Search results for "Load modeling"

showing 10 items of 11 documents

An IPMSM torque/weight and torque/moment of inertia ratio optimization

2014

In this paper, a torque/weight and torque/moment of inertia ratio optimization procedure for interior permanent magnet syncronous motors (IPMSMs) is presented. More in detail, a performance comparison between several IPMSM rotor structures has been carried out in order to determine the optimum geometry that can maximize the torque/weight and torque/moment of inertia ratios. A commercial motor, with known electrical and mechanical characteristics, has been taken as reference. Its rotor structure has been modified several times, obtaining different rotor geometries and, therefore, many IPMSM models with different electrical and mechanical characteristics. The finite element method (FEM) analy…

ynchronous motorStall torquetorque-weight ratio optimizationMaterials scienceoptimisationpermanent magnet motorfinite element methodtorque-load-angle characteristicSettore ING-IND/32 - Convertitori Macchine E Azionamenti Elettricilaw.inventioninterior permanent magnet syncronous motorPermanent magnetmagnetisationControl theorylawRotorTorque sensorTorquetorque/weight ratioInduction motorDamping torqueFEM analysiLoad modelingTorque motorRotor (electric)finite element analysis;magnetisation;optimisation;permanent magnet motors;rotors;synchronous motors;IPMSM rotor structures;finite element method;interior permanent magnet syncronous motors;torque-load-angle characteristics;torque-moment of inertia ratio optimization;torque-weight ratio optimization;Induction motors;Load modeling;Permanent magnet motors;Permanent magnets;Rotors;Stators;Torque;FEM analysis;IPMSM;optimization;permanent magnets;torque/moment of inertia ratio;torque/weight ratioControl engineeringtorque-moment of inertia ratio optimizationStatorMoment of inertiafinite element analysiIPMSMDirect torque controlTorqueIPMSM rotor structureoptimizationtorque/moment of inertia ratio
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Modeling Energy Demand Aggregators for Residential Consumers

2013

International audience; Energy demand aggregators are new actors in the energy scenario: they gather a group of energy consumers and implement a demand- response paradigm. When the energy provider needs to reduce the current energy demand on the grid, it can pay the energy demand aggregator to reduce the load by turning off some of its consumers loads or postponing their activation. Currently this operation involves only greedy energy consumers like industrial plants. In this paper we want to study the potential of aggregating a large number of small energy consumers like home users as it may happen in smart grids. In particular we want to address the feasibility of such approach by conside…

0209 industrial biotechnologydemand-response paradigm020209 energyEnergy current02 engineering and technologycomputer.software_genre7. Clean energyNews aggregatorload regulation[INFO.INFO-NI]Computer Science [cs]/Networking and Internet Architecture [cs.NI]020901 industrial engineering & automationdemand side management; load regulation; queueing theory; smart power grids; demand-response paradigm; energy consumers; energy demand aggregator modeling; greedy energy consumers; home users; industrial plants; power load control; queuing theory; residential consumers; smart grids; Delays; Home appliances; Load modeling; Power demand; Sociology; Statistics; Switchesresidential consumerSociologySettore ING-INF/04 - Automatica0202 electrical engineering electronic engineering information engineeringindustrial plantenergy demand aggregator modelingDemand loadSimulationStatisticQueueing theoryDelayLoad modelingdemand side managementSettore ING-INF/03 - Telecomunicazionigreedy energy consumerpower load controlLoad balancing (electrical power)Poisson processEnvironmental economicsGridenergy consumerHome applianceSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaSmart gridQueueing theorymart gridLoad regulationqueuing theoryPower demandEnergy demand aggregatorsmart power gridcomputerSwitcheshome user
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Economic impact of Ice Thermal Energy Storage Systems in residential buildings in presence of double-tariffs contracts for electricity

