Energy positive neighborhoods and smart energy districts : methods, tools, and experiences from the field /

This book explores the processes and tools involved in creating energy positive neighborhoods and smart energy districts in an urban setting.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Monti, Antonello (Editor ), Pesch, D. (Dirk) (Editor ), Ellis, K. A. (Keith A.) (Editor ), Mancarella, Pierluigi (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London, United Kingdom ; San Diego, CA : Academic Press, [2017]
Temas:
Electric power distribution.
Electric power transmission.
Smart power grids.
Sustainable engineering.
Électricité > Transport.
Réseaux électriques intelligents.
Ingénierie durable.
TECHNOLOGY & ENGINEERING > Mechanical.
Acceso en línea:Texto completo (Requiere registro previo con correo institucional)
Tabla de Contenidos:
  • Cover; Title Page; Copyright Page; Contents; List of Contributors; About the Editors; Preface; Acknowledgment; Chapter One
  • Introduction; 1
  • Introduction; 2
  • Background of the Book; 3
  • Structure of the Book; References; Chapter Two
  • Energy Positivity and Flexibility in Districts; 1
  • Introduction; 2
  • Economic Value of an EPN; 2.1
  • Economic Value of "Classic" Definition of Energy Positivity; 2.2
  • Economic Value of Flexibility; 2.2.1
  • Further Aligning of Flexibility and Economic Value Objectives; 3
  • Alternative Objectives/Criteria; 4
  • Multicriteria Analysis; 5
  • Conclusions.
  • 3
  • Examples of Neighborhood Adaptations in COOPERaTE3.1
  • Challenger Adaptation Augmentation; 3.1.1
  • Sensing and Understanding; 3.1.2
  • Deciding and Acting; 3.2
  • Bishopstown Adaptation Augmentation; 3.2.1
  • Sensing and Understanding; 3.2.2
  • Deciding and Acting; 4
  • Summary and Recommendations; 4.1
  • Summary; 4.2
  • Recommendations; References; Chapter Four
  • Simulation Tools and Optimization Algorithms for Efficient Energy Management in Neighborhoods; 1
  • Introduction; 1.1
  • Motivation; 1.2
  • Our Contributions; 2
  • Preliminaries; 3
  • Simulation Models for Energy Positive Neighborhoods.
  • 3.1
  • Time Constants3.2
  • Modeling Language; 3.3
  • Thermal System; 3.4
  • Electrical System; 3.5
  • Model Library; 3.5.1
  • Thermal Components; 3.5.1.1
  • Thermal Zone Model and Building Physics; 3.5.1.2
  • Boiler; 3.5.1.3
  • Heat Pump; 3.5.1.4
  • CHP Generator; 3.5.1.5
  • Solar Thermal Panel; 3.5.1.6
  • Thermal Storage; 3.5.1.7
  • Heat Exchanger; 3.5.1.8
  • Radiator; 3.5.1.9
  • Pump; 3.5.1.10
  • Three-Way Valves; 3.5.2
  • Electrical Components; 3.5.2.1
  • Electrical Line; 3.5.2.2
  • PV Module; 3.5.2.3
  • Simplified Battery Storage System; 3.5.2.4
  • Constant Power Load; 3.5.2.5
  • EV Charger.
  • 3.5.2.6
  • Transformer3.5.2.7
  • Infinite Power Bus; 3.5.2.8
  • Wind Turbine; 4
  • Neighborhood Energy Optimization Algorithms; 4.1
  • Mathematical Notations and Definitions; 4.1.1
  • Combined Heat and Power Mathematical Description; 4.1.2
  • Boiler Mathematical Description; 4.1.3
  • Thermal Storage Mathematical Description; 4.1.4
  • Electrical Storage Mathematical Description; 4.2
  • Centralized Optimization-Single Ownership Neighborhood; 4.3
  • Hierarchical Two-Level Optimization; 5
  • Summary; Acknowledgments; References; Chapter Five
  • Information and Communication Technology for EPN.

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