期刊
RENEWABLE ENERGY
卷 140, 期 -, 页码 436-451出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.renene.2019.03.074
关键词
Standalone hybrid renewable energy systems; Sizing and EMS integration; Economic model predictive control; Bilevel mixed integer nonlinear problem; Genetic algorithm
资金
- CIFASIS-CONICET from Argentina
- ANPCYT from Argentina
- UNR-FCEIA from Argentina
- UTN-FRRo from Argentina
- UTN-FRSN from Argentina
An Hybrid Renewable Energy Systems (HRES) can be described as a set of loads, renewable generation and storage units that can operate in standalone mode or connected to the main grid. In order to obtain a good compromise between capital investment and system reliability, an optimum sizing of all HRES components is needed. As power reliability, system cost and operation of the system depend on each other, the sizing methodology must be integrated with the energy management strategy (EMS). This paper presents an optimization methodology for sizing the components of a standalone hybrid wind/PV system (with hydrogen storage and battery storage), which integrates an EMS based on an economic model predictive control (EMPC) approach. The integrated problem to be solved is presented as a bi-level optimization framework composed of an outer loop and an inner loop. The outer loop is in charge of the HRES sizing and it is solved using Genetic Algorithms (GA). The inner loop solves the EMS for each candidate solution as a rolling horizon mixed integer linear problem (MILP). The results have shown an investment saving as well as a reduction of the operation costs with the proposed methodology. (C) 2019 Elsevier Ltd. All rights reserved.
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