Simulation of a New Proposed Voltage-Base Self-Intervention Technique with Increment and Decrement Voltage Conduction Method to Optimize the Renewable Energy Sources DC Output

Abstract

A simple Voltage-Base Self-Intervention technique is introduced in this paper to perform the switching between the connected distributed generation renewable energy sources. The Voltage-Base Self-Intervention technique fetch maximum power from either the solar photovoltaic or wind energy systems under inhomogeneous climate conditions and output stable voltage for DC -- AC inverter and DC -- DC Boost Converter. In order to fetch the maximum power, the proposed Voltage-Base Self-Intervention technique is composed with the voltage quantification and the increment and decrement hierarchical voltage management and control strategy algorithm. The voltage quantification and the increment and decrement hierarchical voltage management and control strategy algorithm is developed to ensure the DC bus voltage from the solar and wind renewable energy sources can be measured efficiently and effectively during the voltage conduction to perform the Voltage -- Base Self - Intervention. To validate the performances of the proposed Voltage-Base Self-Intervention technique for solar -- wind renewable energy sources, PROTEUS simulations are presented in this paper. Simulation results shows that the proposed technique effectively perform the Voltage -- Base Self -- Intervention between the distributed generations solar -- wind renewable energy sources during the voltage conduction.