies are created for the MTDC grid including voltage margin control and different droop control settings. The DC system power sharing and the corresponding effects on the AC system are mainly considered. This work is carried out in DIgSILENT PowerFactory using case study simulations of the integrated system model.

AB - Different control schemes adopted in a multi-terminal VSC HVDC (MTDC) system will change the power injections into the connected AC grid and thus affect its dynamic performance. This paper investigates a multi-machine AC system model integrating a 4 terminal VSC HVDC system for wind farm connection and onshore power sharing. A series of control strategies are created for the MTDC grid including voltage margin control and different droop control settings. The DC system power sharing and the corresponding effects on the AC system are mainly considered. This work is carried out in DIgSILENT PowerFactory using case study simulations of the integrated system model.

KW - MTDC, Dynamic GB system, Voltage margin control, Droop control, AC/DC integration

M3 - Conference contribution

SP - 1

EP - 5

BT - host publication

PB - IEEE

CY - Washington DC

T2 - IEEE PES General Meeting, Conference & Exposition

Y2 - 1 January 1824

ER -

The influence of MTDC control on DC power flow and AC system dynamic responses

Abstract

Conference

Keywords

UN SDGs

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