Optimal power flow in multi-terminal HVDC networks with embedded high-power DC–DC converters for voltage matching and flexible DC transmission

Sayed Sawsan; Massoud Ahmed

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Optimal power flow in multi-terminal HVDC networks with embedded high-power DC–DC converters for voltage matching and flexible DC transmission

机译：具有嵌入式高功率DC-DC转换器的多端子HVDC网络中的最佳功率流动，用于电压匹配和灵活的直流传输

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摘要

High-power DC-DC converters are integrated into multi-terminal high-voltage DC (MTDC) networks, typically for voltage matching or flexible DC transmission. This study addresses droop-controlled radial and mesh MTDC networks with transmission loss minimisation considering the impact of integrating a high-power DC-DC converter. DC voltage droop control can achieve minimum power loss in radial MTDC transmission network by controlling the power-sharing among the receiving nodes inversely proportional to their transmission line resistances. Updating the droop characteristics by an optimisation algorithm guarantees optimal power flow (OPF) during renewable source power generation fluctuation. Meanwhile, the mesh network DC voltage references can be updated by the OPF for transmission loss minimisation. This study presents the impact of incorporating a high-power DC-DC converter at different system access lines of a radial MTDC network while targeting efficient power transfer and DC transmission loss minimisation. The effect of introducing a high-power DC-DC converter on the droop characteristic settings during steady-state operation in a radial MTDC network is investigated. Moreover, the impact of a high-power DC-DC converter in mesh MTDC network with OPF operation is explored. To validate the presented concepts, the CIGRE B4 MTDC network is used as a benchmark system with a metaheuristic optimisation technique.

机译：高功率DC-DC转换器集成到多端子高压DC（MTDC）网络中，通常用于电压匹配或柔性直流传输。考虑到集成大功率DC-DC转换器的影响，本研究解决了下垂控制的径向和网状MTDC网络，最小化最小化。 DC电压下降控制可以通过控制与其传输线电阻成反比地对成反比的接收节点之间的功率共享来实现径向MTDC传输网络中的最小功率损耗。通过优化算法更新下垂特性可确保可再生源发电的波动期间最佳功率流（OPF）。同时，可以通过OPF更新网状网络直流电压参考，用于最小化的传输损耗。本研究提出在径向MTDC网络的不同系统接入线上在径向MTDC网络的不同系统接入线上掺杂高功率DC-DC转换器的影响，同时定位有效的电力传输和直流传输损耗最小化。研究了在径向MTDC网络中稳态操作期间引入高功率DC-DC转换器对下垂特性设置的影响。此外，探讨了具有OPF操作的Mesh MTDC网络中的高功率DC-DC转换器的影响。为了验证所提出的概念，CIGRE B4 MTDC网络用作具有成逐优化技术的基准系统。

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来源
《Generation, Transmission & Distribution, IET》 |2020年第18期|3866-3876|共11页
作者
Sayed Sawsan; Massoud Ahmed;
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Qatar Univ Dept Elect Engn Doha Qatar;

Qatar Univ Dept Elect Engn Doha Qatar;

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正文语种 eng
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关键词
DC-DC power convertors; load flow; power transmission control; optimisation; power system interconnection; HVDC power transmission; load flow control; voltage control; distributed power generation; HVDC power convertors; power grids; power generation control; high-power DC-DC converter; high-voltage DC networks; flexible DC transmission; DC voltage droop control; optimal power flow; mesh network DC voltage references; radial MTDC network; DC transmission loss minimisation; embedded high-power DC-DC converters;

机译：DC-DC电源转换器;负载流;电力传输控制;优化;电力系统互连;HVDC电力传输;负载流量控制;电压控制;分布式发电;HVDC电源转换器;电网;发电控制;高功率控制;高功率控制;高功率DC-直流转换器;高压直流网络;柔性直流传动;直流电压下降控制;最佳功率流;网状网络直流电压参考;径向MTDC网络;直流传输损耗最小化;嵌入式高功率DC-DC转换器;

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专利

1. Review of dc–dc converters for multi-terminal HVDC transmission networks [J] . Grain Philip Adam, Islam Azmy Gowaid, Stephen Jon Finney, Power Electronics, IET . 2016,第2期

机译：用于多端子HVDC传输网络的DC-DC转换器的回顾
2. A protection scheme for hybrid multi-terminal HVDC networks utilizing a time-domain transient voltage based on fault-blocking converters [J] . International journal of electrical power and energy systems . 2020,第Juna期

机译：基于故障隔离转换器的时域瞬态电压混合多端HVDC网络保护方案
3. A comprehensive power-flow model of multi-terminal PWM based VSC-HVDC systems with DC voltage droop control [J] . Khan Shagufta, Bhowmick Suman International Journal of Electrical Power & Energy Systems . 2018,第NOVa期

机译：具有DC电压下垂控制的基于多端子PWM的VSC-HVDC系统的综合功率流模型
4. DC power flow control for radial offshore multi-terminal HVDC transmission system by considering steady-state DC voltage operation range [C] . R Irnawan, F F da Silva, C L Bak, 13th IET International Conference on AC and DC Power Transmission . 2017

机译：考虑稳态直流电压工作范围的径向海上多端高压直流输电系统的直流潮流控制
5. NEW TECHNIQUES FOR LOAD-FLOW AND OUTAGE STUDIES OF VERY LARGE-SCALE POWER SYSTEMS INCLUDING MULTI-TERMINAL HVDC NETWORKS. [D] . EL-MARSAFAWY, MAGDY MOHAMED. 1979

机译：包括多终端HVDC网络在内的大型电力系统的潮流和停电研究的新技术。
6. Behavioral Modeling of DC/DC Converters in Self-Powered Sensor Systems with Modelica [O] . Jan Kokert, Leonhard M. Reindl, Stefan J. Rupitsch 2021

机译：具有ModelICA的自动传感器系统中DC / DC转换器的行为建模
7. Multi-tasking dc-dc and dc-ac converters for dc voltage tapping and power control in highly meshed multi-terminal HVDC networks [O] . Adam Grain Philip, Abdelsalam Ibrahim, Xu Lie, 2017

机译：多任务DC-DC和DC-AC转换器，用于高度啮合的多端子HVDC网络中的DC电压分接和功率控制

Optimal power flow in multi-terminal HVDC networks with embedded high-power DC–DC converters for voltage matching and flexible DC transmission

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