0000000000205488

AUTHOR

Josep M. Guerrero

showing 15 related works from this author

Optimizing droop coefficients for minimum cost operation of islanded micro-grids

2017

This paper shows how minimum cost energy management can be carried out for islanded micro-grids considering an expanded state that also includes the system's frequency. Each of the configurations outputted by the energy management system at each hour are indeed technically sound and coherent from the point of view of generation-consumption balancing by exploiting a frequency dependent load flow algorithm. A Glow-worm Swarm Optimization (GSO) algorithm carried out in a 24 hour time frame provides optimized results. A test has been carried out for a residential PV-Storage-Microturbine islanded micro-grid to show the feasibility as well as the efficiency of the proposed approach and results ar…

EngineeringEnvironmental EngineeringEnergy management020209 energyGlow-worm swarm optimizationFlow (psychology)Optimal power flow (OPF)Energy Engineering and Power Technology02 engineering and technologyMicro-gridIndustrial and Manufacturing EngineeringTime frameControl theory0202 electrical engineering electronic engineering information engineeringPoint (geometry)Voltage droopElectrical and Electronic EngineeringSimulationbusiness.industryEnergy managementSwarm behaviourSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaEnergy management systemState (computer science)business2017 IEEE International Conference on Environment and Electrical Engineering and 2017 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I&CPS Europe)
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Demand Response Service Certification and Customer Baseline Evaluation Using Blockchain Technology

2020

The use of Distributed Ledger Technologies such as Blockchain for certifying Demand Response services allows for the creation of a distributed system in which customers can communicate with the system operator to provide their flexibility, in a secure, transparent and traceable way. Blockchain technology also supports incentive mechanisms for users taking part in the service through the generation of utility tokens to recognize the user's contribution. This paper presents the experimental test of a novel methodology for Demand Response programs implementation by using the Blockchain technology. The latter is employed for defining a distributed Demand Response service and a new system for it…

TechnologyBlockchainGeneral Computer ScienceSmart contractComputer science020209 energyContracts02 engineering and technologyCertificationELECTRICITYDemand responseLoad managementEngineeringBlockchaindistributed balancing0202 electrical engineering electronic engineering information engineeringhyperledger fabricGeneral Materials ScienceMicrogridsReal-time systemsService (business)Flexibility (engineering)Load managementScience & TechnologyComputer Science Information SystemsSettore ING-INF/03 - TelecomunicazioniDIRECT LOAD CONTROLbusiness.industry020208 electrical & electronic engineeringGeneral EngineeringEngineering Electrical & Electronicbaseline Blockchain demand response distributed balancing hyperledger fabric smart contractEnergy technologybaselineSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaSmart gridIncentivedemand responseComputer ScienceTelecommunicationslcsh:Electrical engineering. Electronics. Nuclear engineeringMicrogridbusinesssmart contractlcsh:TK1-9971Computer network
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Generalization Capacity Analysis of Non- Intrusive Load Monitoring using Deep Learning

2020

Appliance Load Monitoring is a technique used to monitor devices existing in homes, industry or naval vessels. Acquisition of device-level data can provide great benefits in many areas such as energy management, demand response, and load forecasting. However, the monitoring process is often provided with a costly installation, as it requires a large number of sensors and a data center. Non-Intrusive Load Monitoring (NILM) is an alternative and cost-efficient load monitoring solution. Simply put, NILM is the process of obtaining device-level data by analyzing the aggregated data read from the main meter that measures the electricity consumption of the whole house. Before NILM analysis is per…

energy managementComputer scienceEnergy managementbusiness.industryDeep learningReal-time computingenergy disaggregationProcess (computing)deep learningload monitoringDemand responsedemand responseMetreData centerMicrogridElectricityArtificial intelligencebusiness
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Active load sharing technique for on-line efficiency optimization in DC microgrids

2017

Recently, DC power distribution is gaining more and more importance over its AC counterpart achieving increased efficiency, greater flexibility, reduced volumes and capital cost. In this paper, a 24-120-325V two-level DC distribution system for home appliances, each including three parallel DC-DC converters, is modeled. An active load sharing technique is proposed for the on-line optimization of the global efficiency of the DC distribution network. The algorithm aims at the instantaneous efficiency optimization of the whole DC network, based on the on-line load current sampling. A Look Up Table, is created to store the real efficiencies of the converters taking into account components toler…

EngineeringEnvironmental EngineeringDC distribution system020209 energyEnergy Engineering and Power Technology02 engineering and technologyActive loadIndustrial and Manufacturing EngineeringSampling (signal processing)Control theoryGenetic algorithm0202 electrical engineering electronic engineering information engineeringElectronic engineeringElectrical and Electronic EngineeringMATLABcomputer.programming_languageGlobal efficiency optimizationbusiness.industryConvertersPower (physics)Settore ING-IND/33 - Sistemi Elettrici Per L'EnergiaDC distributionLookup tableOptimal load sharingbusinesscomputer
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Hierarchical control with virtual resistance optimization for efficiency enhancement and State-of-Charge balancing in DC microgrids

2015

This paper proposes a hierarchical control scheme which applies optimization method into DC microgrids in order to improve the system overall efficiency while considering the State-of-Charge (SoC) balancing at the same time. Primary droop controller, secondary voltage restoration controller and tertiary optimization tool formulate the complete hierarchical control system. Virtual resistances are taken as the decision variables for achieving the objective. simulation results are presented to verify the proposed approach.

