Search results for " Demand Response"

showing 10 items of 13 documents

Building Automation and Control Systems and Electrical Distribution Grids: A Study on the Effects of Loads Control Logics on Power Losses and Peaks

2018

Growing home comfort is causing increasing energy consumption in residential buildings and a consequent stress in urban medium and low voltage distribution networks. Therefore, distribution system operators are obliged to manage problems related to the reliability of the electricity system and, above all, they must consider investments for enhancing the electrical infrastructure. The purpose of this paper is to assess how the reduction of building electricity consumption and the modification of the building load profile, due to load automation, combined with suitable load control programs, can improve network reliability and distribution efficiency. This paper proposes an extensive study on…

Control and OptimizationComputer science020209 energyEnergy Engineering and Power Technologydemand-side management (DSM)Power losse02 engineering and technologyLoad profilelcsh:TechnologyDemand responseBuilding AutomationBuilding Automation and Control (BAC)Thermal0202 electrical engineering electronic engineering information engineeringpower lossesdemand-side managementElectrical and Electronic EngineeringEngineering (miscellaneous)Building automationRenewable Energy Sustainability and the Environmentbusiness.industrylcsh:TControl (BAC)Energy consumptionAutomationReliability engineeringSettore ING-IND/33 - Sistemi Elettrici Per L'Energiademand responseControl systemload controlElectricitybusinessLow voltageBuilding Automation and Control (BAC); demand-side management; demand-side management (DSM); demand response; load control; power lossesEnergy (miscellaneous)Energies
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Home energy management system : a home energy management system under different electricity pricing mechanisms

2014

Masteroppgave i fornybar energi ENE 500 Universitetet i Agder 2014 Peak demand is a severe problem in the electricity grid and it was solved by supply side management in the past. But nowadays the demand side management sources have drawn attention due to the economic and environmental constraints. Demand side management in the domestic sector can play an important role in reducing the peak demand on the power system network. It can help in reducing stress and overloading on the transmission and distribution lines. In many countries there are various demand response programs implemented for industrial and commercial loads. In these programs load control is primarily achieved by various type…

Domestic demand response ; Home energy management system (EMS) ; demand limits ; non-critical loads ; load priority ; Time of Use pricing ; Real Time PricingVDP::Technology: 500
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Effects of COVID19 pandemic on the Italian power system and possible countermeasures

2021

Abstract The paper analyses the dramatic effects of the first wave of the COVID-19 pandemic on the Italian power system, considering the impacts on load and generation, market issues and ancillary services provision. During the period between March and May 2020, the Italian scenario was considered as exemplary due to the large reduction of loads and thermal generation caused by the hard lockdown across the Country. Italy has experienced the most severe effects of pandemic in terms of increase of death rates and of pressure on the health system as well as severity of the countermeasures. As a domino effect, the total lockdown of one of the most industrialized countries in the world has creat…

Energy Engineering and Power TechnologyFFRArticle99-00Demand responseElectric power systemAggregationBlockchainElectrical and Electronic EngineeringAggregation Blockchain Covid-19. Demand response Electric load FFR Flexibility FRC PandemicResilience (network)Demand responsePandemicSettore ING-INF/03 - TelecomunicazioniPhotovoltaic systemFRC00-01Settore ING-IND/33 - Sistemi Elettrici Per L'EnergiaOpen dataDomino effectPower ratingRisk analysis (engineering)BusinessFlexibilityContingencyCovid-19Electric load
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Unidirectional Direct Load Control through Smart Plugs

2014

International audience; Balancing energy demand and production is be-coming a more and more challenging task for energy utilities also because of the larger penetration of renewable energies which are more difficult to predict and control. While the traditional solution is to dynamically adapt energy production to follow time-varying demand, a new trend is to drive demand itself. Most of the ongoing actions in this direction involve greedy energy consumers, like industrial plants, supermarkets or large buildings. Pervasive communication technologies may allow in the near future to push further the granularity of such approach, by having the energy utility interacting with residen-tial appli…

Engineeringbusiness.industryLoad control switchSettore ING-INF/03 - TelecomunicazioniDistributed computing[SPI.NRJ]Engineering Sciences [physics]/Electric powerReal-time computingProbabilistic logic[SCCO.COMP]Cognitive science/Computer scienceLoad balancing (electrical power)Renewable energySmart Grid; Demand Response; Direct Load Control; Energy SystemsDemand response[INFO.INFO-NI]Computer Science [cs]/Networking and Internet Architecture [cs.NI]Smart gridSettore ING-INF/04 - Automatica[MATH.MATH-OC]Mathematics [math]/Optimization and Control [math.OC]GranularityInterruptbusinessSmart Grid Demand Response Direct Load Control Energy Systems
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Unidirectional probabilistic direct control for deferrable loads

