Search results for "Electrical network"

showing 10 items of 49 documents

Effect of Integrating Photovoltaic Systems on Electrical Network Losses Considering Load Variation

2018

Planning of Distributed Generation (DG) units in the power distribution networks is an important issue, one of the most important considerations that is directly affected by installing DG units is the power losses. Improper allocation of DG units to the grid can lead to a noticeable increase in the power losses. Moreover, the load variation is considered as critical matter when studying the optimal scenario that minimizes the power losses in the network. The aim of this paper is to investigate the effect of integrating photovoltaic (PV) units on the distribution network losses considering load variation. The optimal parameters of the DG units were calculated for the various load demands in …

Environmental EngineeringComputer science020209 energyEnergy Engineering and Power Technology02 engineering and technologyIndustrial and Manufacturing EngineeringAutomotive engineeringlaw.inventionphotovoltaicElectric power systemLoad managementpower losselaw0202 electrical engineering electronic engineering information engineeringElectrical and Electronic EngineeringMATLABcomputer.programming_languagedistributed generationRenewable Energy Sustainability and the Environmentbusiness.industryPhotovoltaic systemGridRenewable energySettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaDG integrationHardware and ArchitectureDistributed generationElectrical networkbusinesscomputer2018 IEEE International Conference on Environment and Electrical Engineering and 2018 IEEE Industrial and Commercial Power Systems Europe (EEEIC / I&CPS Europe)
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A backward sweep method for power flow solution in distribution networks

2010

Abstract A methodology for the analysis of radial or weakly meshed distribution systems supplying voltage dependent loads is here developed. The solution process is iterative and, at each step, loads are simulated by means of impedances. Therefore, at each iteration, it is necessary to solve a network made up only of impedances; for this kind of network, all the voltages and currents can be expressed as linear functions of a single unknown current (in radial systems) or of two unknown currents for each independent mesh (for meshed systems). The methodology has been called “backward” since the unique equation, in case of radial network, and the linear system of equations, in case of meshed n…

Iterative methodbackward/forward methodradial and meshed distribution networksPV nodes power flowLinear systemEnergy Engineering and Power TechnologyTopologySystem of linear equationslaw.inventionSettore ING-IND/33 - Sistemi Elettrici Per L'EnergiaStep responselawElectrical networkElectronic engineeringPolygon meshElectrical and Electronic EngineeringLinear equationVoltageMathematics
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A differential equation approach to implicit sweeping processes

2019

International audience; In this paper, we study an implicit version of the sweeping process. Based on methods of convex analysis, we prove the equivalence of the implicit sweeping process with a differential equation, which enables us to show the existence and uniqueness of the solution to the implicit sweeping process in a very general framework. Moreover, this equivalence allows us to give a characterization of nonsmooth Lyapunov pairs and invariance for implicit sweeping processes. The results of the paper are illustrated with two applications to quasistatic evolution variational inequalities and electrical circuits.

Lyapunov functionDifferential equation01 natural scienceslaw.inventionsymbols.namesakeEvolution variational inequalitylawApplied mathematicsUniqueness0101 mathematicsEquivalence (formal languages)[MATH]Mathematics [math]MathematicsConvex analysisApplied Mathematics010102 general mathematicsNonsmooth Lyapunov pairs010101 applied mathematicsregularizationMSC: 49J40 47J20 47J22 34G25 58E35 37L45Electrical networkVariational inequalitysymbolsMoreau's sweeping processAnalysisQuasistatic process
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Designing voltage multipliers with nanofluidic diodes immersed in aqueous salt solutions.

2016

[EN] Membranes with nanofluidic diodes allow the selective control of molecules in physiological salt solutions at ambient temperature. The electrical coupling of the membranes with conventional electronic elements such as capacitors suggests opportunities for the external monitoring of sensors and actuators. We demonstrate experimentally and theoretically the voltage multiplier functionality of simple electrical networks composed of membranes with conical nanopores coupled to load capacitors. The robust operation of half and full wave voltage multipliers is achieved in a broad range of experimental conditions (single pore and multipore membranes, electrolyte concentrations, voltage amplitu…

Materials sciencebusiness.industryAnalytical chemistryGeneral Physics and Astronomy02 engineering and technologyElectrolyte010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences0104 chemical scienceslaw.inventionQuantitative Biology::Subcellular ProcessesCapacitorNanoporeMembranelawElectrical networkFISICA APLICADAVoltage multiplierOptoelectronicsPhysical and Theoretical Chemistry0210 nano-technologybusinessVoltageDiodePhysical chemistry chemical physics : PCCP
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Hybrid Circuits with Nanofluidic Diodes and Load Capacitors

