Towards net zero carbon emissions in the building industry / / edited by Ali Sayigh
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| Titolo: |
Towards net zero carbon emissions in the building industry / / edited by Ali Sayigh
|
| Pubblicazione: | Cham, Switzerland : , : Springer, , [2023] |
| ©2023 | |
| Descrizione fisica: | 1 online resource (439 pages) |
| Disciplina: | 905 |
| Soggetto topico: | Carbon dioxide mitigation |
| Persona (resp. second.): | ṢāʼighʻAlī |
| Nota di bibliografia: | Includes bibliographical references and index. |
| Nota di contenuto: | Intro -- Preface -- Contents -- The Proper Geometrical Parameters of Urban Street Profile to Enhance Outdoor Thermal Comfort in Highland Zone of Algeria -- Introduction -- The Highland Zone of Algeria -- Constantine Climate -- Parametric Modelling of Urban Street Canyon -- Outdoor Thermal Comfort in Urban Street Model of Prospect Urban Rule -- Fictious Fabric Simulation -- The Effect of Obstruction Angle and Orientation on Outdoor Thermal Comfort in Urban Street Canyon -- Parametric Solar Envelope Application -- Generating Parametric Solar Envelope -- The Effect of Filtering Process of Sun Hours on Solar Volume Coefficient -- The Effect of Orientation on Solar Envelope's Height -- The Effect of Sun Vectors Filtering Process on the UTCI -- Conclusion -- Appendices -- Appendix 1 (Fig. 16) -- Appendix 2 -- Appendix 3 -- References -- Thermal Behavior of Exterior Coating Texture and Its Effect on Building Thermal Performance -- Introduction -- How Exterior Cladding Texture Can Improve the Thermal Performance of Buildings in Hot and Arid Climate -- Theoretical Analysis -- Modeling Approach -- Experimental Procedure -- Texture Effects -- Effect of Texture Geometry -- Effect of Texture Particles -- Conclusions -- Texture Depth -- Organizing and Assembling the Texture -- Texture Thickness -- Texture Components -- Things to Think About -- Appendix -- References -- Beyond Energy Efficiency: The Emerging Era of Smart Bioenergy -- The Power of Metabolism -- The Frankenstein Fallacy -- The Long Latency of the Bioelectrical Revolution -- How We Will Incorporate Nature into Our Homes and Cities -- Introducing an Emerging Platform: Microbial Technology -- Historical Relationship with Technology Frames Our Future Trajectories -- The "Living" Home: Our Households Become a Circular Economy -- Active Living Infrastructure: Controlled Environment (ALICE). |
| The "Power Plant": Activating the Commons -- Microbial Sentinels: Keeping Us Safe -- Natural Bioremediation in Urban Spaces: Revitalising Brownfield Sites -- Towards the Off-Grid City: Empowered and Mobile Communities -- Conclusion -- References -- Brains for Buildings to Achieve Net Zero -- Combined Brains for Building Design: Integral Design -- Design Methodology -- Experiments -- Results Design Approach -- Artificial Brains for Building Operation: Data Analytics and Machine Learning -- Fault Detection and Diagnosis -- Automated Fault Detection by Diagnostic Bayesian Networks 4S3F Method -- Pareto-Lean Analyses -- Towards Machine Learning -- Discussion -- Conclusions -- References -- Using Building Integrated Photovoltaic Thermal (BIPV/T) Systems to Achieve Net Zero Goal: Current Trends and Future Perspectives -- Introduction -- BIPV/T Systems: How They Work -- Mathematical Modeling -- Glass -- Top EVA -- Silicon -- Bottom EVA -- Tedlar -- The Air Stream Between BIPV/T System and Wall of Building -- Free Convection -- Forced Convection -- The Electrical Model -- Coupling the Two Models -- Achieving the Net Zero Goal Using BIPV/T Systems -- Conclusion -- References -- Simulated Versus Monitored Building Behaviours: Sample Demo Applications of a Perfomance Gap Detection Tool in a Northern Italian Climate -- Introduction -- Chapter Objectives and Contents -- Methodology and PREDYCE -- PREDYCE Introduction and Use Scenarios -- PREDYCE Model Verification Scenario -- PREDYCE Performance Gap Scenario -- Demo Building Applications and Results -- Demo Buildings General Description -- Application of the Model Verification PREDYCE Scenario -- Application of the PREDYCE Performance Gap Scenario -- Standard and Standard Modified Scenarios -- Performance Gap Results -- Conclusions -- References. | |
| Dynamic Simulations of High-Energy Performance Buildings: The Role of Climatic Data and the Consideration of Climate Change -- Introduction -- Typical Weather Years as an Input Parameter for BEPS -- The "Typical Meteorological Year" Technique -- The "Test Reference Year" Technique -- The "Weather Year for Energy Calculation" Technique -- The "Example Weather Year" Technique -- Stochastic Generation of Synthetic Weather Years for Building Energy Simulation -- The Use of Typical Weather Years on Dynamic BEPS -- Urban Microclimate Data as an Input Parameter for BEPS Simulation -- Evaluation of the Role of Urban Microclimate on Buildings Energy Performance, Using Urban and Rural Climatic Data -- Evaluating the Effect of the Urban Microclimate on Buildings' Energy Performance, Using Numerical Methods -- Climate Change and Generation of