Distributed Interruptible Load Shedding and Micro-Generator Dispatching to Benefit System Operations

Raffaele Argiento; Roberto Faranda; Antonio Pievatolo; Enrico Tironi

doi:10.1109/TPWRS.2011.2173217

Distributed Interruptible Load Shedding and Micro-Generator Dispatching to Benefit System Operations

Raffaele Argiento, Roberto Faranda, Antonio Pievatolo, Enrico Tironi

Università Cattolica del Sacro Cuore

Risultato della ricerca: Contributo in rivista › Articolo › peer review

31 Citazioni (Scopus)

Abstract

A blackout is the worst end result of a significant difference between generation and absorption of power. Therefore, distribution network operators (DNO) need to know and control the load and generation profiles in advance to run an electric power network well, especially when distributed generation is present, as in the smart grid of the future. The combination of distributed interruptible load shedding and dispatched microgenerators provides the DNO with an interesting opportunity for power network emergency management. In this paper, a proposal to approach this problem and some test results are presented using probabilistic methods for a small low voltage network with interruptible loads and combined heat and power (muCHP) generators.

Lingua originale	Inglese
pagine (da-a)	840-848
Numero di pagine	9
Rivista	IEEE Transactions on Power Systems
Volume	27
DOI	https://doi.org/10.1109/TPWRS.2011.2173217
Stato di pubblicazione	Pubblicato - 2012

Keywords

power ( CHP )CHP , blackout, demand side management, energy management, load shedding, statistics, stochastic system, uncertain system.

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abstract = "A blackout is the worst end result of a significant difference between generation and absorption of power. Therefore, distribution network operators (DNO) need to know and control the load and generation profiles in advance to run an electric power network well, especially when distributed generation is present, as in the smart grid of the future. The combination of distributed interruptible load shedding and dispatched microgenerators provides the DNO with an interesting opportunity for power network emergency management. In this paper, a proposal to approach this problem and some test results are presented using probabilistic methods for a small low voltage network with interruptible loads and combined heat and power (muCHP) generators.",

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AU - Argiento, Raffaele

AU - Faranda, Roberto

AU - Pievatolo, Antonio

AU - Tironi, Enrico

PY - 2012

Y1 - 2012

N2 - A blackout is the worst end result of a significant difference between generation and absorption of power. Therefore, distribution network operators (DNO) need to know and control the load and generation profiles in advance to run an electric power network well, especially when distributed generation is present, as in the smart grid of the future. The combination of distributed interruptible load shedding and dispatched microgenerators provides the DNO with an interesting opportunity for power network emergency management. In this paper, a proposal to approach this problem and some test results are presented using probabilistic methods for a small low voltage network with interruptible loads and combined heat and power (muCHP) generators.

AB - A blackout is the worst end result of a significant difference between generation and absorption of power. Therefore, distribution network operators (DNO) need to know and control the load and generation profiles in advance to run an electric power network well, especially when distributed generation is present, as in the smart grid of the future. The combination of distributed interruptible load shedding and dispatched microgenerators provides the DNO with an interesting opportunity for power network emergency management. In this paper, a proposal to approach this problem and some test results are presented using probabilistic methods for a small low voltage network with interruptible loads and combined heat and power (muCHP) generators.

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JO - IEEE Transactions on Power Systems

JF - IEEE Transactions on Power Systems

ER -

Distributed Interruptible Load Shedding and Micro-Generator Dispatching to Benefit System Operations

Abstract

Keywords

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