Net Zero Energy Buildings (NZEB): Concepts, Frameworks and Roadmap for Project Analysis and Implementation the author provide readers elements to understand, combine and contextualize their design decisions on Net Zero Energy Buildings. The book is based on learned lessons from NZEB design, construction, operation and integrating the most relevant topics such as Multidisciplinarity, Climate Sensitivity, Comfort requirements, Carbon footprint, Technology, Construction Quality, and Evidence Based Design.
Chapter one introduces the context of high performance buildings, chapter two overviews the definition of NZEB, chapter tree covers the performance thresholds for efficient buildings, chapter four covers the design process and its tools, chapter five covers comfort and indoor environmental quality, chapter six covers materials, chapter seven covers systems and building automation, chapter eight covers micro-grid and smart grid, chapter nine discusses construction quality, chapter ten discusses performance monitoring and post occupancy evaluation, chapter eleven brings case studies and the final chapter covers NZEB Roadmap and tools.
Professionals in the Architecture, Engineering and Construction industries will benefit of the definitions of the fundamental concepts of the area as well as from the practical approach to evaluating energy efficient building projects. Researchers and students in the area will find particularly interesting the worldwide case studies and articulation of concepts into an evaluation framework.
- Offers a roadmap for engaging in energy efficiency in high performance buildings projects
- Combine solid grounding in core concepts such as energy efficiency with a wider context that includes the technical, socio-cultural and environmental dimensions
- Cover the key areas for decision making
- Provides logical framework to analyze projects in the context of environmental change
- Presents worldwide examples and cases for different climates and societies
Professionals in the AEC industries – Building Engineers and Professionals: Developers and Building Owners, Architects, Engineers, Contractors, Property Managers, graduate students and academics
2. Evolution of NZEB Definition
3. NZEB Performance Thresholds
4. Design Process and Tools
5. Occupant Comfort and Indoor Environmental Quality
8. Micro-Grid/Smart Grid
9. Construction Quality
10. Performance Monitoring, Post Occupancy Evaluation, and Occupant Behavior
11. Case Studies
12. NZEB Roadmap and Tools
- No. of pages:
- © Butterworth-Heinemann 2018
- 1st April 2018
- Paperback ISBN:
Prof. Dr. Attia is an architectural and building engineer specialized in decision support for sustainable building design and construction. His area of expertise is zero energy buildings and regenerative design. In 2014, he joined Liège University and established the Sustainable Buildings Design (SBD) Laboratory. The lab is focused on integrative sustainable development and research in buildings’ energy efficiency, thermal comfort, indoor environmental quality, energy simulation, rating systems, performance auditing and liability. The lab's focus is identifying and evaluating efficiency measures, performance-based building design and monitoring as a decision support methodology that uses tools and methods to set the whole building performance and life cycle. He was a member of the International Energy Agency Task 40 Team: Towards Net Zero Energy Buildings and Task 51 Solar Energy and Urban Planning. Also he is an active member in ASHRAE, IBPSA, SBSE and USGBC, serves as a reviewer for one international journal beside the PLEA conferences. He participated in two IEA Tasks and published more than 50 peer reviewed publications in books, journal papers and conferences. Dr. Attia works also as an independent consultant in the area of building energy efficiency and sustainability. As registered architect, and LEED accredited professional he worked with several governments for building efficiency programs as well as building design and energy consulting companies. He provided consultation and technical support for several LEED and High Performance Building Designs in Belgium, Egypt, Jordan, Morocco, Switzerland and Djibouti. His tailor made solutions, expertise in Building Energy Modelling and Monitoring and Environmental Impact Assessment helped his clients to provide green building services. He also trained, supervised and built up team capacity for engineers in companies and green building councils such as Morocco, Jordan, Lebanon and Qatar.
Canadian International Development Agency, Hull, Quebec, Canada