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Building Energy Flexibility and Demand Management

Editat de Zhenjun Ma, Müslüm Arici, Amin Shahsavar
en Limba Engleză Paperback – 24 feb 2023
Building Energy Flexibility and Demand Management looks at the high penetration of intermittent renewable energy sources and the need for increased flexibility. Ensuring electrical power systems adapt to dynamic energy demand and supply conditions, the book supports the transition to a renewable energy future with current fluctuating power generation. By facilitating the penetration of renewable energy sources into the building sector and balancing electricity supply with demand in real-time, this book will provide fundamental concepts, theories, and methods to understand, quantify, design and optimize building energy flexibility.
In addition, the book also provides case studies with emerging technologies to enhance building energy flexibility and demonstrate how demand management strategies can utilize energy flexibility for demand reduction and load shifting. It will be useful for all those researchers and engineers working in flexible energy systems and advanced demand side management strategies.


  • Focuses on how renewable energy and storage technologies can be appropriately designed and optimized to increase building energy flexibility
  • Discusses how building energy flexibility can contribute to reduced operating costs and grid optimization
  • Details how to effectively implement building energy flexibility for demand response, peak demand reduction and peak load shifting
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Specificații

ISBN-13: 9780323995887
ISBN-10: 0323995888
Pagini: 288
Dimensiuni: 191 x 235 x 18 mm
Greutate: 0.5 kg
Editura: ELSEVIER SCIENCE

Public țintă

The book can be used by researchers, students (undergraduates, masters and higher degree research students) in renewable energy, system integrators, building designs and building managers and operators in the energy field.

Cuprins

Section I: Foundational information and methods 1. Energy and environmental sustainability 2. Energy flexibility concepts, indicators and quantification methods 3. Energy flexibility modelling and optimization 4. Energy demand management
Section II: Emerging technologies and case studies for enhanced energy flexibility 5. Thermal energy storage for enhanced energy flexibility 6. Renewable energy for enhanced energy flexibility 7. Heat pumps in building energy flexibility 8. District heating and cooling for energy flexibility 9. Energy flexibility of a net zero energy: Case study and demonstration 10. Energy flexibility in intermittent heated and/or cooled systems: A case study