2009

Thermal energy storage is one of the most important methods of demand-side load management, thanks to the capacity of reducing significantly the peak power demand for air conditioning in buildings. Thermal Energy Storage Systems (TESS) are indeed used for producing and storing cooling capacity during off-peak hours (in particular during night hours) to meet the following day's air conditioning requirements. The current paper presents a study on the effects of the installation of Ice TESS for cooling on the power daily profile of residential buildings, and examines the economic repercussions on the electricity billing. With reference to this second theme, the paper examines, in particular, t…

Settore ING-IND/33 - Sistemi Elettrici Per L'EnergiaEngineeringbusiness.industryLoad modelingHeat transferOperations managementEconomic impact analysisElectricityEnvironmental economicsThermal energy storagebusinessNet present valueThermal Energy Storage Systems Montecarlo Pay-back-period Double tariffs2009 6th International Conference on the European Energy Market
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Measurement-based load modelling for power supply system design

2008

Load modelling is essential to simulate system features as closely as possible to the effective behaviour. In spite of model complexity, the need for accuracy often leads to a component-based approach, i.e. the analysis of load internal subsystems. It is a common belief that measurement-based load models lead to low accuracy. This paper presents a new, high-accuracy measurement-based load modelling approach to define a power consumption profile load model for power systems design. The load modeling technique is described by an application. Simulation and experimental results are compared. The efficiency and portability of the proposed modelling approach is discussed. ©2008 IEEE.

Engineeringbusiness.industryLoad modelingControl engineeringSettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciSettore ING-INF/01 - ElettronicaModel complexityPower (physics)Electric power systemSoftware portabilityPower supply modelingPower consumptionComponent (UML)Systems designbusiness2008 11th Workshop on Control and Modeling for Power Electronics
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First analyses on a mechanical motion converter to produce electrical energy from sea wave

2020

The exploitation of sea wave opens new horizon for suppling small islanded communities. With this goal the paper propones a prototypical device for the utilization of sea wave along the coastline. The device is based on a mechanical motion conversion, from an alternative rotation into unidirectional rotation in order to run commercial generators. First evaluations are here reported, demonstrating the feasibility of this solution.

Settore ING-IND/11 - Fisica Tecnica AmbientaleHorizonElectric potential energyLoad modelingMotion (geometry)Mechanical motion converterWECRotationsea waveGeologyMarine engineering
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A Hybrid Framework for Soft Real-Time WSN Simulation

2009

The design of a wireless sensor network is a chal- lenging task due to its intrinsically application-specific nature. Although a typical choice for testing such kind of networks requires devising ad-hoc testbeds, this is often impractical as it depends on expensive, and hard to maintain deployment of nodes. On the other hand, simulation is a valuable option, as long as the actual functioning conditions are reliably modeled, and carefully replicated. The present work describes a framework for supporting the user in early design and testing of a wireless sensor network with an augmented version of TOSSIM, the de-facto standard for simulators, that allows merging actual and virtual nodes seaml…

Settore ING-INF/05 - Sistemi Di Elaborazione Delle InformazioniComputer scienceDistributed computingLoad modelingReal-time computingData modelingTask (computing)Key distribution in wireless sensor networksTelecommunication computingSoftware deploymentCode (cryptography)Soft-real timeWireless sensor networkWireless Sensor NetworkSimulation
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Decoupled solution of radial and weakly meshed distribution networks through a backward method

2008

A methodology for the analysis of radial or weakly meshed distribution systems supplying voltage dependent loads is developed. The solution process is iterative and, at each step, the loads are simulated by means of impedances. The network is divided into two sub-networks which must be solved separately and sequentially; in the first, named RP-net, only the lines resistances and the loads shunt equivalent resistances are considered; in the second, named XQ-net, only the lines reactances and the shunt equivalent reactances are taken into account. After a brief presentation of the b/f method, which is currently the most commonly used technique to solve distribution networks, the proposed meth…