EngineeringHierarchical controlLinear programmingbusiness.industryControl engineeringEfficiencyState-of-chargeSettore ING-IND/33 - Sistemi Elettrici Per L'Energiaefficiency genetic algorithm hierarchical control state-of-chargeState of chargeGenetic algorithmControl theoryGenetic algorithmHierarchical control systemSystem on a chipVoltage droopAlgorithm designbusiness2015 IEEE First International Conference on DC Microgrids (ICDCM)
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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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A parametric study on unbalanced three phase islanded microgrids with inverter interfaced units

2013

In this paper, the solution of the power flow for unbalanced three phase microgrids systems is proposed. The study aims at the integration of inverter interfaced units using the control law used for primary voltage and frequency regulation, so as to take into account possible small variations of these parameters to account for sudden load changes. The proposed study deals with unbalanced systems which is the typical case of small distribution systems and shows how the power losses term varies as the regulators parameters vary as well, thus showing that these are sensitive parameters that could have an important role in optimal management of such systems.

EngineeringThree phaseIslanded power flowbusiness.industryUnbalanced systemsAutomatic frequency controlControl engineeringunbalanced systemsPower factorPower (physics)Settore ING-IND/33 - Sistemi Elettrici Per L'EnergiamicrogridThree-phaseControl theoryInverterthree phaseMicrogridsbusinessParametric statisticsVoltagePower control
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Optimal power flow in islanded microgrids using a simple distributed algorithm

2015

In this paper, the problem of distributed power losses minimization in islanded distribution systems is dealt with. The problem is formulated in a very simple manner and a solution is reached after a few iterations. The considered distribution system, a microgrid, will not need large bandwidth communication channels, since only closeby nodes will exchange information. The correction of generated active powers is possible by means of the active power losses partition concept that attributes a portion of the overall power losses in each branch to each generator. The experimental part shows the first results of the proposed method on an islanded microgrid. Simulation results of the distributed…

EngineeringControl and OptimizationMicrogridmicrogridsEnergy Engineering and Power Technologylcsh:TechnologyDistributed optimizationDistribution systemControl theoryElectrical and Electronic EngineeringMicrogridsEngineering (miscellaneous)Renewable Energy Sustainability and the Environmentbusiness.industrylcsh:TBandwidth (signal processing)Computer Science (all)Distributed powerAC powerSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaPower flowDistributed algorithmMinificationMicrogridbusinessOptimal power flowEnergy (miscellaneous)
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Online optimization of a multi-conversion-level DC home microgrid for system efficiency enhancement

2017

In this paper, an on-line management system for the optimal efficiency operation of a multi-bus DC home distribution system is proposed. The operation of the system is discussed with reference to a distribution system with two conversion stages and three voltage levels. In each of the conversion stages, three paralleled DC/DC converters are implemented. A Genetic Algorithm performs the on-line optimization of the DC network’s global efficiency, generating the optimal current sharing ratios of the concurrent power converters. The overall DC/DC conversion system including the optimization section is modelled using MATLAB/Simulink. Thanks to the implemented online algorithm, considering …

Engineering020209 energyGeography Planning and DevelopmentTransportation02 engineering and technologyPower conversion efficiencyRobustness (computer science)Control theoryMaster-slave control0202 electrical engineering electronic engineering information engineeringElectronic engineeringPeak shavingDC microgridOnline algorithmMATLABDC microgridscomputer.programming_languageCivil and Structural Engineeringbusiness.industryRenewable Energy Sustainability and the Environmentdc microgrids active droop control current sharing genetic algorithm master-slave control power conversion efficiency peak shavingEnergy conversion efficiencyConvertersSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaActive droop controlGenetic algorithmPeaking power plantMicrogridbusinessCurrent sharingcomputerVoltageSustainable Cities and Society
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Blockchain for power systems:Current trends and future applications

2020

Abstract Today, the blockchain is synonymous of technological innovation, being recognized among the 10 top strategy technologies in 2018 by the consulting company Gartner, it is more and more adopted in different sectors. However, the initial enthusiasm around this technology is going beyond the peak of inflated expectations, towards more stable applications in money transactions, cryptocurrencies and Digital Commodity Exchanges. Essentially, misguided efforts, the overuse of blockchain, and the Bitcoin's price drop have been the main reasons for this decay in expectations. Nevertheless, the exploitation of the blockchain technology in the power systems area appears largely underexplored, …

CryptocurrencyBlockchainSupply chain managementDecentralized controlEnergy blockchainRenewable Energy Sustainability and the EnvironmentSettore ING-INF/03 - Telecomunicazioni020209 energy02 engineering and technologyReviewPeer-to-peercomputer.software_genreDecentralised systemSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaElectric power systemAggregationEnergy marketPeer-to-peer0202 electrical engineering electronic engineering information engineeringDecentralized managementEnergy marketBusinesscomputerSupply chain managementIndustrial organization
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Optimal energy management in the smart grid