Future Weather Datasets for Dynamic Building Energy Performance Simulations -- Synopsis and Conclusions -- References -- Green Urbanism with Genuine Green Architecture: Toward Net Zero System in New York -- Introduction -- Looking Back for the Idea of Green Settlements -- Green Urbanism and the Need for "Genuine" Green Architecture in Contemporary Developments -- Towards Net Zero Buildings: The Seventy-Six, New York -- Urban Context -- Equity -- Adaptability -- Permaculture -- Recycling -- Waste and Storm Water -- Energy Use -- Conclusions -- References -- External Solar Shading Design for Low-Energy Buildings in Humid Temperate Climates -- Introduction -- Climatic Region -- Shading Device Variables -- Building Description -- Simulation Tool -- Results and Discussion -- Conclusion -- Bibliography -- What It Takes to Go Net Zero: Why Aren't We There Yet? -- Introduction: Net Zero in the Building Industry: Why Aren't We There Yet? -- The Global Challenge: Climate Change and Future Climates. | |
| The Technical Challenge: Net Zero in the Building Industry -- The Social Challenge: Net Zero Perception and Commitment -- The Future Challenge: From the Building Itself to a Low-Carbon Community - Energy-Positive Buildings -- Discussion: Our Role in the Transition to Net Zero: We Must Be There as Soon as Possible -- References -- The Integrated Design Studio as a Means to Achieve Zero Net Energy Buildings -- Introduction -- Background -- The Global Energy Problem -- Low Carbon Strategies -- Passive and Low-Energy Cooling Systems -- HVAC Equipment -- Lighting and Daylighting -- Teaching the IDS -- IDS Challenges -- Teaching Philosophy -- Teaching Objectives -- How Objectives Are Achieved -- Teaching Methodologies -- Building Systems and Integration -- MultiComfort House Student Contest 2018 -- Aim -- Project Site in the Cultural Village -- Task -- The Students' Project -- Project Brief/Design Goals -- Integrated Design Paradigm/Design Process -- Architectural Design Concept -- Improving Building's Energy Performance -- Renewable Energy Using PV System -- Conclusion -- Appendices -- Appendix A: Slides of the Final Design -- Appendix B: Celebration Photos -- References -- Indicators Toward Zero-Energy Houses for the Mediterranean Region -- Introduction -- Methodology -- The Average Residential Dwellings -- Energy Profile -- Heat Losses -- Energy Need -- Energy Refurbishment Scenarios -- Refurbishment Indicators of the Building Envelope -- Future Projection of the Energy Renovations towards Toward Zero-Energy Dwellings -- Conclusions -- References -- Toward NZEB in Public Buildings: Integrated Energy Management Systems of Thermal and Power Networks -- Introduction -- Literature Review -- Microgrids -- Microgrid Energy Management Systems -- Control Structure -- Control Strategies -- Bioclimatic Building Design -- Case Study. | |
| Thermal and Power Microgrid Integration -- Model Integration -- Results -- Summer -- Winter -- Modifications to the Case Study -- Summer -- Winter -- Energy Management System -- Control Strategy 1 -- Case Study - Summer -- Case Study - Winter -- Modified Case Study - Summer -- Modified Case Study - Winter -- Control Strategy 2 -- Modified Case Study - Summer -- Modified Case Study - Winter -- Discussion -- Appendix -- References -- The Missing Link in Architectural Pedagogy: Net Zero Energy Building (NZEB) -- Introduction -- Passive Design Strategies -- Sustainable Landscape -- Conceptual Architectural Design -- Sustainable Materials -- Active Design Strategies -- Results and Discussion -- Conclusion -- References -- Environmental Dimensions of Climate Change: Endurance and Change in Material Culture -- Background -- Definitions -- Design Decisions Based on Embodied Versus Operational Carbon -- The Profound Impact of the Envelope Is Anything But Skin-Deep -- Case Study: 888 Boylston Street -- Introduction -- Sustainable Features -- Envelope -- Operational Versus Embodied Energy -- Conclusion -- Case Study: CLT Passivhaus -- Introduction -- Sustainable Features -- Envelope -- Operational Versus Embodied Energy -- Conclusion -- Case Study: Golisano Institute for Sustainability -- Introduction -- Sustainable Features -- Envelope -- Operational Versus Embodied Energy -- Conclusion -- Case Study: Orlando McDonald's Flagship -- Introduction -- Sustainable Features -- Envelope -- Operational Versus Embodied Energy -- Conclusion -- Case Study: McDonald's Flagship, Chicago -- Introduction -- Sustainable Features -- Envelope -- Operational Versus Embodied Energy -- Conclusion -- Port of Portland Headquarters Building -- Introduction -- Sustainable Features -- Envelope -- Operational Versus Embodied Energy -- Conclusion -- References. | |
| Environmental Dimensions of Climate Change: Endurance and Change in Material Culture. | |
| Titolo autorizzato: | Towards net zero carbon emissions in the building industry |
| ISBN: | 9783031152184 |
| 9783031152177 | |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910624317403321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |
Serie:
Innovative Renewable Energy Ser.