Predictive Dispatch Across Time of Hybrid Isolated Power Systems

Author

Bruno, Sergio ; Dassisti, Michele ; La Scala, Massimo ; Chimienti, Michela ; Cignali, Claudio ; Palmisani, Ezio

Author_Institution

Electr. & Electron. Dept., Polytech. Sch. of Bari, Bari, Italy

Volume

5

Issue

3

fYear

2014

fDate

Jul-14

Firstpage

738

Lastpage

746

Abstract

The paper proposes a methodology for the optimal dispatch of energy sources in hybrid and isolated energy systems. The proposed approach is based on the formulation and solution of a nonlinear discrete optimization problem aimed at optimizing input and output time trajectories for a set of combined generating and storage technologies. Loads and interruptible loads are among controlled variables, and are modeled according to their interruption costs. The approach is general enough to be applied to any hybrid system configuration and was developed having in mind the complex hybrid system architectures comprising several competing storage technologies (battery, pumping, and hydrogen). Test results are aimed at showing the feasibility of the proposed methodology, comparing optimal trajectories to suboptimal system behavior given by load-following strategies.

Keywords

battery storage plants; load dispatching; optimisation; battery energy storage system; complex hybrid system architecture; discrete optimal control; hybrid energy system; hybrid isolated power system; hybrid system configuration; isolated energy system; nonlinear discrete optimization problem; predictive dispatch; Batteries; Generators; Hybrid power systems; Hydrogen; Interrupters; Optimization; Battery energy storage system (BESS); discrete optimal control (DOC); hybrid energy systems; isolated power systems; microgrids; renewable energy sources (RESs); storage systems;

fLanguage

English

Journal_Title

Sustainable Energy, IEEE Transactions on

Publisher

ieee

ISSN

1949-3029

Type

jour

DOI

10.1109/TSTE.2013.2295428

Filename

6740841