Antonio Padilha‐Feltrin scite author profile

Evaluating the technical impacts associated with connecting distributed generation to distribution networks is a complex activity requiring a wide range of network operational and security effects to be qualified and quantified. One means of dealing with such complexity is through the use of indices that indicate the benefit or otherwise of connections at a given location and which could be used to shape the nature of the contract between the utility and distributed generator. This paper presents a multiobjective performance index for distribution networks with distributed generation which considers a wide range of technical issues. Distributed generation is extensively located and sized within the IEEE-34 test network, wherein the multiobjective performance index is computed for each configuration. Results are presented and discussed.

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Power flow in four-wire distribution networks-general approach

Ćirić

Padilha‐Feltrin

Ochoa

2003

IEEE Trans. Power Syst.

222

149

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The neutral wire in most power flow software is usually merged into phase wires using Kron's reduction. Since the neutral wire and the ground are not explicitly represented, neutral wire and ground currents and voltages remain unknown. In some applications, like power quality and safety analyses, loss analysis, etc., knowing the neutral wire and ground currents and voltages could be of special interest. In this paper, a general power flow algorithm for three-phase four-wire radial distribution networks, considering neutral grounding, based on backwardforward technique, is proposed. In this novel use of the technique, both the neutral wire and ground are explicitly represented. A problem of three-phase distribution system with earth return, as a special case of a four-wire network, is also elucidated. Results obtained from several case studies using medium and low voltage test feeders with unbalanced load, are presented and discussed.

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An Efficient Codification to Solve Distribution Network Reconfiguration for Loss Reduction Problem

Carreno

Romero

Padilha‐Feltrin

2008

IEEE Trans. Power Syst.

224

105

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$Z_{\rm bus}$ Transmission Network Cost Allocation

Conejo

Contreras

Lima

et al. 2007

IEEE Trans. Power Syst.

132

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Evaluating Distributed Time-Varying Generation Through a Multiobjective Index

Ochoa

Padilha‐Feltrin

Harrison

2008

IEEE Trans. Power Delivery

147

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In the last decade, distributed generation, with its various technologies, has increased its presence in the energy mix presenting distribution networks with challenges in terms of evaluating the technical impacts that require a wide range of network operational effects to be qualified and quantified. The inherent time-varying behavior of demand and distributed generation (particularly when renewable sources are used), need to be taken into account since considering critical scenarios of loading and generation may mask the impacts. One means of dealing with such complexity is through the use of indices that indicate the benefit or otherwise of connections at a given location and for a given horizon. This paper presents a multiobjective performance index for distribution networks with time-varying distributed generation which consider a number of technical issues. The approach has been applied to a medium voltage distribution network considering hourly demand and wind speeds. Results show that this proposal has a better response to the natural behavior of loads and generation than solely considering a single operation scenario.

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