A. Kiet Tran scite author profile

In distribution network, power and energy losses can be reduced by using switched capacitor banks. The capacitor banks can be switched on or off based on voltage profile or power factor or using timer. Due to variation of load, it is necessary to control the capacitor banks switching in function of load curve. This paper presents the application of integer genetic algorithm to determine optimal number of banks corresponding with hourly load to minimize total active power losses of distribution feeders. The problem constraints include voltage profile and heat conditions which are taken into account to the objective function by a penalty function. In this application, the structure of chromosomes is a set of numbers of the capacitor banks hourly connected to the grid. The proposed formulation is validated by a feeder. The result shows that in some cases, the active power losses at maximum compensation is greater than the ones of optimal control compensation, and the voltage reaches higher level than the maximum voltage limit. The optimal control of switched capacitor banks can reduce power and energy losses as well as ensure maximum voltage profile within the limit.

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Electrostatic and Capacitive Analysis in Multiconductor System by Finite Element and Balance Energy Method: Application in 500kV Transmission Line North - South of Vietnam

Nguyen

Tran

Dang

et al. 2018

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A. Kiet Tran

Linear relationship between cytoplasm resistance and hemoglobin in red blood cell hemolysis by electrical impedance spectroscopy & eight-parameter equivalent circuit

Development of a noise elimination electrical impedance spectroscopy (neEIS) system for single cell identification

Optimal control of switched capacitor banks in Vietnam distribution network using integer genetic algorithm

Electrostatic and Capacitive Analysis in Multiconductor System by Finite Element and Balance Energy Method: Application in 500kV Transmission Line North - South of Vietnam

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