On the Inertia of Future More-Electronics Power Systems
Inertia plays a vital role in maintaining the frequency stability of power systems. However, the increase of power electronics-based renewable generation can dramatically reduce the inertia levels of modern power systems. This issue has already challenged the control and stability of small-scale pow...
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| Veröffentlicht in: | IEEE journal of emerging and selected topics in power electronics 2019-12, Vol.7 (4), p.2130-2146 |
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| container_title | IEEE journal of emerging and selected topics in power electronics |
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| creator | Fang, Jingyang Li, Hongchang Tang, Yi Blaabjerg, Frede |
| description | Inertia plays a vital role in maintaining the frequency stability of power systems. However, the increase of power electronics-based renewable generation can dramatically reduce the inertia levels of modern power systems. This issue has already challenged the control and stability of small-scale power systems. It will soon be faced by larger power systems as the trend of large-scale renewable integration continues. In view of the urgent demand for addressing the inertia concern, this paper presents a comprehensive review of inertia enhancement methods covering both proven techniques and emerging ones and also studies the effect of inertia on frequency control. Among those proven techniques, the inertia emulation by wind turbines has successfully demonstrated its effectiveness and will receive widespread adoptions. For the emerging techniques, the virtual inertia generated by the dc-link capacitors of power converters has a great potential due to its low cost. The same concept of inertia emulation can also be applied to ultracapacitors. In addition, batteries will serve as an alternative inertia supplier, and the relevant technical challenges as well as the solutions are discussed in this paper. In future power systems where most of the generators and loads are connected via power electronics, virtual synchronous machines will gradually take over the responsibility of inertia support. In general, it is concluded that advances in semiconductors and control promise to make power electronics an enabling technology for inertia control in future power systems. |
| doi_str_mv | 10.1109/JESTPE.2018.2877766 |
| format | Article |
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However, the increase of power electronics-based renewable generation can dramatically reduce the inertia levels of modern power systems. This issue has already challenged the control and stability of small-scale power systems. It will soon be faced by larger power systems as the trend of large-scale renewable integration continues. In view of the urgent demand for addressing the inertia concern, this paper presents a comprehensive review of inertia enhancement methods covering both proven techniques and emerging ones and also studies the effect of inertia on frequency control. Among those proven techniques, the inertia emulation by wind turbines has successfully demonstrated its effectiveness and will receive widespread adoptions. For the emerging techniques, the virtual inertia generated by the dc-link capacitors of power converters has a great potential due to its low cost. The same concept of inertia emulation can also be applied to ultracapacitors. In addition, batteries will serve as an alternative inertia supplier, and the relevant technical challenges as well as the solutions are discussed in this paper. In future power systems where most of the generators and loads are connected via power electronics, virtual synchronous machines will gradually take over the responsibility of inertia support. In general, it is concluded that advances in semiconductors and control promise to make power electronics an enabling technology for inertia control in future power systems.</description><identifier>ISSN: 2168-6777</identifier><identifier>EISSN: 2168-6785</identifier><identifier>DOI: 10.1109/JESTPE.2018.2877766</identifier><identifier>CODEN: IJESN2</identifier><language>eng</language><publisher>Piscataway: IEEE</publisher><subject>Batteries ; control ; Control stability ; Control systems ; Electronics ; energy storage ; Frequency control ; Frequency stability ; Generators ; Inertia ; Power converters ; Power electronics ; Power system stability ; power systems ; renewable energy sources (RESs) ; Supercapacitors ; Synchronous machines ; Time-frequency analysis ; ultracapacitors ; virtual synchronous machines (VSMs) ; Wind turbines</subject><ispartof>IEEE journal of emerging and selected topics in power electronics, 2019-12, Vol.7 (4), p.2130-2146</ispartof><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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However, the increase of power electronics-based renewable generation can dramatically reduce the inertia levels of modern power systems. This issue has already challenged the control and stability of small-scale power systems. It will soon be faced by larger power systems as the trend of large-scale renewable integration continues. In view of the urgent demand for addressing the inertia concern, this paper presents a comprehensive review of inertia enhancement methods covering both proven techniques and emerging ones and also studies the effect of inertia on frequency control. Among those proven techniques, the inertia emulation by wind turbines has successfully demonstrated its effectiveness and will receive widespread adoptions. For the emerging techniques, the virtual inertia generated by the dc-link capacitors of power converters has a great potential due to its low cost. The same concept of inertia emulation can also be applied to ultracapacitors. In addition, batteries will serve as an alternative inertia supplier, and the relevant technical challenges as well as the solutions are discussed in this paper. In future power systems where most of the generators and loads are connected via power electronics, virtual synchronous machines will gradually take over the responsibility of inertia support. In general, it is concluded that advances in semiconductors and control promise to make power electronics an enabling technology for inertia control in future power systems.</description><subject>Batteries</subject><subject>control</subject><subject>Control stability</subject><subject>Control systems</subject><subject>Electronics</subject><subject>energy storage</subject><subject>Frequency control</subject><subject>Frequency stability</subject><subject>Generators</subject><subject>Inertia</subject><subject>Power converters</subject><subject>Power electronics</subject><subject>Power system stability</subject><subject>power systems</subject><subject>renewable energy sources (RESs)</subject><subject>Supercapacitors</subject><subject>Synchronous machines</subject><subject>Time-frequency analysis</subject><subject>ultracapacitors</subject><subject>virtual synchronous machines (VSMs)</subject><subject>Wind turbines</subject><issn>2168-6777</issn><issn>2168-6785</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2019</creationdate><recordtype>article</recordtype><sourceid>ESBDL</sourceid><sourceid>RIE</sourceid><recordid>eNo9kE1rAjEQhkNpodL6C7wEel6bDzeJxyJra7EoaM8hJhO6ohubZCn--66sOJeZw_vMMA9CI0rGlJLp62e12a6rMSNUjZmSUgpxhwaMClUIqcr72yzlIxqmtCddKVZOpRoguWpw_gG8aCDm2uDg8bzNbQT8FSIU1QFsjqGpbcLr8AcRb84pwzE9owdvDgmG1_6EvufVdvZRLFfvi9nbsrB8ynIxEU4QJqhh4IyhjCtmPXduQqwz1nsClJagvGMg1c47v2NgSucIoYJ7YfgTeun3nmL4bSFlvQ9tbLqTmnHa_S8FU12K9ykbQ0oRvD7F-mjiWVOiL5J0L0lfJOmrpI4a9VQNADdClURwrvg_QhFjHA</recordid><startdate>20191201</startdate><enddate>20191201</enddate><creator>Fang, Jingyang</creator><creator>Li, Hongchang</creator><creator>Tang, Yi</creator><creator>Blaabjerg, Frede</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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| source | IEEE Electronic Library (IEL) |
| subjects | Batteries control Control stability Control systems Electronics energy storage Frequency control Frequency stability Generators Inertia Power converters Power electronics Power system stability power systems renewable energy sources (RESs) Supercapacitors Synchronous machines Time-frequency analysis ultracapacitors virtual synchronous machines (VSMs) Wind turbines |
| title | On the Inertia of Future More-Electronics Power Systems |
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