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Building Energy Management Systems and Techniques. Principles, Methods, and Modelling

  • Book

  • February 2024
  • Elsevier Science and Technology
  • ID: 5527450

Building Energy Management Systems and Techniques: Principles, Methods, and Modelling presents basic concepts, methodologies, modeling techniques, and fundamental design schemes of building energy management systems. Covering the latest developments and methodologies from academia and industry, the book brings together energy management, demand response, evolutionary computation, and fundamental programming.
The authors explore the basic concepts related to building energy management systems and put them into the context of smart grids, demand response and demand-side management, internet of things, and distributed renewable energy. Advanced topics provide the reader with an understanding of various energy management scenarios and procedures for modern buildings in an automatic and highly renewable-penetrated building environment. This includes a range of energy management techniques for building-side energy resources such as battery energy storage systems, plug-in appliances, and HVAC systems. The fundamental principles of evolutionary computation are covered and applied to building energy management problems. The authors also introduce the paradigm of occupant-to-grid integration and its implementation through personalized recommendation technology to guide the occupants' choices on energy-related products and their energy usage behaviors, as well as to enhance the energy efficiency of buildings. The book includes several application examples throughout, illustrating for the reader the key aspects involved in the implementation of building energy management schemes.
Building Energy Management Systems and Techniques is an invaluable resource for undergraduate and postgraduate students enrolled in courses related to energy-efficient building systems and smart grids and researchers working in the fields of smart grids, smart buildings/homes, and energy demand response. The book will be of use to professional electrical, civil, computing, and communications engineers, architects, and building energy consultants.

Please Note: This is an On Demand product, delivery may take up to 11 working days after payment has been received.

Table of Contents

1. Introduction to Building Energy Management Systems
2. Emerging Energy Resources in Modern Buildings
3. Information Infrastructures for Modern Buildings
4. Power Demand Response and Demand Side Management
5. Building Energy Management Systems (BEMSs)
6. Optimization and Evolutionary Computation
7. Energy Management of Non-Thermostatically Controlled Appliances
8. Energy Management of Thermostatically Controlled Appliances
9. Energy Sharing Among Buildings10. Building-to-Grid Integration
11. Microgrids
12. No C Occupant-to-Grid Integration

Authors

Fengji Luo Academic Fellow and Researcher, School of Civil Engineering, The University of Sydney, Australia. Fengji Luo is an Academic Fellow and a Lecturer in the School of Civil Engineering at The University of Sydney. His research interests include power demand response and demand side management, building/home energy management, smart grid, and computational intelligence and its applications in smart grids and smart buildings. Gianluca Ranzi Professor and Director, Centre for Advanced Structural Engineering, School of Civil Engineering, The University of Sydney, NSW, Australia. Gianluca Ranzi is a Professor in the School of Civil Engineering and Director of the Centre for Advanced Structural Engineering at The University of Sydney. His research interests fall in the fields of structural engineering, architectural science, building energy management and power demand side management, and heritage conservation. Zhao Yang Dong Professor, School of Electrical and Electronics Engineering, Nanyang Technological University, Singapore.

Zhao Yang Dong is a Professor in the School of Electrical and Electronics Engineering at

Nanyang Technological University, Singapore. His previous roles include Director of UNSW

Digital Grid Futures Institute, Ausgrid Chair Professor and Director of Ausgrid Centre for Intelligent Electricity Networks led R&D support for the Smart Grid, Smart City national demonstration project in Australia. He is a Fellow of IEEE for his contributions in computational methods in power system planning and stability. His research interests include smart grid, power demand response and demand side management, energy market and economics, and power system stability and control.