A Dynamic Equivalent of Active Distribution Network: Derivation, Update, Validation and Use Cases

active distribution network; inverter-based generator; dynamic equivalent; grey-box model; large-scale dynamic simulations; LASSO method; voltage stability

Abstract :

[en] This paper deals with the derivation of dynamic equivalents of active distribution networks, hosting inverter-based generators as well as static and motor loads. Equivalents are reduced-order models for use in dynamic simulations of the transmission system. They are of the grey-box types and their parameters are identified from large-disturbance Monte-Carlo simulations accounting for model uncertainty. After presenting an overview of the identification method at a single operating point, the paper deals with the update the equivalent when the operating conditions of the distribution network change. A procedure identifies the parameters to update, hence avoiding a complete new identification. Besides illustrative examples, two sets of simulation results are reported. First, the accuracy of the equivalent is validated in a long-term voltage instability scenario. Second, a larger-scale application is presented, with numerous instances of the equivalent attached to the model of the IEEE Nordic transmission test system. This combined model is used to assess the impact on short- and long-term voltage stability of the inverter-based generators with fast and slow controls.

Disciplines :

Electrical & electronics engineering

Author, co-author :

Chaspierre, Gilles ; Université de Liège - ULiège > Dép. d'électric., électron. et informat. (Inst.Montefiore) > Systèmes et modélisation

Denis, Guillaume

Panciatici, Patrick ; Université de Liège - ULiège > Dép. d'électric., électron. et informat. (Inst.Montefiore) > Méthodes stochastiques

Van Cutsem, Thierry ; Université de Liège - ULiège > Dép. d'électric., électron. et informat. (Inst.Montefiore) > Systèmes et modélisation

Language :

English

Title :

A Dynamic Equivalent of Active Distribution Network: Derivation, Update, Validation and Use Cases

Publication date :

August 2021

Journal title :

IEEE Open Access Journal in Power and Energy (OAJPE)

ISSN :

2687-7910

eISSN :

2687-7910

Publisher :

IEEE, United States

Special issue title :

Special section: 2021 Invited papers on Emerging topics in Power and Energy Systems

Volume :

Pages :

497-509

Peer reviewed :

Peer reviewed

Funders :

F.R.S.-FNRS - Fonds de la Recherche Scientifique [BE]

Commentary :

This iinvited paper is part of the Special section: 2021 Invited papers on Emerging topics in Power and Energy Sytems

Available on ORBi :

