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This is an original study, where I designed an Energy Power System combining 2 Renewable Energy Sources (Sun and Wind) with a stand-by Diesel engine to electrify a small living compound in a remote location in Sudan (Africa). In this design the initial system cost was 31,250 $ which considered a small fraction from the cost of erecting the HV transmission lines which according to Sudanese Ministry of Energy and Mining might cost 30,000 $ for each 1 Km, while some rural communities in remote areas can be a hundreds kilometers away from the national grid. The huge cost of building a distribution substation should be also considered. I hope it will be beneficial for researchers and students and a quick reference in its field.
PV/Wind/Diesel Hybrid Energy Systems are used for energy supply in remote areas. Depending on the geographical and meteorological situation as well as on the load profile specific hybrid energy system designs are the best and most cost efficient solution. Typically, these systems are used in regions where the costs for a grid connection are too high due to the remote necessaries. The advantage of these systems is that it is possible to design them very flexible and adjust them to the concrete demands. On the other hand, they represent a complex system thus requiring some effort in planning and design. The proposed system is intended to supply a small living complex in a remote area in Khartoum (Sudan). The aim is to find the best system configuration and to what extent the combination of these two renewable energy sources can reduce the costs compared to a grid-connected system.The system has been evaluated and optimized with the assistance of the simulation tool HOMER developed by the National Renewable Energy Laboratory (NREL), Colorado, USA.
PV/Wind/Diesel Hybrid Energy Systems are used for energy supply in remote areas. Depending on the geographical and meteorological situation as well as on the load profile specific hybrid energy system designs are the best and most cost efficient solution. Typically, these systems are used in regions where the costs for a grid connection are too high due to the remote necessaries. The advantage of these systems is that it is possible to design them very flexible and adjust them to the concrete demands. On the other hand, they represent a complex system thus requiring some effort in planning and design. The proposed system is intended to supply a small living complex in a remote area in Khartoum (Sudan). The aim is to find the best system configuration and to what extent the combination of these two renewable energy sources can reduce the costs compared to a grid-connected system. The system has been evaluated and optimized with the assistance of the simulation tool HOMER developed by the National Renewable Energy Laboratory (NREL), Colorado, USA.
This book provides a platform for scientists and engineers to comprehend the technologies of solar wind hybrid renewable energy systems and their applications. It describes the thermodynamic analysis of wind energy systems, and advanced monitoring, modeling, simulation, and control of wind turbines. Based on recent hybrid technologies considering wind and solar energy systems, this book also covers modeling, design, and optimization of wind solar energy systems in conjunction with grid-connected distribution energy management systems comprising wind photovoltaic (PV) models. In addition, solar thermochemical fuel generation topology and evaluation of PV wind hybrid energy for a small island are also included in this book. Since energy storage plays a vital role in renewable energy systems, another salient part of this book addresses the methodology for sizing hybrid battery-backed power generation systems in off-grid connected locations. Furthermore, the book proposes solutions for sustainable rural development via passive solar housing schemes, and the impacts of renewable energies in general, considering social, economic, and environmental factors. Because this book proposes solutions based on recent challenges in the area of hybrid renewable technologies, it is hoped that it will serve as a useful reference to readers who would like to be acquainted with new strategies of control and advanced technology regarding wind solar hybrid systems
Designing of a PV/Wind/Diesel Hybrid Energy System by the aid of the Micro-grid Modelling Software HOMER Pro of NREL.
PV/Wind/Diesel Hybrid Energy Systems are used for energy supply in remote areas. Depending on the geographical and meteorological situation as well as on the load profile specific hybrid energy system designs are the best and most cost efficient solution. Typically, these systems are used in regions where the costs for a grid connection are too high due to the remote necessaries. The advantage of these systems is that it is possible to design them very flexible and adjust them to the concrete demands. On the other hand, they represent a complex system thus requiring some effort in planning and design. The proposed system is intended to supply a small living complex in a remote area in Khartoum (Sudan). The aim is to find the best system configuration and to what extent the combination of these two renewable energy sources can reduce the costs compared to a grid-connected system.
