Towards Net Zero in the Building Industry looks at the contributions that the building and construction industry can (and must) make to help achieve net zero carbon emissions. The building industry accounts for close to 40% of global emissions and this book brings together a global group of contributors from 15 countries to examine ways in which the industry can help with overall CO2 reduction. Coverage includes factors such as building design strategy, materials selection, use of local materials with a low carbon imprint, renewable energy use, energy conservation, greenery and appropriate aesthetics, building size and scale, climate suitability, building functionality and comfort, material recycling, and adoption of green policies.
Chapter 6 is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.
Brains for Buildings to Close the Performance Gap.- The Integrated
Design Studio as Means to Achieve Zero Net Energy Building.- Green Urbanism
With "Genuine" Green Architecture: An Exemplary Case in New York.- Net Zero
Energy Buildings: A Study in Two Cities: Ajman and Lisbon.- The Proper
Geometrical Parameters of Urban Street Profile to Enhance Outdoor Thermal
Comfort in Highland Zone of Algeria.- Beyond Energy Efficiency: The Emerging
Era of Smart Bioenergy.- Turning an Ordinary House Into Something
Extraordinary on the Road to Net Zero.- Environmental Dimensions of Climate
Change: Endurance and Change in Material Culture.- What It Takes to Go Net
Zero: A Technical and a Social Challenge.- Zero Energy Houses for the
Mediterranean: Energy Refurbishment Optimisation Studies of Residential
Building Typologies in Cyprus.- Studies of Residential Building Typologies in
Cyprus.- Simulated vs. Monitored Building Behaviours: Sample Demo
Applications in a North-ItalianClimate.- The Current Trends and Future
Perspectives of Using Building Integrated Photovoltaic Thermal (BIPV-T)
Systems to Achieve Net Zero Goal.- Dynamic Simulations of High Energy
Performance Buildings: The Role of Climatic Data and the Consideration of
Climate Change.- Thermal Behavior of Exterior Coating Texture and Its Effect
on the Building Thermal Performance.- Towards Climate Neutrality: Global
Perspective and Actions for Net Zero Buildings to Achieve Climate Mitigation
and SDGs.- External Solar Shading Design for Low-energy Buildings in Humid
Temperate Climates.- The Reuse of Old Building Structure in Architectural
Design.- The Next Challenge of Nearly Zero Energy Buildings (NZEB): Advanced
Materials and Traditional Technologies to Realize Positive Energy Buildings
(PEB).- Achieving Zero Energy Facades.- Lesson From First Net Zero Energy
Buildings.
Professor Ali Sayigh is Chairman and Founder of the World Renewable Energy Congress (WREC), Director-General of the World Renewable Energy Network (WREN), Chairman and Founder of the Arab Solar Energy Society, and Past Chairman of the UK Solar Energy Society. He actively consults on renewable and sustainable energy issues for several international organizations, including UNESCO, ISESCO, UNDP, ESCWA, and UNIDO. Dr. Sayigh was Director of Solar Seminars at ICTP Trieste, Italy from 1977 to 1995, and Professor of Solar Energy at King Saud University, Saudi Arabia, from 1969 to 1981. He was head of renewable energy at the Kuwait Institute for Scientific Research from 1981 to 1985, a founding expert on renewable energy at OAPEC from 1985 to 1987, Professor at Reading University from 1987 to 1994, and Professor at the University of Hertfordshire from 1994 to 2004. He was the founding Editor and Editor-in-Chief of the Renewable Energy journal from 1984 to 2014, and in 2017 helped establish and was Editor-in-Chief of the journal Renewable Energy and Environmental Sustainability. He is a Chartered Engineer and a Fellow of the Institute of Energy, the Institution of Engineering and Technology, and the Royal Society of Arts. Dr. Sayigh has published more than 300 papers and has contributed to and edited more than 30 books. He was the Editor-in-Chief of the multi-volume reference work Comprehensive Renewable Energy (Elsevier, 2012).
