Author
Said Diaf
Other affiliations: University of Corsica Pascal Paoli
Bio: Said Diaf is an academic researcher from Center for Drug Evaluation and Research. The author has contributed to research in topics: Wind power & Photovoltaic system. The author has an hindex of 13, co-authored 22 publications receiving 1547 citations. Previous affiliations of Said Diaf include University of Corsica Pascal Paoli.
Papers
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TL;DR: In this article, the sizing and techno-economic optimisation of a stand-alone hybrid PV/wind system with battery storage is presented, where the main objective of the present study is to find the optimum size of system (optimum system configurations), able to fulfil the energy requirements of a given load distribution, for three sites located at Corsica island (at three sites in Corsica, Italy).
533 citations
TL;DR: In this article, the authors presented a technical-economic optimization study of a stand-alone hybrid PV/Wind system in Corsica Island, where the optimal dimensions of the system were derived based on the lowest levelised cost of energy (LCE).
378 citations
TL;DR: In this paper, the sizing and techno-economical optimization of a stand-alone hybrid photovoltaic/wind system (HPWS) with battery storage is presented, where the main objective is to find the optimum size of system, able to fulfill the energy requirements of a given load distribution, for three sites located at Corsica island and to analyze the impact of different parameters on the system size.
254 citations
TL;DR: In this paper, the performance of hybrid PV-Wind-Diesel-Battery configuration based on hourly measurements of Adrar climate (southern Algeria) has been investigated, and a mathematical model has been developed to ensure efficient energy management on the basis of various operation strategies.
127 citations
TL;DR: In this paper, an assessment of the technical potential for producing hydrogen from the PV/proton exchange membrane (PEM) electrolyser system is investigated, and the amount of hydrogen produced by this system in six locations using hourly global solar irradiations on horizontal plane and ambient temperature.
101 citations
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TL;DR: A review of the current state of the art in computational optimization methods applied to renewable and sustainable energy can be found in this article, which offers a clear vision of the latest research advances in this field.
Abstract: Energy is a vital input for social and economic development. As a result of the generalization of agricultural, industrial and domestic activities the demand for energy has increased remarkably, especially in emergent countries. This has meant rapid grower in the level of greenhouse gas emissions and the increase in fuel prices, which are the main driving forces behind efforts to utilize renewable energy sources more effectively, i.e. energy which comes from natural resources and is also naturally replenished. Despite the obvious advantages of renewable energy, it presents important drawbacks, such as the discontinuity of generation, as most renewable energy resources depend on the climate, which is why their use requires complex design, planning and control optimization methods. Fortunately, the continuous advances in computer hardware and software are allowing researchers to deal with these optimization problems using computational resources, as can be seen in the large number of optimization methods that have been applied to the renewable and sustainable energy field. This paper presents a review of the current state of the art in computational optimization methods applied to renewable and sustainable energy, offering a clear vision of the latest research advances in this field.
1,394 citations
TL;DR: In this article, the authors reviewed the current state of the simulation, optimization and control technologies for the stand-alone hybrid solar-wind energy systems with battery storage, and found that continued research and development effort in this area is still needed for improving the systems' performance, establishing techniques for accurately predicting their output and reliably integrating them with other renewable or conventional power generation sources.
809 citations
TL;DR: In this paper, the progress made in solar power generation research and development since its inception is reviewed, highlighting the current and future issues involved in the generation of quality and reliable solar power technology for future applications.
787 citations
TL;DR: In this article, the authors provide a detailed analysis of such optimum sizing approaches in the literature that can make significant contributions to wider renewable energy penetration by enhancing the system applicability in terms of economy.
Abstract: Public awareness of the need to reduce global warming and the significant increase in the prices of conventional energy sources have encouraged many countries to provide new energy policies that promote the renewable energy applications. Such renewable energy sources like wind, solar, hydro based energies, etc. are environment friendly and have potential to be more widely used. Combining these renewable energy sources with back-up units to form a hybrid system can provide a more economic, environment friendly and reliable supply of electricity in all load demand conditions compared to single-use of such systems. One of the most important issues in this type of hybrid system is to optimally size the hybrid system components as sufficient enough to meet all load requirements with possible minimum investment and operating costs. There are many studies about the optimization and sizing of hybrid renewable energy systems since the recent popular utilization of renewable energy sources. In this concept, this paper provides a detailed analysis of such optimum sizing approaches in the literature that can make significant contributions to wider renewable energy penetration by enhancing the system applicability in terms of economy.
635 citations
TL;DR: In this article, an extensive review on various issues related to Integrated Renewable Energy System (IRES) based power generation is presented, including integration configurations, storage options, sizing methodologies and system control for energy flow management.
Abstract: Uneconomical extension of the grid has led to generation of electric power at the end user facility and has been proved to be cost effective and to an extent efficient. With augmented significance on eco-friendly technologies the use of renewable energy sources such as micro-hydro, wind, solar, biomass and biogas is being explored. This paper presents an extensive review on various issues related to Integrated Renewable Energy System (IRES) based power generation. Issues related to integration configurations, storage options, sizing methodologies and system control for energy flow management are discussed in detail. For stand-alone applications integration of renewable energy sources, performed through DC coupled, AC coupled or hybrid DC–AC coupled configurations, are studied in detail. Based on the requirement of storage duration in isolated areas, storage technology options can be selected for integrated systems. Uncertainties involved in designing an effective IRES based power generation system for isolated areas is accounted due to highly dynamic nature of availability of sources and the demand at site. Different methodologies adopted and reported in literature for sizing of the system components are presented. Distributed control, centralized and hybrid control schemes for energy flow management in IRES have also been discussed.
611 citations