Aluminum plant : Load modeling for stability studies

The “Sistema Eléctrico Patagónico Interconectado (SFPI)” is an elechic system that involves the Argentina south region. This electric system is isolated fiom the other one in the north of the country. The 60% of its load is consumed by an aluminum production plant consisting of two 160 MW series of...

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Detalles Bibliográficos
Autores principales:	Agüero, Jorge Luis, Beroqui, Mario César, Achilles, Alfredo Sebastián
Formato:	Objeto de conferencia
Lenguaje:	Español
Publicado:	1999
Materias:	Ingeniería load modeling power system dinamic stability power system transient stability spinning reserve load shedding energía eléctrica
Acceso en línea:	http://sedici.unlp.edu.ar/handle/10915/44985 https://app.box.com/s/rcm88n9sqbo1aijco582hlnlzd5ncut1
Aporte de:	SEDICI (UNLP) de Universidad Nacional de La Plata

id	I19-R120-10915-44985
record_format	dspace
institution	Universidad Nacional de La Plata
institution_str	I-19
repository_str	R-120
collection	SEDICI (UNLP)
language	Español
topic	Ingeniería load modeling power system dinamic stability power system transient stability spinning reserve load shedding energía eléctrica
spellingShingle	Ingeniería load modeling power system dinamic stability power system transient stability spinning reserve load shedding energía eléctrica Agüero, Jorge Luis Beroqui, Mario César Achilles, Alfredo Sebastián Aluminum plant : Load modeling for stability studies
topic_facet	Ingeniería load modeling power system dinamic stability power system transient stability spinning reserve load shedding energía eléctrica
description	The “Sistema Eléctrico Patagónico Interconectado (SFPI)” is an elechic system that involves the Argentina south region. This electric system is isolated fiom the other one in the north of the country. The 60% of its load is consumed by an aluminum production plant consisting of two 160 MW series of 200 electrolytic cells each one. Dynamic and transient stability studies carried out over this system, taking into Bccount present and future situations, with load and genedon grown at the aluminum plant and in the remaining system, require adequate modeling of this particular load. Tests and simulations canied out to obtain the electrolytic process load model are &scribed. Statistical behavior of the aluminum plant load variations is analp4 to estimate the spinning reserve in the system. By the way, available load shedding mechanisms at the aluminum plant, as a system control element, were tested and the results are analyzed.
format	Objeto de conferencia Objeto de conferencia
author	Agüero, Jorge Luis Beroqui, Mario César Achilles, Alfredo Sebastián
author_facet	Agüero, Jorge Luis Beroqui, Mario César Achilles, Alfredo Sebastián
author_sort	Agüero, Jorge Luis
title	Aluminum plant : Load modeling for stability studies
title_short	Aluminum plant : Load modeling for stability studies
title_full	Aluminum plant : Load modeling for stability studies
title_fullStr	Aluminum plant : Load modeling for stability studies
title_full_unstemmed	Aluminum plant : Load modeling for stability studies
title_sort	aluminum plant : load modeling for stability studies
publishDate	1999
url	http://sedici.unlp.edu.ar/handle/10915/44985 https://app.box.com/s/rcm88n9sqbo1aijco582hlnlzd5ncut1
work_keys_str_mv	AT aguerojorgeluis aluminumplantloadmodelingforstabilitystudies AT beroquimariocesar aluminumplantloadmodelingforstabilitystudies AT achillesalfredosebastian aluminumplantloadmodelingforstabilitystudies
bdutipo_str	Repositorios
_version_	1764820474188005380

Aluminum plant : Load modeling for stability studies

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