2017

[EN] The chemical and physical input signals characteristic of micro- and nanofluidic devices operating in ionic solutions should eventually be translated into output electric currents and potentials that are monitored with solid-state components. This crucial step requires the design of hybrid circuits showing robust electrical coupling between ionic solutions and electronic elements. We study experimentally and theoretically the connectivity of the nanofluidic diodes in single-pore and multipore membranes with conventional capacitor systems for the cases of constant, periodic, and white-noise input potentials. The experiments demonstrate the reliable operation of these hybrid circuits ove…

Materials sciencebusiness.industryGeneral Physics and Astronomy02 engineering and technology010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences0104 chemical scienceslaw.inventionCapacitorNanoporeMembranelawElectrical networkFISICA APLICADAOptoelectronicsElectric current0210 nano-technologybusinessBiosensorElectronic circuitDiode
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EXPERIMENTAL PROPAGATION FAILURE IN A NONLINEAR ELECTRICAL LATTICE

2004

We consider an experimental setup, modeling the FitzHugh–Nagumo equation without recovery term and composed of a nonlinear electrical network made up of discrete bistable cells, resistively coupled. In the first place, we study experimentally the propagation of topological fronts in the continuum limit where the analytical solution can be obtained. We show that experimental results match the theoretical predictions. The discrete case is then investigated theoretically and in the lattice, emphasizing the pinning of traveling waves.

Mathematical optimizationBistabilityApplied MathematicsNonlinear latticeMechanicslaw.inventionNonlinear systemlawModeling and SimulationLattice (order)Electrical networkTraveling waveEngineering (miscellaneous)MathematicsInternational Journal of Bifurcation and Chaos
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Nanowires for NEMS Switches

2020

Nanoelectromechanical systems (NEMS) are a promising novel technology for operation in extreme conditions (e.g. high temperature and radiation levels), where complementary semiconductor technology devices might fail due to electronic instability. An example for a NEMS device is a nanowire-based switch, which employs mechanical deflection of a nanowire to open and close an electrical circuit. To date, assembly and operation of individual nanowire based NEMS switches have been successfully demonstrated at laboratory level, but their further technological development remains a challenge. This chapter gives an insight into the current advances in applications of nanowires for NEMS switches. Syn…

Nanoelectromechanical systemsMaterials sciencebusiness.industryNanowirechemistry.chemical_elementGermaniumNanotechnologylaw.inventionchemistry.chemical_compoundSemiconductorchemistrylawElectrical networkBismuth selenideMechanical resonancebusinessNanodevice
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Electrical network of nanofluidic diodes in electrolyte solutions: Connectivity and coupling to electronic elements

2016

[EN] We consider a nanopore network with simple connectivity, demonstrating a two-dimensional circuit (full-wave rectifier) with ensembles of conical pores acting as nanofluidic diodes. When the bridge nanopore network is fed with an input potential signal of fluctuating polarity, a fixed output polarity is obtained. The full-wave rectification characteristics are demonstrated with square, sinusoidal, and white noise input waveforms. The charging of a load capacitor located between the two legs of the bridge demonstrates that the nanofluidic network is effectively coupled to this electronic element. These results can be relevant for energy transduction and storage procedures with nanopores …

NanoporeMaterials scienceNanotechnology02 engineering and technology010402 general chemistry01 natural sciencesSignallaw.inventionlcsh:ChemistryRectifierlawElectrochemistryPolarity (mutual inductance)DiodeElectrolyte solutionbusiness.industry021001 nanoscience & nanotechnologyFluctuating signal0104 chemical sciencesNanoporeCapacitorlcsh:Industrial electrochemistrylcsh:QD1-999Electrical networkFISICA APLICADABridge circuitOptoelectronicsFull wave rectifier0210 nano-technologybusinesslcsh:TP250-261
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<title>Reaction-diffusion electrical network for image processing</title>

2006

We consider an experimental setup, modelling the FitzHugh-Nagumo equation without recovery term and composed of a 1D nonlinear electrical network made up of discrete bistable cells, resistively coupled. In the first place, we study the propagation of topological fronts in the continuum limit, then in more discrete case. We propose to apply these results to the domain of signal processing. We show that erosion and dilation of a binary signal, can be obtained. Finally, we extend the study to 2D lattices and show that it can be of great interest in image processing techniques.© (2006) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted fo…

Nonlinear systemSignal processingMultidimensional signal processingBistabilitylawComputer scienceOptical engineeringElectrical networkElectronic engineeringDilation (morphology)Image processingTopologylaw.inventionSPIE Proceedings
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Terminology and Definitions

1986

In order to eliminate as much misunderstanding as possible in the evaluation of various forms of vibration stress, it is necessary to define the technical physical concepts used (Table 1). In addition, the special medical terms are explained at the end of the book (p. 158).

Physical ConceptsComputer scienceOrder (business)lawElectrical networkStress (linguistics)CalculusTable (database)Terminologylaw.invention
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