Distribution systemEngineeringDistribution networksbusiness.industryLoad modelingElectronic engineeringBackward/forward method distribution networks power flows.AC powerbusinessTopologyTransfer functionElectrical impedanceVoltage2008 IEEE/PES Transmission and Distribution Conference and Exposition: Latin America
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Main Fuel Cells mathematical models: Comparison and analysis in terms of free parameters

2010

This paper resumes the main mathematical models of Fuel Cells (PEM models). In particular, a comparison study of the various models introduced in the technical literature is presented and the dependency of the various model parameters is analyzed in different operating conditions. As the manifold of the model parameter is very wide and their determination is difficult, it is mandatory to introduce approximations and simplifications on which each model is based. The novelty of this work is the organization of the existing models in three categories with regard to the number of free parameters and to the dependency of such parameters on the different running conditions and the usage of a refe…

Mathematical optimizationEngineeringWork (thermodynamics)Dependency (UML)EquationResistancereference modelproton exchange membrane fuel cells;PEM models;free parameters;main fuel cells mathematical models;reference model;Biomembranes;Equations;Fuel cells;Load modeling;Mathematical model;Numerical models;Resistance;Fuel Cell;Mathematical modeling;Parameter AnalysisSettore ING-IND/32 - Convertitori Macchine E Azionamenti Elettriciproton exchange membrane fuel cellPEM modelNumerical modelParameter AnalysisMathematical modelBiomembranemain fuel cells mathematical modelReference modelSimulationLoad modelingMathematical modelbusiness.industryFuel cellNoveltyManifoldFuel cellsfree parameterMathematical modelingbusinessFree parameter
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Large Scale Control of Deferrable Domestic Loads in Smart Grids

2016

International audience; In this paper, we investigate a realistic and low-cost deployment of large scale direct control of inelastic home appliances whose energy demand cannot be shaped, but simply deferred. The idea is to exploit 1) some simple actuators to be placed on the electric plugs for connecting or disconnecting appliances with heterogeneous control interfaces, including non-smart appliances, and 2) the Internet connections of customers for transporting the activation requests from the actuators to a centralized controller. Our solution requires no interaction with home users: in particular, it does not require them to express their energy demand in advance. A queuing theory model …

EngineeringGeneral Computer ScienceExploitQueuing analysis020209 energyDistributed computingReal-time computing02 engineering and technology7. Clean energySettore ING-INF/04 - AutomaticaControl theory0202 electrical engineering electronic engineering information engineering[INFO.INFO-SY]Computer Science [cs]/Systems and Control [cs.SY]Queueing theoryLoad managementLoad modelingbusiness.industrySettore ING-INF/03 - TelecomunicazioniQuality of serviceScale (chemistry)[SPI.NRJ]Engineering Sciences [physics]/Electric powerComputer Science (all)Smart gridsLoad management; Load modeling; Power demand; Queuing analysis; Smart grids;Settore ING-IND/33 - Sistemi Elettrici Per L'EnergiaSmart gridSoftware deploymentPower demandThe Internetbusiness
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Performance Analysis of Synchronous Duty-Cycled MAC Protocols

2015

In this letter, we propose an analytical model to evaluate the performance of the S-MAC protocol. The proposed model improves the accuracy of previous models in two aspects. First, it incorporates the dependence among the nodes within a cluster by defining a DTMC that models the number of active nodes, whereas the previous models considered that nodes were mutually independent. Second, it proposes new methods for calculating packet delay and energy consumption. The analytical model is validated through discrete-event based simulations. Numerical results demonstrate that the proposed analytical model and methods yield accurate results under realistic assumptions

Protocol (science)Markov modelingMarkov chainComputer scienceNetwork packetLoad modelingReal-time computingEnergy consumptionINGENIERIA TELEMATICAMarkov modelWSNsDelay and energy consumptionControl and Systems EngineeringPacket lossDuty-cycled MAC protocolsCluster (physics)Electrical and Electronic EngineeringAlgorithm
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