since 10 August 2021

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Bibliography

Renewables 2019 Global Status Report, Ren 21, Paris, France, 2019.
N. Hatziargyriou et al., "Contribution to bulk system control and stability by distributed energy resources connected at distribution network," IEEE PES, Piscataway, NJ, USA, Tech. Rep. PES-TR22, 2017.
M. G. Dozein, P. Mancarella, T. K. Saha, and R. Yan, "Systemstrength and weak grids: Fundamentals, challenges, and mitigation strategies," in Proc. Australas. Universities Power Eng. Conf. (AUPEC), Nov. 2018, pp. 1-7.
K. W. Jones et al., "Impact of inverter based generation on bulk power system dynamics and short-circuit performance," Rep. IEEE PES Task Force Short-Circuit Syst. Perform. Impact Inverter Based Gener., IEEE PES, Piscataway, NJ, USA, Tech. Rep. PES-TR68, 2018.
P. Aristidou and T. Van Cutsem, "A parallel processing approach to dynamic simulations of combined transmission and distribution systems," Int. J. Electr. Power Energy Syst., vol. 72, pp. 58-65, Nov. 2015.
R. Venkatraman, S. K. Khaitan, and V. Ajjarapu, "Dynamic co-simulation methods for combined transmission-distribution system with integration time step impact on convergence," IEEE Trans. Power Syst., vol. 34, no. 2, pp. 1171-1181, Mar. 2019.
A. K. Bharati and V. Ajjarapu, "Investigation of relevant distribution system representation with DG for voltage stability margin assessment," IEEE Trans. Power Syst., vol. 35, no. 3, pp. 2072-2081, May 2020.
Distributed Energy Resources Connection Modeling and Reliability Con-siderations, North American Electric Reliability Corporation (NERC), Atlanta, GA, USA, Feb. 2017.
F. Conte et al., "Dynamic equivalent modelling of active distribution networks for TSO-DSO interactions," in Proc. IEEE PES Innov. Smart Grid Technol. Conf. Eur. (ISGT-Eur.), Sep. 2017, pp. 1-6.
J. V. Milanovic et al., "Modelling and aggregation of loads in fiexible power networks," Rep. CIGRE Work. Group C4.605, 2014.
G. Chaspierre, P. Panciatici, and T. Van Cutsem, "Aggregated dynamic equivalent of a distribution system hosting inverter-based generators," in Proc. Power Syst. Comput. Conf. (PSCC), Jun. 2018, pp. 1-7.
X. Wu, X. Lei, Y. Lan, A. Monti, and F. Gao, "A new dynamic equivalent of active distribution network for transient analysis," in Proc. Int. Conf. Power Syst. Technol. (POWERCON), Nov. 2018, pp. 529-539.
F. Conte, F. D'Agostino, and F. Silvestro, "Operational constrained nonlinear modeling and identification of active distribution networks," Electr. Power Syst. Res., vol. 168, pp. 92-104, Mar. 2019.
X. Shang, Z. Li, J. Zheng, and Q. H. Wu, "Equivalent modeling of active distribution network considering the spatial uncertainty of renewable energy resources," Int. J. Electr. Power Energy Syst., vol. 112, pp. 83-91, Nov. 2019.
N. Fulgêncioa, C. Moreira, L. Carvalho, and J. P. Lopes, "Aggregated dynamic model of active distribution networks for large voltage disturbances," Electr. Power Syst. Res., vol. 178, pp. 1-13, Jan. 2019.
G. Chaspierre, G. Denis, P. Panciatici, and T. Van Cutsem, "An active distribution network equivalent derived from large-disturbance simulations with uncertainty," IEEE Trans. Smart Grid, vol. 11, no. 6, pp. 4749-4759, Nov. 2020.
G. Chaspierre, "Reduced-order modelling of active distribution networks for large-disturbance simulations," Ph.D. dissertation, Dept. Elect. Eng. Comput. Sci., Univ. Liège, Liège, Belgium, Oct. 2020. [Online]. Available: https://orbi.uliege.be/handle/2268/251602
A. Radovanoviu and J. V. Milanoviu, "Exploratory study towards dynamic equivalent modelling of hybrid renewable energy source plant based on historical production data," in Proc. IEEE Milan PowerTech, Jun. 2019, pp. 1-6.
E. O. Kontis, T. A. Papadopoulos, M. H. Syed, E. Guillo-Sansano, G. M. Burt, and G. K. Papagiannis, "Artificial-intelligence method for the derivation of generic aggregated dynamic equivalent models," IEEE Trans. Power Syst., vol. 34, no. 4, pp. 2947-2956, Jul. 2019.
S. Barsali et al., "Benchmark systems for network integration of renewable and distributed energy resources," Rep. CIGRE Task Force C6.04, 2014.
P. Kundur, Power System Stability and Control. New York, NY, USA: McGraw-Hill, 1994.
IEEE Standard for Interconnection and Interoperability of Distributed Energy Resources with Associated Electric Power Systems Interfaces, Standard 1547a-2020, IEEE Standards Coordinating Committee 21, Feb. 2018.
(Apr. 2016). Commission Regulation (EU) 2016/631 of 14 April 2016 Establishing a Network Code on Requirements for Grid Connection of Generators. Accessed: Oct. 2019. [Online].Available: https://www.entsoe. eu/network_codes/rfg/
K. V. Price, R. M. Storn, and J. A. Lampinen, Differential Evolution A Practical Approach to Global Optimization. Heidelberg, Germany: Springer, 2005.
L. Ljung, System Identification: Theory for the User. Upper Saddle River, NJ, USA: Prentice-Hall, 1999.
(Mar. 2015). WECC Composite Load Model With Distributed Generation Specification. [Online]. Available: https://www.wecc.org/ Reliability/Forms/Default%20View.aspx.
P. Aristidou, D. Fabozzi, and T. Van Cutsem, "Dynamic simulation of large-scale power systems using a parallel Schur-complement-based decomposition method," IEEE Trans. Parallel Distrib. Syst., vol. 25, no. 10, pp. 2561-2570, Oct. 2014.
R. Tibshirani, "Regression shrinkage and selection via the lasso," J. Roy. Statist. Soc. B, Methodolog., vol. 58, no. 1, pp. 267-288, 1996.
T. Van Cutsem and C. Vournas, Voltage Stability of Electric Power Systems. Norwell, NJ, USA: Springer, 1998.
T. Van Cutsem et al., "Test systems for voltage stability analysis and security assessment," Rep. IEEE PES Task Force Test Syst. Voltage Stability Secur. Assessment, IEEE PES, Piscataway, NJ, USA, Tech. Rep. PESTR19, 2015.
L. D. Pabonospina and T. Van Cutsem, "Emergency support of transmission voltages by active distribution networks: A non-intrusive scheme," IEEE Trans. Power Syst., early access, Sep. 30, 2020, doi: 10.1109/TPWRS.2020.3027949.
M. Glavic and T. Van Cutsem, "A short survey of methods for voltage instability detection," in Proc. IEEE Power Energy Soc. Gen. Meeting, Jul. 2011, pp. 1-8.