2017

The Smart Grid is a modern electricity grid allowing for distributed, renewable intermittent generation, partly owned by consumers. This requires advanced control and communication technologies in order to provide high quality power supply and secure generation, transmission and distribution. This book outlines these emerging technologies. Topics covered include an introduction to smart grid architecture; smart grid communications and standards; measurement and sensing devices for smart grids; smart transmission and wide area monitoring system; bad data detection in smart grids; optimal energy management in smart grids; communication and control for the smart grid; smart consumer systems; i…

Electric power systemEngineeringSmart gridbusiness.industryEnergy managementPower electronicsElectrical engineeringElectric powerbusinessIndustrial engineeringEnergy (signal processing)Energy accountingPower (physics)
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Microgrid supervisory controllers and energy management systems:A literature review

2016

Abstract Microgrids (MGs), featured by distributed energy resources, consumption and storage, are designed to significantly enhance the self-sustainability of future electric distribution grids. In order to adapt to this new and revolutionary paradigm, it is necessary to control MGs in intelligent and coordinated fashion. To this aim, a new generation of advanced Microgrid Supervisory Controllers (MGSC) and Energy Management Systems (EMS) has emerged. The aim of this paper is to summarize the control objectives and development methodologies in the recently proposed MGSC/EMS. At first, a classification of control objectives is made according to the definition of hierarchical control layers i…

EngineeringHierarchical controlOperations researchMicrogridRenewable Energy Sustainability and the Environmentbusiness.industryEnergy management020209 energyControl (management)02 engineering and technologyMaximum power point trackingSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaEnergy management systemSCADAInformation and Communications TechnologyDistributed generation0202 electrical engineering electronic engineering information engineeringSystems engineeringMicrogridMicrogrid supervisory controllerEnergy management systembusiness
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Optimal Power Flow in three-phase islanded microgrids with inverter interfaced units

2015

In this paper, the solution of the Optimal Power Flow (OPF) problem for three phase islanded microgrids is studied, the OPF being one of the core functions of the tertiary regulation level for an AC islanded microgrid with a hierarchical control architecture. The study also aims at evaluating the contextual adjustment of the droop parameters used for primary voltage and frequency regulation of inverter interfaced units. The work proposes a mathematical method for the OPF solution also considering the droop parameters as variables. The output of the OPF provides an iso-frequential operating point for all the generation units and a set of droop parameters for primary regulation. In this way, …

Operating pointEngineeringMicrogridbusiness.industryIslanded operationEnergy Engineering and Power TechnologyControl engineeringStability (probability)Three phase systemSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaPower flowThree-phaseControl theoryThree phase systemsInverterVoltage droopMicrogridElectrical and Electronic EngineeringMicrogridsbusinessOptimal power flowVoltage
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Optimal power flow based on glow worm-swarm optimization for three-phase islanded microgrids

2014

This paper presents an application of the Glowworm Swarm Optimization method (GSO) to solve the optimal power flow problem in three-phase islanded microgrids equipped with power electronics dc-ac inverter interfaced distributed generation units. In this system, the power injected by the distributed generation units and the droop control parameters are considered as variables to be adjusted by a superior level control. Two case studies with different optimized parameters have been carried out on a 6-bus test system. The obtained results showed the effectiveness of the proposed approach and overcomes the problem of OPF in islanded microgrids showing loads unbalance.

Engineeringbusiness.industryIslanded microgridGlowworm swarm optimizationGlow-worm swarm optimizationSwarm behaviourControl engineeringPower (physics)Settore ING-IND/33 - Sistemi Elettrici Per L'EnergiaOptimal power flow three phase systems islanded microgrid glow-worm swarm optimizationSmart gridThree-phaseControl theoryDistributed generationPower electronicsThree phase systemsVoltage droopbusinessOptimal power flow
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Energy Management Systems and tertiary regulation in hierarchical control architectures for islanded microgrids

2015

In this paper, the structure of the highest level of a hierarchical control architecture for micro-grids is proposed. Such structure includes two sub-levels: the Energy Management System, EMS, and the tertiary regulation. The first devoted to energy resources allocation in each time slot based on marginal production costs, the latter aiming at finding the match between production and consumption satisfying the constraints set by the EMS level about the energy production in each time slot. Neglecting the efficiency of the different energy generation systems as well as that of the infrastructure for electrical energy distribution, the problem dealt with by the EMS sub-level is linear and can …

OptimizationEngineeringMathematical optimizationMicro-gridsLinear programmingEnergy managementbusiness.industry:Energies [Àrees temàtiques de la UPC]Electric potential energyControl engineeringElectric powerEnergy management systemSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaElectricity generationEnergy management systemsLinear programmingEnergia elèctricaElectric powerMinificationbusinessInteger programmingEnergy management systems linear programming microgrids optimization
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