CONTRIBUTION INTO ROBUST OPTIMIZATION OF RENEWABLE ENERGY SOURCES: CASE STUDY OF A STANDALONE HYBRID RENEWABLE SYSTEM IN CAMEROON

IF 1 Q4 ENERGY & FUELS
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Abstract

Environment conservation is a matter subject affecting both developing and developed countries. Long-lasting energy can be achieved by attenuating Greenhouse gas emissions. All over the world, Hybrid Renewable Energy Sources (HRES) appear as a vital element when it comes to cover the rapid growth of the energy demand. Moreover, renewable energy (RE) is an unaffordable response to the fight against unpredicted events such as the diseases, industries development, reliability of energy sources, added to the various directives related to produce sustainable electricity. Henceforth, it is crucial to optimize the various energy sources for satisfying the electrical demand. In particular, this paper aims to value the hybridization of optimization techniques to achieve a robust optimization. Photovoltaic (PV), and Battery Storage Systems (BSS) constitute the various RE sources in this work. The main goal was to simultaneously minimize the Deficit of power supply probability (DPSP) and maximize the BSS capacities. Particle Swarm Optimization (PSO), Grey Wolf Optimizer (GWO), and hybridization of both techniques are employed to proceed with the optimization. This study reveals the performance of hybrid optimization used for several configurations of loads. Indeed, the results show that the autonomous day of the BSS can reach 03 days, while the DPSP can decrease towards 1%. In this way, the HRES built up is more ecofriendly and autonomous. Furthermore, the proposed idea provides improved reliability and robustness of our system under various types of loads due to different climate scenario. The statistical analysis also carried on shows a good stability while doing hybridization of both techniques and a better efficiency in comparison to single techniques.
对可再生能源稳健优化的贡献:喀麦隆独立混合可再生能源系统的案例研究
环境保护是一个影响发展中国家和发达国家的问题。持久的能源可以通过减少温室气体排放来实现。在世界范围内,混合可再生能源(HRES)成为满足快速增长的能源需求的重要组成部分。此外,可再生能源(RE)是对疾病、工业发展、能源可靠性等不可预测事件的一种负担不起的反应,加上与生产可持续电力有关的各种指令。因此,优化各种能源以满足电力需求是至关重要的。特别是,本文旨在重视优化技术的杂交,以实现鲁棒优化。光伏(PV)和电池存储系统(BSS)构成了这项工作中的各种资源。该方法的主要目标是使系统的供电缺口概率(DPSP)最小化,同时使系统的BSS容量最大化。采用粒子群优化算法(PSO)、灰狼优化算法(GWO)和混合优化算法进行优化。本研究揭示了几种负载配置下混合优化的性能。结果表明,BSS的自主日数可以达到03天,而DPSP的自主日数可以减少到1%左右。这样,建立的HRES更加环保和自主。此外,所提出的思想提高了系统在不同气候情景下的各种负荷下的可靠性和鲁棒性。统计分析表明,两种技术杂交的稳定性好,效率比单一技术高。
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来源期刊
International Journal of Renewable Energy Research
International Journal of Renewable Energy Research Energy-Energy Engineering and Power Technology
CiteScore
2.80
自引率
10.00%
发文量
58
期刊介绍: The International Journal of Renewable Energy Research (IJRER) is not a for profit organisation. IJRER is a quarterly published, open source journal and operates an online submission with the peer review system allowing authors to submit articles online and track their progress via its web interface. IJRER seeks to promote and disseminate knowledge of the various topics and technologies of renewable (green) energy resources. The journal aims to present to the international community important results of work in the fields of renewable energy research, development, application or design. The journal also aims to help researchers, scientists, manufacturers, institutions, world agencies, societies, etc. to keep up with new developments in theory and applications and to provide alternative energy solutions to current issues such as the greenhouse effect, sustainable and clean energy issues.
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