L.C.P. da Silva scite author profile

This paper presents a detailed comparative analysis between synchronous and induction machines for distributed generation applications. The impacts of these generators on the distribution network performance are determined and compared by using computational simulations. The technical factors analyzed are steady-state voltage profile, electrical power losses, voltage stability, transient stability, voltage sags during unbalanced faults, and short-circuit currents. The results showed that the best technical choice depends on the network characteristics, i.e., the main factors that may limit the penetration level of distributed generation.

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MW and MVar Management on Supply and Demand Side for Meeting Voltage Stability Margin Criteria

Affonso

Silva

Lima

et al. 2004

IEEE Trans. Power Syst.

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This paper presents a methodology to improve the power system economical dispatch from a voltage stability margin perspective. The time horizon under discussion is the short-term operation planning. The proposed method is based on active/reactive power re-dispatch for normal operation, and also minimum load shedding strategies in case of critical contingencies. The actions are taken in the direction provided by modal participation factors computed for generator and load buses. The generators with negative impact on system margin, which are indicated by the modal index, are penalized with high costs on the objective function of the optimal power flow program used to run the re-dispatch process. Results of this work show a decrease on system losses and significant increase on voltage stability margin as well as on system reactive reserves. In addition, this work presents a study considering critical contingencies, for which is proposed an optimal load shedding strategy also based on modal participation factors to identify the most adequate buses for load shedding purposes. Finally, the proposed methodology is applied considering a typical hour-to-hour daily load curve, and the method presented very good performance since it considerably increases voltage stability margin for the insecure intervals.

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Performance of ROCOF relays for embedded generation applications

Affonso

Freitas

et al. 2005

IEE Proc., Gener. Transm. Distrib.

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Continuation fast decoupled power flow with secant predictor

Alves

Silva

Castro

et al. 2003

IEEE Trans. Power Syst.

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The conventional Newton and fast decoupled power flow methods are considered inadequate for obtaining the maximum loading point of power systems due to ill-conditioning problems at and near this critical point. At this point, the Jacobian matrix of the Newton method becomes singular. In addition, it is widely accepted that the P-V and Q-decoupling assumptions made for the fast decoupled power flow formulation no longer hold. However, in this paper, it is presented a new fast decoupled power flow that becomes adequate for the computation of the maximum loading point by simply using the reactive power injection of a selected PV bus as a continuation parameter. Besides, fast decoupled methods using V and as parameters and a secant predictor are also presented. These new versions are compared to each other with the purpose of pointing out their features, as well as the influence of reactive power and transformer tap limits. The results obtained for the IEEE systems (14 and 118 buses) show that the characteristics of the conventional method are enhanced and the region of convergence around the singular solution is enlarged. Index Terms-Continuation power flow, fast decoupled power flow, maximum loading point, voltage collapse.

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Assessment of generator impact on system power transfer capability using modal participation factors

Silva

Wang

Costa

et al. 2002

IEE Proc., Gener. Transm. Distrib.

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L.C.P. da Silva

Comparative Analysis Between Synchronous and Induction Machines for Distributed Generation Applications

MW and MVar Management on Supply and Demand Side for Meeting Voltage Stability Margin Criteria

Performance of ROCOF relays for embedded generation applications

Continuation fast decoupled power flow with secant predictor

Assessment of generator impact on system power transfer capability using modal participation factors

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