Optimal Energy Management Systems and Voltage Stabilization of Renewable Energy Networks

Optimal Energy Management Systems and Voltage Stabilization of Renewable Energy Networks

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This paper addresses the challenge of integrating multiple energy sources into a single-domain click here microgrid, commonly found in urban buildings, while also providing a platform for energy management.A Lyapunov stability analysis of a simple boost converter was used as a basis for designing the dual control loop of the grid.The versatility of the developed control structure allows for the incorporation of an arbitrary number of sources hence achieving scalability.

Next, the energy in the microgrid was separated into exogenous energy and actuator energy.This yielded a description of the system that quantified the condition of stability independent of the decision made by a would-be energy management system.This, in turns, liberates the process of designing an optimized energy management system from stability concerns.

The acquired theoretical findings were then translated to a simulation model, where multiple components of the grid were simulated under a typical scenario of operation.Once the simulation phase was concluded, a prototype of the designed grid was constructed to emulate the theoretical results.The prototype exhibited promising performance, opi the color that keeps on giving matching the simulation predictions to a reasonable degree.