Type(s) de contenu et mode(s) de consultation : Texte noté : électronique

Titre(s) : Smart energy grid design for island countries [Texte électronique] : challenges and opportunities / F.M. Rabiul Islam, Kabir Al Mamun, Maung Than Oo Amanullah, editors

Publication : Cham : Springer, copyright 2017

Description matérielle : 1 ressource dématérialisée : illustrations en partie en couleur, fichiers PDF

Collection : Green energy and technology

Lien à la collection : Green energy and technology (Internet)  Voir toutes les notices liées

Note(s) : This book identifies the challenges, solutions, and opportunities offered by smart energy grids (SEGs) with regard to the storage and regulation of diversified energy sources such as photovoltaic, wind, and ocean energy. It provides a detailed analysis of the stability and availability of renewable sources, and assesses relevant socioeconomic structures. The book also presents case studies to maximize readers' understanding of energy grid management and optimization. Moreover, it offers guidelines on the design, implementation, and maintenance of the (SEG) for island countries
La pagination de l'édition imprimée correspondante est de : XI-465 p.

Autre(s) auteur(s) : Islam, F. M. Rabiul. Éditeur scientifique  Voir les notices liées en tant qu'auteur
Mamun, Kabir Al. Éditeur scientifique  Voir les notices liées en tant qu'auteur
Amanullah, Maung Than Oo. Éditeur scientifique  Voir les notices liées en tant qu'auteur

Sujet(s) : Réseaux électriques intelligents  Voir les notices liées en tant que sujet
Énergie -- Stockage  Voir les notices liées en tant que sujet

Indice(s) Dewey :  621.042 (23e éd.) = Génie énergétique  Voir les notices liées en tant que sujet

Identifiants, prix et caractéristiques : ISBN 9783319501970. - ISBN 3319501976. - ISBN 9783319501963 (erroné). - ISBN 3319501968 (erroné)

Identifiant de la notice  : ark:/12148/cb45777815r

Notice n° :  FRBNF45777815 (notice reprise d'un réservoir extérieur)

Table des matières : Preface; Contents; Editorial Advisory Board; Reviewers; 1 Possibilities and Challenges of Implementing Renewable Energy in the Light of PESTLE & SWOT Analyses for Island Countries; Abstract; 1 Introduction; 2 PESTLE and SWOT Analyses on Renewable Energy Resources; 3 PESTLE Analysis; 3.1 Political; 3.2 Economical; 3.3 Social; 3.4 Technological; 3.5 Legal; 3.6 Environmental; 4 SWOT Analysis; 5 Summary; 5.1 Climate; 5.2 Financial; 5.3 Fuel Shudders; 5.4 Policy; 5.5 Lack of Technical Expertise; References.
2 Utilization and Optimization of Diesel Generation for Maximum Renewable Energy IntegrationAbstract; 1 Introduction; 2 Historical Diesel Perspectives; 3 Diesel Fuel; 4 Emissions Compliance; 5 Islanded Markets, Challenges and Opportunities; 6 Hybrid Diesel Architectures; 7 Advanced Diesel Technologies and Control; 7.1 Low Load Diesel (LLD); 7.2 Load Variable Cooling; 7.3 Multi-burst Common Rail Injection; 7.4 Variable Injection Nozzle Geometry; 7.5 Cylinder Switching/Deactivation; 7.6 Turbocharging; 7.7 Reverse Power Acceptance; 7.8 Exhaust Gas Recovery (EGR).
7.9 Under Frequency Voltage Roll-Off (UFRO)7.10 Variable Speed Diesel (VSD); 7.11 DC Diesel (DCD) Hybrids; 7.12 Biodiesel Blending; 8 Operational Theory; 9 Diesel Modelling Simulation (Conventional/D-UPS and LLD); 10 Economics of Diesel Generation; 10.1 Viti Levu Island, Fiji, Pacific; 10.2 Cabo Verde, Atlantic Ocean; 11 100% Renewable Energy System Design; 12 Conclusion; Acknowledgements; References; 3 Optimal Control System of Under Frequency Load Shedding in Microgrid System with Renewable Energy Resources; Abstract; 1 Introduction; 2 General Configuration of the MG System.
2.1 MG System General Model2.1.1 Micro-Hydropower System; 2.1.2 Photovoltaic System; 2.1.3 Biomass System; 2.1.4 Battery Bank System Characteristics; 2.1.5 Wind Turbine Generator Characteristics; 2.1.6 Fuel Cell; 2.1.7 Gas-Fired Power Stations; 2.1.8 Diesel Generators; 2.2 Comparison of Production Energies Options; 3 Contribution of Renewable and Nonrenewable Resources into the Microgrid System; 3.1 Microgrid System Configuration; 3.2 Problem Formulation; 3.2.1 System Description; 3.2.2 Objective Function; 3.2.3 Constraints; 3.3 Simulation Results; 3.3.1 Optimization Algorithm.
3.3.2 Typical Application3.4 Results and Discussions; 4 Conclusion and Technical Challenges; References; 4 Power Quality Impacts and Mitigation Measures for High Penetrations of Photovoltaics in Distribution Networks; Abstract; 1 Introduction; 1.1 Generation Ramp Rate Impacts; 1.2 Voltage Impacts; 2 The Growth of PV Installations; 2.1 The Global Scenario; 2.2 PV Applications in Island States; 3 Impacts of High Levels of PV Penetration in LV Distribution Networks; 3.1 Voltage Regulation; 3.2 Voltage Unbalance; 4 Mitigation Methods; 4.1 Traditional Mitigation Methods.