Enabling Micro-level Demand-Side Grid Flexiblity in Resource Constrained Environments
Autor: | Diego Ponce de Leon Barido, Eric Brewer, Daniel M. Kammen, Javier Rosa, Stephen Suffian |
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Přispěvatelé: | Abdelzaher, Tarek F, Kumar, PR, Buchmann, Alejandro P, Lu, Chenyang |
Rok vydání: | 2017 |
Předmět: |
Computer science
Energy management 020209 energy Systems and Control (eess.SY) 02 engineering and technology Demand response Load management Variable renewable energy Affordable and Clean Energy FOS: Electrical engineering electronic engineering information engineering 0202 electrical engineering electronic engineering information engineering business.industry Energy consumption Grid Solar energy cs.SY Renewable energy Climate Action Smart grid Computer Science - Systems and Control 020201 artificial intelligence & image processing Telecommunications business Building envelope Efficient energy use Computer network |
Zdroj: | IoTDI Baridó, DPDL; Suffian, S; Rosa, J; Brewer, EA; & Kammen, DM. Abdelzaher, TF; Kumar, PR; Buchmann, AP; & Lu, C eds. (2017). Enabling Micro-level Demand-Side Grid Flexiblity in Resource Constrained Environments.. IoTDI, 233-245. doi: 10.1145/3054977.3054984. UC Berkeley: Retrieved from: http://www.escholarship.org/uc/item/3fd969cw De Leon Barido, DP; Suffian, S; Rosa, J; Brewer, E; & Kammen, DM. (2017). Enabling micro-level demand-side grid flexiblity in resource constrained environments. Proceedings-2017 IEEE/ACM 2nd International Conference on Internet-of-Things Design and Implementation, IoTDI 2017 (part of CPS Week), 233-245. doi: 10.1145/3054977.3054984. UC Berkeley: Retrieved from: http://www.escholarship.org/uc/item/8jc7t5j9 |
DOI: | 10.1145/3054977.3054984 |
Popis: | © 2017 ACM. The increased penetration of uncertain and variable renewable energy presents various resource and operational electric grid challenges 1 . Micro-level (household and small commercial) demand-side grid flexibility could be a cost-effective strategy to integrate high penetrations of wind and solar energy, but literature and field deployments exploring the necessary information and communication technologies (ICTs) are scant. This paper presents an exploratory framework for enabling information driven grid flexibility through the Internet of Things (IoT), and a proof-of-concept wireless sensor gateway (FlexBox) to collect the necessary parameters for adequately monitoring and actuating the micro-level demand-side. In the summer of 2015, thirty sensor gateways were deployed in the city of Managua (Nicaragua) to develop a baseline for a near future small-scale demand response pilot implementation. FlexBox field data has begun shedding light on relationships between ambient temperature and load energy consumption, load and building envelope energy efficiency challenges, latency communication network challenges, and opportunities to engage existing demand-side user behavioral patterns. Information driven grid flexibility strategies present great opportunity to develop new technologies, system architectures, and implementation approaches that can easily scale across regions, incomes, and levels of development. |
Databáze: | OpenAIRE |
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