Wind power is fast becoming one of the leading renewable energy sources worldwide, not only from large scale wind farms but also from the increasing penetration of stand-alone and hybrid wind energy systems. These systems are primarily of benefit in small-scale applications, especially where there is no connection to a central electricity network, and where there are limited conventional fuel resources but available renewable energy resources. By applying appropriate planning, systems selection and sizing, including the integration of energy storage devices to mitigate variable energy generation patterns, theses systems can supply secure reliable and economic power to remote locations and distributed micro-grids.Stand-alone and hybrid wind energy systems is a synthesis of the most recent knowledge and experience on wind-based hybrid renewable energy systems, comprehensively covering the scientific, technical and socio-economic issues involved in the application of these systems.Part one presents an overview of the fundamental science and engineering of stand-alone and hybrid wind energy systems and energy storage technology, including design and performance optimisation methods and feasibility assessment for these systems. Part two initially reviews the design, development, operation and optimisation of stand-alone and hybrid wind energy systems – including wind-diesel, wind -photovoltaic (PV), wind-hydrogen, and wind-hydropower energy systems – before moving on to examine applicable energy storage technology, including electro-chemical, flywheel (kinetic) and compressed air energy storage technologies. Finally, Part three assesses the integration of stand-alone and hybrid wind energy systems and energy technology into remote micro-grids and buildings, and their application for desalination systems.With its distinguished editor and international team of contributors, Stand-alone and hybrid wind energy systems is a standard reference for all renewable energy professionals, consultants, researchers and academics from post-graduate level up. - Provides an overview of the fundamental science and engineering of stand-alone hybrid and wind energy systems, including design and performance optimisation methods - Reviews the development and operation of stand-alone and hybrid wind energy systems - Assesses the integration of stand-alone and hybrid wind energy systems and energy storage technology into remote micro-grids and buildings, and their application for desalination systems
This book provides for the first time in a single volume the collective knowledge of many leading researchers on state-of-the-art wind-diesel technology. It contains the results and advice of nineteen experts from ten different countries, and has been carefully edited to provide a coherent reference volume. This book is the result of a five-year study by a group of experts working on the development of wind-diesel technology under the auspices of the International Energy Agency. The formal, technical aims of this project were as follows: to define cost-effective models and techniques for obtaining wind and load data necessary for planning; to specify decentralised wind-energy conversion system installations; to apply and further develop models suitable for analysing the performance of wind-diesel systems; and to obtain a sound analytical basis for planning and designing wind-diesel systems.
This open access book presents papers displayed in the 2nd International Conference on Energy and Sustainable Futures (ICESF 2020), co-organised by the University of Hertfordshire and the University Alliance DTA in Energy. The research included in this book covers a wide range of topics in the areas of energy and sustainability including: • ICT and control of energy;• conventional energy sources;• energy governance;• materials in energy research;• renewable energy; and• energy storage. The book offers a holistic view of topics related to energy and sustainability, making it of interest to experts in the field, from industry and academia.
INTELLIGENT RENEWABLE ENERGY SYSTEMS This collection of papers on artificial intelligence and other methods for improving renewable energy systems, written by industry experts, is a reflection of the state of the art, a must-have for engineers, maintenance personnel, students, and anyone else wanting to stay abreast with current energy systems concepts and technology. Renewable energy is one of the most important subjects being studied, researched, and advanced in today’s world. From a macro level, like the stabilization of the entire world’s economy, to the micro level, like how you are going to heat or cool your home tonight, energy, specifically renewable energy, is on the forefront of the discussion. This book illustrates modelling, simulation, design and control of renewable energy systems employed with recent artificial intelligence (AI) and optimization techniques for performance enhancement. Current renewable energy sources have less power conversion efficiency because of its intermittent and fluctuating behavior. Therefore, in this regard, the recent AI and optimization techniques are able to deal with data ambiguity, noise, imprecision, and nonlinear behavior of renewable energy sources more efficiently compared to classical soft computing techniques. This book provides an extensive analysis of recent state of the art AI and optimization techniques applied to green energy systems. Subsequently, researchers, industry persons, undergraduate and graduate students involved in green energy will greatly benefit from this comprehensive volume, a must-have for any library. Audience Engineers, scientists, managers, researchers, students, and other professionals working in the field of renewable energy.