S. Massucco scite author profile

Among the innovative contributions to electric distribution systems, one of the most promising and qualified is the possibility to manage and control distributed generation. Therefore, the latest distribution management systems tend to incorporate optimization functions for the short-term scheduling of the various energy and control resources available in the network (e. g., embedded generators, reactive power compensators and transformers equipped with on-load tap changers). The short-term scheduling procedure adopted in the paper is composed by two stages: a day-ahead scheduler for the optimization of distributed resources production during the following day, an intra-day scheduler that every 15 min adjusts the scheduling in order to take into account the operation requirements and constraints of the distribution network. The intra-day scheduler solves a non-linear multi-objective optimization problem by iteratively applying a mixed-integer linear programming (MILP) algorithm. The linearization of the optimization function and the constraints is achieved by the use of sensitivity coefficients obtained from the results of a three-phase power flow calculation. The paper shows the application of the proposed approach to a medium-voltage 120 buses network with five wind plants, one photovoltaic field, ten dispatchable generators, and two transformers equipped with on-load tap changers

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Implementation and comparison of different under frequency load-shedding schemes

Delfino

Massucco

Morini

et al. 2001

149

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Optimal management strategy of a battery-based storage system to improve renewable energy integration in distribution networks

Grillo

Marinelli

Massucco

et al. 2013

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Probabilistic Risk-Based Security Assessment of Power Systems Considering Incumbent Threats and Uncertainties

Ciapessoni

Cirio

Kjølle

et al. 2016

IEEE Trans. Smart Grid

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In-depth security analyses of power systems (PSs) require to consider the vulnerabilities to natural and human-related threats, which may cause multiple dependent contingencies. On the other hand, such events often lead to high impact on the system, so that decision-making aimed to enhance security may become difficult. Introducing the uncertainty, the risk associated to each contingency can be evaluated, thus allowing to perform effective contingency ranking. This paper describes an in-depth security assessment methodology, based on an ``extended'' definition of risk (including threats, vulnerability, contingency, and impact) aimed to perform the risk assessment of the integrated power and Information and Communication Technology (ICT) systems. The results of the application to test cases and realistic PSs show the added value of the proposed approach with respect to conventional security analyses in dealing with uncertainty of threats, vulnerabilities, and system response

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Implementation of advanced functionalities for Distribution Management Systems: Load forecasting and modeling through Artificial Neural Networks ensembles

Saviozzi

Massucco

Silvestro

2019

Electric Power Systems Research

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A Stochastic Optimization Method for Planning and Real-Time Control of Integrated PV-Storage Systems: Design and Experimental Validation

Conte

Massucco

Saviozzi

et al. 2018

IEEE Trans. Sustain. Energy

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A microturbine generation system for grid connected and islanding operation

Bertani

Bossi

Fornari³

et al.

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Load-frequency control and inadvertent interchange evaluation in restructured power systems

Delfino

Fornari

Massucco

2002

IEE Proc., Gener. Transm. Distrib.

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S. Massucco

Short-Term Scheduling and Control of Active Distribution Systems With High Penetration of Renewable Resources

Implementation and comparison of different under frequency load-shedding schemes

Optimal management strategy of a battery-based storage system to improve renewable energy integration in distribution networks

Probabilistic Risk-Based Security Assessment of Power Systems Considering Incumbent Threats and Uncertainties

Implementation of advanced functionalities for Distribution Management Systems: Load forecasting and modeling through Artificial Neural Networks ensembles

A Stochastic Optimization Method for Planning and Real-Time Control of Integrated PV-Storage Systems: Design and Experimental Validation

A microturbine generation system for grid connected and islanding operation

Load-frequency control and inadvertent interchange evaluation in restructured power systems

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