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W4310363973 endingPage "9016" @default.
W4310363973 startingPage "9016" @default.
W4310363973 abstract "With the growing pressure to substitute fossil fuel-based generation, Renewable Energy Sources (RES) have become one of the main solutions from the power sector in the fight against climate change. Offshore wind farms, for example, are an interesting alternative to increase renewable power production, but they represent a challenge when being interconnected to the grid, since new installations are being pushed further off the coast due to noise and visual pollution restrictions. In this context, Multi-Terminal High Voltage Direct Current (MT-HVDC) networks are the most preferred technology for this purpose and for onshore grid reinforcements. They also enable the delivery of power from the shore to offshore Oil and Gas (O&G) production platforms, which can help lower the emissions in the transition away from fossil fuels. In this work, we review relevant aspects of the operation and control of MT-HVDC networks for wind power integration. The review approaches topics such as the main characteristics of MT-HVDC projects under discussion/commissioned around the world, rising challenges in the control and the operation of MT-HVDC networks and the modeling and the control of the Modular Multilevel Converter (MMC) stations. To illustrate the challenges on designing the control system of a MT-HVDC network and to corroborate the technical discussions, a simulation of a three-terminal MT-HVDC network integrating wind power generation and offshore O&G production units to the onshore grid is performed in Matlab’s Simscape Electrical toolbox. The results highlight the main differences between two alternatives to design the control system for an MT-HVDC network." @default.
W4310363973 created "2022-12-09" @default.
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W4310363973 creator A5090139107 @default.
W4310363973 date "2022-11-29" @default.
W4310363973 modified "2023-10-15" @default.
W4310363973 title "A Review on Multi-Terminal High Voltage Direct Current Networks for Wind Power Integration" @default.
W4310363973 cites W1566997854 @default.
W4310363973 cites W1834350974 @default.
W4310363973 cites W1975348760 @default.
W4310363973 cites W1979780375 @default.
W4310363973 cites W1990034734 @default.
W4310363973 cites W2016492414 @default.
W4310363973 cites W2021871997 @default.
W4310363973 cites W2030554714 @default.
W4310363973 cites W2034978548 @default.
W4310363973 cites W2037167925 @default.
W4310363973 cites W2037239418 @default.
W4310363973 cites W2038149860 @default.
W4310363973 cites W2063738266 @default.
W4310363973 cites W2066077687 @default.
W4310363973 cites W2081497386 @default.
W4310363973 cites W2089816524 @default.
W4310363973 cites W2089922432 @default.
W4310363973 cites W2110592902 @default.
W4310363973 cites W2125229331 @default.
W4310363973 cites W2136509165 @default.
W4310363973 cites W2154551857 @default.
W4310363973 cites W2179541134 @default.
W4310363973 cites W2200513608 @default.
W4310363973 cites W2265248459 @default.
W4310363973 cites W2328358717 @default.
W4310363973 cites W2505165227 @default.
W4310363973 cites W2517387210 @default.
W4310363973 cites W2560183775 @default.
W4310363973 cites W2634144587 @default.
W4310363973 cites W2729780364 @default.
W4310363973 cites W2735452118 @default.
W4310363973 cites W2735708725 @default.
W4310363973 cites W2748200248 @default.
W4310363973 cites W2751286044 @default.
W4310363973 cites W2764310663 @default.
W4310363973 cites W2768400154 @default.
W4310363973 cites W2782948212 @default.
W4310363973 cites W2790485821 @default.
W4310363973 cites W2793452070 @default.
W4310363973 cites W2883915950 @default.
W4310363973 cites W2884887906 @default.
W4310363973 cites W2888916820 @default.
W4310363973 cites W2896121128 @default.
W4310363973 cites W2945165723 @default.
W4310363973 cites W2967305010 @default.
W4310363973 cites W2968461381 @default.
W4310363973 cites W2982237125 @default.
W4310363973 cites W2998107635 @default.
W4310363973 cites W3009659960 @default.
W4310363973 cites W3015979257 @default.
W4310363973 cites W3016170353 @default.
W4310363973 cites W3029419463 @default.
W4310363973 cites W3035634724 @default.
W4310363973 cites W3036397016 @default.
W4310363973 cites W3040138503 @default.
W4310363973 cites W3045983957 @default.
W4310363973 cites W3046522690 @default.
W4310363973 cites W3047948156 @default.
W4310363973 cites W3091770914 @default.
W4310363973 cites W3096079588 @default.
W4310363973 cites W3109000434 @default.
W4310363973 cites W3110874572 @default.
W4310363973 cites W3120463634 @default.
W4310363973 cites W3155107686 @default.
W4310363973 cites W3175186133 @default.
W4310363973 cites W3175199986 @default.
W4310363973 cites W3176031049 @default.
W4310363973 cites W3214887669 @default.
W4310363973 cites W4214909550 @default.
W4310363973 cites W4220723521 @default.
W4310363973 cites W4236764987 @default.
W4310363973 cites W4241198004 @default.
W4310363973 cites W4252934855 @default.
W4310363973 cites W4282023438 @default.
W4310363973 cites W4282938467 @default.
W4310363973 cites W4283835641 @default.
W4310363973 cites W4284666799 @default.
W4310363973 cites W4285196930 @default.
W4310363973 cites W4285200932 @default.
W4310363973 cites W4285212469 @default.
W4310363973 cites W4285247381 @default.
W4310363973 cites W4290716249 @default.
W4310363973 cites W4292387459 @default.
W4310363973 doi "https://doi.org/10.3390/en15239016" @default.
W4310363973 hasPublicationYear "2022" @default.