Preface
Chapter 1 Introduction and Overview 1
The Shifting Landscape of Green Buildings
The Roots of Sustainable Construction
The Vocabulary of Sustainable Development and Sustainable Construction
Rationale for High-Performance Buildings
State and Local Green Building Initiatives
Green Building Progress and Obstacles
Trends in High-Performance Green Building
Book Organization
Case Study: Bloomberg European Headquarters
Summary and Conclusions
Part I Green Building Foundations
Chapter 2 Background
The Driving Forces for Sustainable Construction
Ethics and Sustainability
Basic Concepts and Vocabulary
Major Environmental and Resource Concerns
The Green Building Movement
Case Study: OWP 11, Stuttgart, Germany
Summary and Conclusions
Chapter 3 Ecological Design
Design Versus Ecological Design
Contemporary Ecological Design
Key Green Building Publications: Early 1990s
Key Thinking about Ecological Design
Evolving the Concept of Ecological Design
Thermodynamics: Limits on Recycling and the Dissipation of Materials
Case Study: Kroon Hall, Yale University, New Haven, Connecticut
Synthesis
Summary and Conclusions
Part II Assessing High-Performance Green Buildings
Chapter 4 Green Building Assessment
Purpose of Green Building Assessment Systems
Major Green Building Assessment Systems Used in the US
International Building Assessment Systems
Summary and Conclusions
Chapter 5 The US Green Building Council LEED Building Rating System
Brief History of LEED
Structure of the LEED Suite of Building Rating Systems
LEED Credentials
LEED v4.1 Structure and Process
Green Building Certification Institute Relationship to the USGBC and LEED
LEED Certification Process
LEED Building Design and Construction Rating System
Regional Priority
Case Study: Stephen C. O'Connell Center at UF in Gainesville, Florida
Summary and Conclusions
Chapter 6 The Green Globes Building Assessment System
Green Globes Building Rating Tools
Structure of Green Globes for New Construction
Section 1: Project Management
Section 2: Site
Section 3: Energy
Section 4: Water
Section 5: Materials
Section 6: Indoor Environment
Green Globes Assessment and Certification Process
Green Globes Professional Credentials
Case Study: Health Sciences Building, St. Johns River State College,
St. Augustine, Florida
Summary and Conclusions
Part III Green Building Design
Chapter 7 The Green Building Design Process
Conventional versus Green Building Delivery Systems
High-Performance Green Building Delivery System
Executing the Green Building Project
Owner Issues In High-Performance Green Building Projects
Setting Priorities And Making Other Key Initial Decisions
Selecting The Green Building Team
Role Of The Leed Accredited Professional Or Green Globes Professional In The Process
Integrated Design Process
Role of the Charrette in the Design Process
Green Building Documentation Requirements
LEED Documentation
Green Globes Documentation
Case Study: Theaterhaus, Stuttgart, Germany
Summary and Conclusions
Chapter 8 The Sustainable Site and Landscape
Land and Landscape Approaches for Green Buildings
Land Use Issues
Sustainable Landscapes
Green, or living, roofs
Vertical landscaping
Enhancing ecosystems
Enhancing Ecosystems
Stormwater Management
Low-Impact Development
Heat Island Mitigation
Light Trespass and Pollution Reduction
Assessment of Sustainable Sites: The Sustainable Sites Initiative
Case Study: Iowa Utilities Board/Consumer Advocate Office
Summary and Conclusions
Chapter 9 Low-Energy Building Strategies
Building Energy Issues
High-Performance Building Energy Design Strategies
HVAC Systems
Water-Heating Systems
Electrical Power System Components
Innovative Energy Optimization Strategies
Smart Buildings and Energy Management Systems (EMS)
Ozone Depleting Chemicals in HVAC Systems
Case Study: The Pertamina Energy Tower -- A Primer on Sustainable Skyscraper Design
Chapter 10 Built Environment Hydrologic Cycle
Global Water Resource Depletion
Hydrologic Cycle Terminology
Benefits of Water Efficiency
High-Performance Building Hydrologic Cycle Strategy
Building Plumbing Fixture and Controls
