Learning-based load control to support resilient networked microgrid operations
Networked and interconnected microgrids can improve resilience of critical end-use loads during extreme events. However, the frequency deviations in microgrids during transient events are significantly larger than those typically seen in bulk transmission systems. The larger frequency deviations can...
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| Published in | IET Smart Grid Vol. 3; no. 5; pp. 697 - 704 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Durham
The Institution of Engineering and Technology
01.10.2020
John Wiley & Sons, Inc Wiley |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2515-2947 2515-2947 |
| DOI | 10.1049/iet-stg.2019.0265 |
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| Abstract | Networked and interconnected microgrids can improve resilience of critical end-use loads during extreme events. However, the frequency deviations in microgrids during transient events are significantly larger than those typically seen in bulk transmission systems. The larger frequency deviations can cause a loss of inverter-connected assets, resulting in a loss of power to critical end-use loads. Grid Friendly ApplianceTM (GFA) controllers can mitigate the transient event effects by engaging end-use loads. This paper presents a method to select set-points for end-use loads equipped with GFA controllers, while minimizing the interruptions to end-use customers. An online (i.e. real-time), device-level algorithm adjusts individual GFA controller frequency setpoints based on the operational characteristics of each end-use load and on the changing grid dynamic characteristics to selectively engage the load for mitigating the switching transients. The adaptive gradient-descent-based algorithm does not require control or coordination amongst end-use devices for adapting frequency set-points. The method is validated using dynamic simulations on a modified version of the IEEE 123-node test system with three microgrids using the GridLAB-DTM simulation environment. The improved dynamic stability achieved through the engagement of GFAs support the switching operations necessary for networked microgrid operations. |
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| AbstractList | Networked and interconnected microgrids can improve resilience of critical end-use loads during extreme events. However, the frequency deviations in microgrids during transient events are significantly larger than those typically seen in bulk transmission systems. The larger frequency deviations can cause a loss of inverter-connected assets, resulting in a loss of power to critical end-use loads. Grid Friendly Appliance TM (GFA) controllers can mitigate the transient event effects by engaging end-use loads. This paper presents a method to select set-points for end-use loads equipped with GFA controllers, while minimizing the interruptions to end-use customers. An online (i.e. real-time), device-level algorithm adjusts individual GFA controller frequency setpoints based on the operational characteristics of each end-use load and on the changing grid dynamic characteristics to selectively engage the load for mitigating the switching transients. The adaptive gradient-descent-based algorithm does not require control or coordination amongst end-use devices for adapting frequency set-points. The method is validated using dynamic simulations on a modified version of the IEEE 123-node test system with three microgrids using the GridLAB-D TM simulation environment. The improved dynamic stability achieved through the engagement of GFAs support the switching operations necessary for networked microgrid operations. Networked and interconnected microgrids can improve resilience of critical end‐use loads during extreme events. However, the frequency deviations in microgrids during transient events are significantly larger than those typically seen in bulk transmission systems. The larger frequency deviations can cause a loss of inverter‐connected assets, resulting in a loss of power to critical end‐use loads. Grid Friendly ApplianceTM (GFA) controllers can mitigate the transient event effects by engaging end‐use loads. This paper presents a method to select set‐points for end‐use loads equipped with GFA controllers, while minimizing the interruptions to end‐use customers. An online (i.e. real‐time), device‐level algorithm adjusts individual GFA controller frequency setpoints based on the operational characteristics of each end‐use load and on the changing grid dynamic characteristics to selectively engage the load for mitigating the switching transients. The adaptive gradient‐descent‐based algorithm does not require control or coordination amongst end‐use devices for adapting frequency set‐points. The method is validated using dynamic simulations on a modified version of the IEEE 123‐node test system with three microgrids using the GridLAB‐DTM simulation environment. The improved dynamic stability achieved through the engagement of GFAs support the switching operations necessary for networked microgrid operations. |
| Author | Schneider, Kevin P Radhakrishnan, Nikitha Du, Wei Tuffner, Francis K Bhattarai, Bishnu P |
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| BackLink | https://www.osti.gov/servlets/purl/1721693$$D View this record in Osti.gov |
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| Cites_doi | 10.1109/TSG.2018.2809452 10.1109/ICECENG.2011.6057115 10.1109/TPWRS.2011.2132154 10.1109/TPWRS.2018.2859742 10.1109/PESGM.2015.7286424 10.1109/TPWRS.2017.2760011 10.1109/JPROC.2017.2685558 10.1109/TDC.2018.8440136 10.1109/TIE.2014.2379211 10.1109/ACCESS.2018.2845378 10.1109/TPWRS.2014.2328865 10.1016/j.apenergy.2015.06.048 10.1109/TSG.2017.2669642 10.1109/SmartGridComm.2017.8340742 10.1109/TSG.2013.2285178 10.1109/TPWRS.2010.2048223 10.1109/TSG.2017.2696339 10.1109/PESGM.2016.7741391 10.1109/TDC.2006.1668732 10.1109/TPWRS.2015.2389712 10.1109/PESW.2001.916993 10.1109/TPWRS.2006.888965 10.1109/PESGM.2016.7741267 |
| ContentType | Journal Article |
| Copyright | 2020 IET Smart Grid published by John Wiley & Sons Ltd on behalf of The Institution of Engineering and Technology 2020. This work is published under http://creativecommons.org/licenses/by/3.0/ (the "License"). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. |
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| Keywords | end-use customers TM controllers microgrid operators power generation control distributed power generation switching operations domestic appliances operational experience changing grid dynamic characteristics switching transients invertors device-level algorithm transient events individual GFA controller frequency setpoints power grids inverter-connected assets load regulation improved dynamic stability effective option adaptive gradient descent-based algorithm bulk transmission systems load control resilient networked microgrid operations critical end-use operational characteristics larger frequency deviations end-use devices isolated microgrids IEEE 123-node test system Grid Friendly Appliance frequency set-points GFA controllers |
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| Snippet | Networked and interconnected microgrids can improve resilience of critical end-use loads during extreme events. However, the frequency deviations in microgrids... Networked and interconnected microgrids can improve resilience of critical end‐use loads during extreme events. However, the frequency deviations in microgrids... |
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| SubjectTerms | Adaptive algorithms adaptive gradient descent-based algorithm Algorithms bulk transmission systems changing grid dynamic characteristics Consumers Controllers critical end-use device-level algorithm Distributed generation distributed power generation domestic appliances Dynamic characteristics Dynamic stability effective option end-use customers end-use devices ENERGY CONSERVATION, CONSUMPTION, AND UTILIZATION Frequency deviation frequency set-points GFA controllers Grid Friendly Appliance IEEE 123‐node test system improved dynamic stability individual GFA controller frequency setpoints inverter-connected assets invertors isolated microgrids larger frequency deviations load control load regulation microgrid operators operational characteristics operational experience Participation power generation control power grids Research Article Resilience resilient networked microgrid operations Switching switching operations switching transients Systems stability TM controllers transient events Washers & dryers Water heaters |
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| Title | Learning-based load control to support resilient networked microgrid operations |
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