Search results for "Radial distribution network"

showing 8 items of 8 documents

A new backward/forward method for solving radial distribution networks with PV nodes

2008

Abstract In this paper, a new backward/forward (b/f) methodology for the analysis of distribution systems with constant power loads is presented. In the proposed method, at each iteration, the loads are considered as constant impedances; in the backward sweep all the network variables (bus voltages and branch currents) are evaluated considering a scaling factor which is determined at the end of the backward phase. Indeed the forward sweep is eliminated and the node voltages calculation does not demand the sequentiality needed in the b/f methodology. The developed method, although deriving conceptually from the b/f methodology, presents only the backward phase in which all the network variab…

Engineeringbusiness.industryEnergy Engineering and Power TechnologyInput impedanceAC powerBackward/forward methodlaw.inventionControl theorylawElectrical networkElectronic engineeringConstant currentNode (circuits)Voltage regulationRadial distribution networkElectrical and Electronic EngineeringConstant (mathematics)businessElectrical impedanceElectric Power Systems Research
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Backward solution of PV nodes in radial distribution networks

2009

In this paper an iterative backward methodology to solve radial distribution networks with fixed voltage (PV) nodes and with constant power loads or mixed loads (with at least one component with constant power) is proposed. The method developed, although deriving conceptually from the backward/forward (b/f) methodology, presents only the backward phase in which all the network variables are evaluated. In themethods developed up until nowfor the solution of such systems, PV nodes are taken into account at the end of each iteration by evaluating, based on the known quantities of the network, the unknowns associated with PV nodes. In the methodology developed here the unknowns relevant to PV n…

Radial distribution networks Backward/forward methodState variableIterative methodReactanceEnergy Engineering and Power TechnologyAC powerlaw.inventionSettore ING-IND/33 - Sistemi Elettrici Per L'Energiasymbols.namesakeControl theorylawElectrical networksymbolsElectrical and Electronic EngineeringElectrical impedanceNewton's methodMathematicsVoltage
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Load flow analysis of radial distribution networks: New findings in backward/forward method

2005

In the paper, the backward/forward method for solving radial distribution networks is in details described. In particular it is examined considering the four main steps into which it can be divided: initialization of the state variables; backward sweep; forward sweep; identification of a convergence criterion. For each of these, except for the forward sweep, a new procedure is defined. In particular, a methodology for the identification of a starting solution that is as close as possible to the desired one is proposed; the backward phase is modified for the evaluation of the branch currents and a new convergence criterion is proposed. The results of the application of the proposed methodolo…

Settore ING-IND/33 - Sistemi Elettrici Per L'EnergiaBackward/forward method Load flow analysis Radial distribution networks
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Load Flow Solution of radial distribution networks with ZI loads

2008

In this paper, a methodology to solve radial distribution networks, with constant current and/or impedance loads, is proposed. The techniques currently available to solve such systems are based either on iterative methods or on the bus impedance matrix. The method developed is the extension of a technique that is valid to solve networks made of impedances with one supply point. The methodology can be applied to directly and rapidly solve large distribution systems in which the loads are modeled as constant current/impedance. It is also able to solve meshed systems having voltage-dependent loads, inside an iterative backward/forward method.

Settore ING-IND/33 - Sistemi Elettrici Per L'EnergiaLoad FlowRadial distribution networks
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Load modelling influence on voltage stability assessment in distribution systems. Part II: Extension to a complex radial system and applications

2006

The single-line equivalent model is commonly used for voltage stability studies in both distribution and transmission systems. Referring to a single-line system, in the companion paper [1] the authors presented the theoretical aspects of voltage stability related to the load characteristics. In particular, expressions of the stability index for constant power, constant impedance and constant current loads, singularly and in all the possible combinations have been obtained. This index indicates how far the load node is from its voltage collapse point, allowing the maximum load power beyond which voltage collapse takes place to be evaluated. In this paper a simple method to evaluate the param…

Settore ING-IND/33 - Sistemi Elettrici Per L'EnergiaRadial distribution network voltage collapse voltage stability index critical power
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Load modelling influence on voltage stability assessment in distribution systems. Part I: Stability index and critical power for a single-line system

2006

The single-line equivalent model is commonly used for voltage stability studies in both distribution and transmission systems. Referring to a single-line system, in the companion paper [1] the authors presented the theoretical aspects of voltage stability related to the load characteristics. In particular, expressions of the stability index for constant power, constant impedance and constant current loads, singularly and in all the possible combinations have been obtained. This index indicates how far the load node is from its voltage collapse point, allowing the maximum load power beyond which voltage collapse takes place to be evaluated. In this paper a simple method to evaluate the param…

Settore ING-IND/33 - Sistemi Elettrici Per L'EnergiaRadial distribution network voltage collapse voltage stability index critical power.
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An improved method for determining voltage collapse proximity of radial distribution networks

2005

The two-bus equivalent model is commonly used for voltage stability studies in both distribution and transmission systems. The paper presents a simple method to evaluate, for each bus, the parameters which define the equivalent circuit of a radial distribution network. In particular, a straightforward way for determining the Thévenin equivalent impedance behind a load node is proposed, which allows to better identify the maximum loading point beyond which the voltage collapse takes place in the network. Simulation results show that the proposed method is significantly more accurate than other existing methods on evaluating the critical power at a particular node (i.e. the weak node of the n…

Settore ING-IND/33 - Sistemi Elettrici Per L'EnergiaRadial distribution network voltage collapse voltage-stability index critical power
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Voltage Collapse Proximity Assessment for Radial Distribution Networks

2005

The paper deals with voltage stability assessment in radial distribution networks. The voltage collapse proximity index already utilized in literature for power transmission systems is assumed. Based on the optimal impedance solution of a two-bus equivalent system, this index indicates how far the load nodes of the actual network are from their voltage collapse points, allowing the weak node and its maximum load power beyond which voltage collapse takes place to be identified. The proposed method differs from the other methods on the determination of the parameters which define the two-bus equivalent of the network, allowing to better identify the maximum loading point beyond which the volt…

Settore ING-IND/33 - Sistemi Elettrici Per L'EnergiaRadial distribution network voltage stability voltage collapse proximity critical power
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