Nonportable Water Sources
Wastewater Strategies
Baseline Water Model Example
Use of Low-Flow Fixture Strategy
Use of Alternative Water Sources Strategy
Case Study: Lott Clean Water Alliance, Olympia, Washington
Blackwater Case Study: Blackwater Recycling System, Salesforce Tower, San Francisco
Summary and Conclusions
Chapter 11 Closing Materials Loops
The Challenge of Materials and Product Selection
Selecting Building Materials and Products with a Focus on A Closed-Loop Materials System
Life Cycle Assessment
Materials and Product Certification
Key and Emerging Construction Materials and Products
Case Study Of Closing The Loop: Ecoworx® Carpet Tiles
Design for Deconstruction and Disassembly
Case Study: Project XX Office Building, Delft, Netherlands
Summary and Conclusions
Chapter 12 Built Environment Carbon Footprint
Human Impact on the Biogeochemical Carbon Cycle
Climate Change and the Carbon Cycle
Climate Change Mitigating
Defining the Carbon Footprint of The Built Environment
Reducing the Carbon Footprint of the Built Environment
Focusing on Mitigating Project Climate Change Impact
Carbon Neutrality and Its Applicability to Buildings
Focusing on Mitigating Project Climate Change Impacts
Carbon Neutrality Case Study: The Hong Kong Zero Carbon Building
Carbon Neutrality Case Study: Glaxosmithkline Carbon Neutral Laboratory for Sustainable Chemistry (Nottingham, Uk)
Carbon Footprint Case Study: Rinker Hall, University of Florida
Chapter 13 Indoor Environmental Quality
Indoor Environmental Quality: The Issues
Integrated IEQ Design
Addressing the Main Components of Integrated IEQ Design
HVAC Systems and IEQ
Emissions from Building Materials
The WELL and FITWEL Building Standards
Summary and Conclusions
Part IV Green Building Implementation
Chapter 14 Construction Operations and Commissioning
Site Protection Planning
Managing Indoor Air Quality during Construction
Construction Materials Management
Construction and Demolition Waste Management
Commissioning
Summary and Conclusions
Chapter 15 Green Building Economics
General Approach
The Business Case for High-Performance Green Buildings
Economics of Green Building
Quantifying Green Building Benefits
Managing First Costs
Tunneling through the Cost Barrier
Summary and Conclusions
Chapter 16 Resilience Resilience in the Context of Sustainable Construction
Resilience Concepts and Scope
Codes and Standards for Built Environment Resilience
Designing Resilient Buildings
Green Building Assessment and Resilience 330 $a"The rapidly evolving and exponentially growing green building movement is arguably the most successful environmental movement in the United States today. Sustainable building has proven to yield substantial environmental and economic advantages. Green buildings are designed, built, and operated at a high level of energy and water efficiency, appropriate use of land and landscaping, use environmentally friendly materials, with special attention to life cycle. According to the World Green Building Trends 2018 SmartMarket Report by Dodge Data and Analytics in partnership with USGBC, a survey of over 2,000 participants from 87 countries, shows that global green building activity continues its ascent with almost half of total respondents expecting to build more than 60% of their projects as green buildings by 2021. More than half of respondents believe that rating systems such as LEED provide rigorous third-party verification that ensures buildings operate sustainably. The top triggers globally for green building activity are client demand, environmental regulation and occupant health"--$cProvided by publisher 606 $aSustainable construction 606 $aSustainable buildings$zUnited States$xDesign and construction 606 $aGreen technology$zUnited States 606 $aSustainable architecture 615 0$aSustainable construction. 615 0$aSustainable buildings$xDesign and construction. 615 0$aGreen technology 615 0$aSustainable architecture. 676 $a690.028/6 700 $aKibert$b Charles J.$01169399 801 0$bOCoLC-P 801 1$bOCoLC-P 906 $aBOOK 912 $a9911007039803321 996 $aSustainable construction$94119061 997 $aUNINA