Fair operating envelopes under uncertainty using chance constrained optimal power flow

The significant penetration of rooftop solar photovoltaics (PV) is pushing low-voltage distribution networks to the brink of their technical limits, which increasingly requires distribution system operators (DSO) to limit power exports. The easiest but also the bluntest instrument is to impose a bla...

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Published in:	Electric power systems research Vol. 213; p. 108465
Main Authors:	Yi, Yu, Verbič, Gregor
Format:	Journal Article
Language:	English
Published:	Elsevier B.V 01.12.2022
Subjects:	Chance constraints Fair PV curtailment Hosting capacity Operating envelopes Optimal power flow Second-order cone programming Chance constraints Operating envelopes Hosting capacity Optimal power flow Fair PV curtailment Second-order cone programming
ISSN:	0378-7796, 1873-2046
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Abstract	The significant penetration of rooftop solar photovoltaics (PV) is pushing low-voltage distribution networks to the brink of their technical limits, which increasingly requires distribution system operators (DSO) to limit power exports. The easiest but also the bluntest instrument is to impose a blanket constraint, which is suboptimal and not in the best interest of PV owners. Alternatively, the DSO can compute PV export limits, also called operating envelopes, using AC optimal power flow (OPF) in real-time. However, this assumes full observability of customer demand, which is unrealistic in practice. To address this gap, we propose a bi-level framework under uncertainty to compute operating envelopes that are robust against uncertainty. At the upper level, the DSO solves a deterministic OPF using day-ahead prediction of customer demand and PV generation. The linearised OPF solution is then used in a chance-constrained OPF problem, resulting in a second-order cone model, which could be solved efficiently. At the lower level, prosumers optimise battery operation against the operating envelopes submitted by the DSO day-ahead. The proposed operating envelopes are fair in the sense that all prosumers are subject to the same export limit irrespective of their location in the network. •A bi-level framework is proposed to generate fair operating envelops for prosumers.•The uncertainties are considered in the chance-constrained AC OPF model formulation.•The CC AC OPF is reformulated to the deterministic ones to get the traceable results.•The fair operating envelopes help to increase the network hosting.
AbstractList	The significant penetration of rooftop solar photovoltaics (PV) is pushing low-voltage distribution networks to the brink of their technical limits, which increasingly requires distribution system operators (DSO) to limit power exports. The easiest but also the bluntest instrument is to impose a blanket constraint, which is suboptimal and not in the best interest of PV owners. Alternatively, the DSO can compute PV export limits, also called operating envelopes, using AC optimal power flow (OPF) in real-time. However, this assumes full observability of customer demand, which is unrealistic in practice. To address this gap, we propose a bi-level framework under uncertainty to compute operating envelopes that are robust against uncertainty. At the upper level, the DSO solves a deterministic OPF using day-ahead prediction of customer demand and PV generation. The linearised OPF solution is then used in a chance-constrained OPF problem, resulting in a second-order cone model, which could be solved efficiently. At the lower level, prosumers optimise battery operation against the operating envelopes submitted by the DSO day-ahead. The proposed operating envelopes are fair in the sense that all prosumers are subject to the same export limit irrespective of their location in the network. •A bi-level framework is proposed to generate fair operating envelops for prosumers.•The uncertainties are considered in the chance-constrained AC OPF model formulation.•The CC AC OPF is reformulated to the deterministic ones to get the traceable results.•The fair operating envelopes help to increase the network hosting.
ArticleNumber	108465
Author	Yi, Yu Verbič, Gregor
Author_xml	– sequence: 1 givenname: Yu orcidid: 0000-0001-8727-6584 surname: Yi fullname: Yi, Yu email: yu.yi@sydney.edu.au – sequence: 2 givenname: Gregor orcidid: 0000-0003-4949-768X surname: Verbič fullname: Verbič, Gregor email: gregor.verbic@sydney.edu.au
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Snippet	The significant penetration of rooftop solar photovoltaics (PV) is pushing low-voltage distribution networks to the brink of their technical limits, which...
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SubjectTerms	Chance constraints Fair PV curtailment Hosting capacity Operating envelopes Optimal power flow Second-order cone programming
Title	Fair operating envelopes under uncertainty using chance constrained optimal power flow
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