Transmission expansion planning considering the impact of distributed generation

Matute Alvarado, Nelson Esteban; Torres Contreras, Santiago Patricio; Castro, Carlos Alberto

Please use this identifier to cite or link to this item: http://dspace.ucuenca.edu.ec/handle/123456789/34300

Title:	Transmission expansion planning considering the impact of distributed generation
Authors:	Matute Alvarado, Nelson Esteban Torres Contreras, Santiago Patricio Castro, Carlos Alberto
Keywords:	AC model Artificial fish swarm algorithm Distributed generation Electric power systems Expansion planning Particle swarm Transmission AC Model Artificial fish swarm algorithm Distributed Generation Electric Power Systems Expansion planning Particle Swarm Transmission
metadata.dc.ucuenca.areaconocimientofrascatiamplio:	2. Ingeniería y Tecnología
metadata.dc.ucuenca.areaconocimientofrascatidetallado:	2.2.1 Ingeniería Eléctrica y Electrónica
metadata.dc.ucuenca.areaconocimientofrascatiespecifico:	2.2 Ingenierias Eléctrica, Electrónica e Información
metadata.dc.ucuenca.areaconocimientounescoamplio:	07 - Ingeniería, Industria y Construcción
metadata.dc.ucuenca.areaconocimientounescodetallado:	0713 - Electricidad y Energia
metadata.dc.ucuenca.areaconocimientounescoespecifico:	071 - Ingeniería y Profesiones Afines
Issue Date:	2019
metadata.dc.ucuenca.embargoend:	13-May-2050
metadata.dc.ucuenca.volumen:	Volumen 0
metadata.dc.source:	Proceedings of 2019 IEEE PES Innovative Smart Grid Technologies Europe, ISGT-Europe 2019
metadata.dc.identifier.doi:	10.1109/ISGTEurope.2019.8905460
Publisher:	Institute of Electrical and Electronics Engineers Inc.
metadata.dc.description.city:	Bucharest
metadata.dc.type:	ARTÍCULO DE CONFERENCIA
Abstract:	Distributed Generation (DG) is a very important alternative to the traditional approach of centralized generation and plays a major role not only in electric distribution systems but also in transmission systems. The incidence of DG in the electrical system (sub-transmission and/or distribution) could defer the addition of new transmission circuits and reduce transmission network losses, representing potential economical savings. This paper studies the economic impact of DG on the Transmission Expansion Planning (TEP) problem including also the cost of transmission network losses. A long-term deterministic static transmission expansion planning using the mathematical AC model is presented. DG is modeled as the summation of each type of small-scale generation technology concentrated in the load node. The proposed TEP approach provides information on the optimal combination of transmission circuits and DG in load nodes. The problem, formulated using the AC model, corresponds to a full non convex, non-linear mixed-integer programming (MINLP) problem. Performance comparisons between Particle Swarm Optimization (PSO) and Artificial Fish Swarm Algorithm (AFSA), to solve the problem, are shown. Garver 6 - bus and IEEE 24 - bus test systems are used to evaluate this TEP approach.
Description:
URI:	https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85075859324&origin=inward
metadata.dc.ucuenca.urifuente:	https://ieeexplore.ieee.org/document/8905614
ISBN:	978-1-5386-8218-06
ISSN:	0000-0000
Appears in Collections:	Artículos

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