+353-1-416-8900REST OF WORLD
+44-20-3973-8888REST OF WORLD
1-917-300-0470EAST COAST U.S
1-800-526-8630U.S. (TOLL FREE)

Toward Energy-Efficient Buildings. Envelope Technologies and Sustainable Energy Systems

  • Book

  • February 2025
  • Elsevier Science and Technology
  • ID: 5994686
Towards Energy-Efficient Buildings: Envelope Technologies and Sustainable Energy Systems examines the intersection of building design and energy systems analysis, paving the way to sustainable, efficient buildings and our communal energy future. This book begins by outlining the major energy challenges for buildings and the fundamentals and opportunities in envelope technology for their increasing the efficiency of their energy systems. Close analysis of various technologies is then carried out, including case studies and demonstrations of impact assessment techniques. The ways in which these technologies interact with energy systems within the building are drawn out and clarified for a range of readers. Finally, detailed guidance on energy system assessment and analysis is provided. Bringing together these two essential disciplines for sustainable living, Towards Energy-Efficient Buildings will support energy engineers, researchers, and students of energy systems in developing technologies for energy-efficient, sustainable buildings.

Table of Contents

  1. Introduction to carbon-neutral buildings and energy-efficient building envelopes
  2. Fundamentals of building envelope design
  3. Solar radiation, the energy balance of buildings, and building energy use
  4. Advanced thermal regulation strategies for energy-smart building envelopes: thermal insulation materials and building-integrated phase change materials
  5. Energy-efficient windows and facade technologies and energy balance
  6. Spectral-selective nanomaterial solutions for low-energy buildings and a cool city
  7. Building-integrated renewable energy technologies
  8. Building energy assessment tools and evaluation integration approaches to energy-efficient buildings
  9. Building energy performance modeling and simulation for energy systems
  10. Novel passive energy-efficient building envelope technologies and prospects for sustainable energy systems

Authors

Vivien Lin Lu Vivien Lin Lu is a Professor in the Department of Building Environment and Energy Engineering of the Hong Kong Polytechnic University (HK). Prof. Lu is a highly cited researcher by Clarivate Analytics in Engineering (2018) and a World's Top 2% Scientist by Stanford University in Energy. She has published 5 books/handbook chapters and over 300 SCI-cited journal papers in renewable energy, building sciences and engineering. Her current research interests focus on smart exploitation of solar energy and deep space cooling, engineered nanomaterial development towards energy smart building envelopes, and fundamentals of fluid mechanics and heat/mass transfer to enhance building energy systems. Prof. Lu has been the recipient of prestigious awards including being named one of the World's Top 2% Scientists in Energy (Stanford University, USA). Xi Chen Research Assistant Professor, Chinese University of Hong Kong, Hong Kong.

Dr. Chen is a Research Assistant Professor at the Chinese University of Hong Kong, HK. He has over 10-year experience in sustainable building technology related to the passive architectural designs, renewable application in buildings and built environment modelling, and has led or managed multiple research projects including ARC, MOST, RGC and consultancy projects with the local government and industry. He has published over 40 papers in peer-reviewed international journals and coauthored a book in green building and renewable application areas.

Dr. Chen has been awarded the DECRA Fellow in the Australian Research Council and Fulbright Scholar in the Lawrence Berkeley National Laboratory. In addition, he serves as an editorial board member of Buildings, Energies and Advances in Applied Energy.

Jianheng Chen Post-Doctoral Fellow, Hong Kong Polytechnic University, Hong Kong.

Dr. Jianheng Chen is a Postdoctoral Fellow at the Hong Kong Polytechnic University, HK, where he also obtained his PhD in building energy in 2011. His research focuses on the fundamental utilization of radiative sky cooling technology and its integration with buildings, with the aim to achieve low-energy buildings and move towards carbon neutrality and improved building thermal environments.

Kai Jiao Post-Doctoral Researcher, Hong Kong Polytechnic University, Hong Kong.

Dr. Kai Jiao is currently a Post-Doctoral Researcher at the Hong Kong Polytechnic University, HK, focusing on theoretical research on phase change energy storage of paraffin and participating in the development of paraffin thermal storage units for novel photovoltaic/thermal systems. Dr. Jiao has extensive experience in heat transfer analysis of paraffin and its composites. During his doctoral studies, he established a paraffin phase change heat transfer model based on the mixture theory, which allows for accurate prediction of the phase change process of paraffin and its composites.