An Architecture for Local Energy Generation, Distribution, and Sharing

He, Mike; Reutzel, Evan; Jiang, Xiaofan; Katz, Randy H.; Sanders, S.R.; Culler, David; Lutz, Ken

doi:10.1109/energy.2008.4781028

Cited by 74 publications

(32 citation statements)

References 5 publications

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“…En [29] es presentado el concepto de la red eléctrica del futuro; proponiendo una innovadora arquitectura de energía eléctrica que integra funcionalidades tanto de Internet como de las micro-redes. El componente principal de esta arquitectura es un conmutador inteligente de potencia (Intelligent Power Switch, IPS) que combina las capacidades de un enrutador de Internet con la conversión de energía eléctrica y la protección de equipos [29].…”

Section: Conmutador Inteligente De Potenciaunclassified

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El conmutador inteligente de potencia y la sub-medición por circuito como herramientas para la gestión energética residencial

Rueda

Pérez

Duarte

2017

revuin

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Este artículo puede compartirse bajo la licencia CC BY-ND 4.0 y se referencia usando el siguiente formato: L. Rueda, J. Barrero, C. Duarte. El conmutador inteligente de potencia y la sub-medición por circuito como herramientas para la gestión energética residencial," UIS Ingenierías, vol. 16, no. 1, pp. 35-46, Enero-Junio 2017.El conmutador inteligente de potencia y la sub-medición por circuito como herramientas para la gestión energética residencial RESUMENEste documento presenta el concepto de un hogar inteligente, sus componentes y sus aplicaciones desde el punto de vista de ahorro y gestión energética, describiendo las características y el funcionamiento de la sub-medición por circuito y el conmutador inteligente de potencia, al igual que su integración con el hogar inteligente. Asimismo, se muestra la reglamentación y normativa colombiana que promueve el uso racional y eficiente de energía, la utilización de fuentes no convencionales de energía eléctrica y los primeros pasos hacia la implementación de las redes inteligentes en Colombia. De igual forma, se presenta la topología e implementación de un sistema de distribución residencial, el cual permite controlar el flujo de energía entre diferentes fuentes de energía y las cargas de una vivienda. Finalmente, se analiza el comportamiento de la tensión en las cargas ante diferentes escenarios de conexión, observando la importancia de realizar adecuadamente las conmutaciones en el IPS. PALABRAS CLAVE:Hogar inteligente, Conmutador Inteligente de Potencia, Sub-medición, Fuentes renovables. ABSTRACTThis paper introduces the concept of Smart Home, its components and applications in terms of saving and energy management, describing the characteristics and the operation of the sub-metering by circuit and the intelligent power switch, as well as its integration with the smart home. In addition to that, the regulation and Colombian legislation that promotes the rational and efficient use of energy, the use of non-conventional sources of electricity and the first steps towards the implementation of smart grids in Colombia, are exposed. This research presents the topology and the implementation of a residential distribution system, which allows controlling the energy flow through different energy sources and housing loads. Finally, the behavior of voltage in the loads in different connection scenarios is analyzed, stressing the importance of the appropriate realization of commutations at the IPS.

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Section: Conmutador Inteligente De Potenciaunclassified

“…El componente principal de esta arquitectura es un conmutador inteligente de potencia (Intelligent Power Switch, IPS) que combina las capacidades de un enrutador de Internet con la conversión de energía eléctrica y la protección de equipos [29].…”

Section: Conmutador Inteligente De Potenciaunclassified

El conmutador inteligente de potencia y la sub-medición por circuito como herramientas para la gestión energética residencial

Rueda

Pérez

Duarte

2017

revuin

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“…Many control architectures, often utilizing aggregation principles, have been proposed in this context, such as Virtual Power Plants [16], Cells [17], [18], or MicroGrids [19]. The comprehensive performance Illustration of the three-domains concept.…”

Section: Objective Of This Workmentioning

confidence: 99%

Unified System-Level Modeling of Intermittent Renewable Energy Sources and Energy Storage for Power System Operation

Heussen

Koch

Ulbig

et al. 2012

IEEE Systems Journal

135

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Abstract-The system-level consideration of intermittent renewable energy sources and small-scale energy storage in power systems remains a challenge as either type is incompatible with traditional operation concepts. Non-controllability and energy-constraints are still considered contingent cases in market-based operation. The design of operation strategies for up to 100 % renewable energy systems requires an explicit consideration of non-dispatchable generation and storage capacities, as well as the evaluation of operational performance in terms of energy efficiency, reliability, environmental impact and cost. By abstracting from technology-dependent and physical unit properties, the modeling framework presented and extended in this paper allows the modeling of a technologically diverse unit portfolio with a unified approach, whilst establishing the feasibility of energy-storage consideration in power system operation. After introducing the modeling approach, a case study is presented for illustration.

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“…The purpose of this project is to create a power network that can be readily adapted to the existing one, and can ultimately provide better regulation, distribution, and transmission of power. Power packet dispatching systems [6] and intelligent power switches [7,8] have also been investigated for the purpose of improved power delivery. The feasibility of the power router requires further testing for practical applications; however, this study is aimed at demonstrating the feasibility of power router switching in three-phase systems.…”

Section: Introductionmentioning

confidence: 99%

The Three-Phase Power Router and Its Operation with Matrix Converter toward Smart-Grid Applications

et al. 2015

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A power router has been recently developed for both AC and DC applications that has the potential for smart-grid applications. This study focuses on three-phase power switching through the development of an experimental setup which consists of a three-phase direct AC/AC matrix converter with a power router attached to its output. Various experimental switching scenarios with the loads connected to different input sources were investigated. The crescent introduction of decentralized power generators throughout the power-grid obligates us to take measurements for a better distribution and management of the power. Power routers and matrix converters have great potential to succeed this goal with the help of power electronics devices. In this paper, a novel experimental three-phase power switching was achieved and the advantages of this operation are presented, such as on-demand and constant power supply at the desired loads.

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An Architecture for Local Energy Generation, Distribution, and Sharing

Cited by 74 publications

References 5 publications

El conmutador inteligente de potencia y la sub-medición por circuito como herramientas para la gestión energética residencial

El conmutador inteligente de potencia y la sub-medición por circuito como herramientas para la gestión energética residencial

Unified System-Level Modeling of Intermittent Renewable Energy Sources and Energy Storage for Power System Operation

The Three-Phase Power Router and Its Operation with Matrix Converter toward Smart-Grid Applications

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