2014

International audience; The idea of harnessing the inherent flexibility in demand of many types of electric loads has been largely discussed in the last years for coping with the need to maintain the energy demand-supply balance. In particular, the fine tuning of the operation conditions of different thermostatic loads (such as air-conditioning, refrigerators, etc.) has appeared as the most natural solution for load control with minimal user discomfort. In this paper we focus on an alternative approach: deploying simple open-loop control strategies for deferrable loads with minimal communication overhead. The idea is to send a multicast control message to a group of users, on the basis of t…

Flexibility (engineering)MulticastComputer scienceSettore ING-INF/03 - TelecomunicazioniControl (management)Real-time computing[SPI.NRJ]Engineering Sciences [physics]/Electric powerProbabilistic logicSmart Grid Energy System Direct Load Control Demand Response.Demand ResponseEnergy SystemSmart Grid; Energy System; Direct Load Control; Demand Response.[SPI.AUTO]Engineering Sciences [physics]/Automatic[INFO.INFO-NI]Computer Science [cs]/Networking and Internet Architecture [cs.NI]Null (SQL)Settore ING-INF/04 - AutomaticaControl theoryOverhead (computing)Smart GridEnergy (signal processing)Direct Load Control
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A Methodology for Exploiting Smart Prosumers’ Flexibility in a Bottom-Up Aggregation Process

2022

The electrical power system is evolving in a way that requires new measures for ensuring its secure and reliable operation. Demand-side aggregation represents one of the more interesting ways to provide ancillary services by the coordinated management of a multitude of different distributed resources. In this framework, aggregators play the main role in ensuring the effectiveness of the coordinated action of the distributed resources, usually becoming mediators in the relation between distribution system operators and smart prosumers. The research project DEMAND recently introduced a new concept in demand-side aggregation by proposing a scheme without a central aggregator where prosumers ca…

Fluid Flow and Transfer ProcessesTechnologyprosumerQH301-705.5Process Chemistry and TechnologyTPhysicsQC1-999bottom-up aggregationGeneral EngineeringEngineering (General). Civil engineering (General)Computer Science ApplicationsSettore ING-IND/33 - Sistemi Elettrici Per L'Energiademand response; bottom-up aggregation; prosumer; VAEChemistryBottom-up aggregation Demand response Prosumer VAEdemand responseVAEGeneral Materials ScienceTA1-2040Biology (General)InstrumentationQD1-999Applied Sciences; Volume 12; Issue 1; Pages: 430
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An Efficient and Secure Energy Trading Approach with Machine Learning Technique and Consortium Blockchain

2022

In this paper, a secure energy trading mechanism based on blockchain technology is proposed. The proposed model deals with energy trading problems such as insecure energy trading and inefficient charging mechanisms for electric vehicles (EVs) in a vehicular energy network (VEN). EVs face two major problems: finding an optimal charging station and calculating the exact amount of energy required to reach the selected charging station. Moreover, in traditional trading approaches, centralized parties are involved in energy trading, which leads to various issues such as increased computational cost, increased computational delay, data tempering and a single point of failure. Furthermore, EVs fac…

Machine LearningBlockchainconsortium blockchain; branching; charging station; demand response; double spending; electric vehicles; energy trading; KNN; machine learning; vehicular energy networkElectricityElectrical and Electronic EngineeringBiochemistryInstrumentationVDP::Teknologi: 500::Informasjons- og kommunikasjonsteknologi: 550Atomic and Molecular Physics and OpticsAnalytical ChemistrySensors; Volume 22; Issue 19; Pages: 7263
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Strategie e scenari di aggregazione delle risorse distribuite nel mercato elettrico

2016

L’articolo espone una modalità per ampliare la base di partecipazione di soggetti connessi alla rete elettrica (aggregatori di carico, sistemi di accumulo distribuiti, ecc.) ai mercati dei servizi già regolamentati, sfruttando opportune azioni di controllo di tipo Demand Response.

Settore ING-IND/33 - Sistemi Elettrici Per L'EnergiaAggregazione dei carichi demand response
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Distributed Demand-Response Certification using Blockchain Technology

2021

Settore ING-IND/33 - Sistemi Elettrici Per L'EnergiaP2PSmart ContractBlockchainBlockchain energy services smart contract distributed demand response aggregation energy management energy marketSmart GridDistributed Demand-Response
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Demand Response Pricing Strategies for Islanded Microgrids

2013

In this paper, Time of Use and Critical Peak Pricing policies are designed and their effects on optimized operation is evaluated. For this purpose, an optimal operation algorithm is employed and the relevant production costs are derived. As far as the Time of Use policy is concerned, such costs are observed to be different in two time intervals of the day, due to the loads changing effect and the production of renewable energy. Whereas in the Critical Peak Pricing Policy, a peak time interval is identified to set up different pricing rates. The optimization algorithm used to carry out the work described above minimizes the microgrid's energy losses, the production costs and the Green House …

Settore ING-IND/33 - Sistemi Elettrici Per L'Energiamicrogrids demand response critical peak pricing
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