Sustainable construction : green building design and delivery /
Saved in:
Author / Creator: | Kibert, Charles J., author. |
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Edition: | Fifth edition. |
Imprint: | Hoboken, NY : Wiley, [2022] ©2022 |
Description: | 1 online resource |
Language: | English |
Subject: | |
Format: | E-Resource Book |
URL for this record: | http://pi.lib.uchicago.edu/1001/cat/bib/13690573 |
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035 | 9 | |a (OCLCCM-CC)1258040994 | |
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020 | |a 9781119706441 |q (epub) | ||
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020 | |a 1119706467 | ||
020 | |z 9781119706458 |q (hardback) | ||
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050 | 0 | 0 | |a TH880 |
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100 | 1 | |a Kibert, Charles J., |e author. | |
245 | 1 | 0 | |a Sustainable construction : |b green building design and delivery / |c Charles J. Kibert. |
250 | |a Fifth edition. | ||
263 | |a 2111 | ||
264 | 1 | |a Hoboken, NY : |b Wiley, |c [2022] | |
264 | 4 | |c ©2022 | |
300 | |a 1 online resource | ||
336 | |a text |b txt |2 rdacontent | ||
337 | |a computer |b c |2 rdamedia | ||
338 | |a online resource |b cr |2 rdacarrier | ||
500 | |a Includes index. | ||
520 | |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"-- |c Provided by publisher | ||
588 | 0 | |a Print version record and CIP data provided by publisher; resource not viewed. | |
504 | |a Includes bibliographical references and index. | ||
505 | 0 | |a <P>Preface</p> <p>Chapter 1 Introduction and Overview 1</p> <p>The Shifting Landscape of Green Buildings</p> <p>The Roots of Sustainable Construction</p> <p>The Vocabulary of Sustainable Development and Sustainable Construction</p> <p>Rationale for High-Performance Buildings</p> <p>State and Local Green Building Initiatives</p> <p>Green Building Progress and Obstacles</p> <p>Trends in High-Performance Green Building</p> <p>Book Organization</p> <p>Case Study: Bloomberg European Headquarters</p> <p>Summary and Conclusions</p> <p>Part I Green Building Foundations </p> <p>Chapter 2 Background </p> <p>The Driving Forces for Sustainable Construction</p> <p>Ethics and Sustainability</p> <p>Basic Concepts and Vocabulary</p> <p>Major Environmental and Resource Concerns</p> <p>The Green Building Movement</p> <p>Case Study: OWP 11, Stuttgart, Germany</p> <p>Summary and Conclusions</p> <p>Chapter 3 Ecological Design </p> <p>Design Versus Ecological Design</p> <p>Contemporary Ecological Design</p> <p>Key Green Building Publications: Early 1990s</p> <p>Key Thinking about Ecological Design</p> <p>Evolving the Concept of Ecological Design</p> <p>Thermodynamics: Limits on Recycling and the Dissipation of Materials</p> <p>Case Study: Kroon Hall, Yale University, New Haven, Connecticut</p> <p>Synthesis</p> <p>Summary and Conclusions</p> <p>Part II Assessing High-Performance Green Buildings </p> <p>Chapter 4 Green Building Assessment </p> <p>Purpose of Green Building Assessment Systems</p> <p>Major Green Building Assessment Systems Used in the US</p> <p>International Building Assessment Systems</p> <p>Summary and Conclusions</p> <p>Chapter 5 The US Green Building Council LEED Building Rating System </p> <p>Brief History of LEED</p> <p>Structure of the LEED Suite of Building Rating Systems</p> <p>LEED Credentials</p> <p>LEED v4.1 Structure and Process</p> <p>Green Building Certification Institute Relationship to the USGBC and LEED</p> <p>LEED Certification Process</p> <p>LEED Building Design and Construction Rating System</p> <p>Regional Priority</p> <p>Case Study: Stephen C. O'Connell Center at UF in Gainesville, Florida</p> <p>Summary and Conclusions</p> <p>Chapter 6 The Green Globes Building Assessment System </p> <p>Green Globes Building Rating Tools</p> <p>Structure of Green Globes for New Construction</p> <p>Section 1: Project Management</p> <p>Section 2: Site</p> <p>Section 3: Energy</p> <p>Section 4: Water</p> <p>Section 5: Materials</p> <p>Section 6: Indoor Environment</p> <p>Green Globes Assessment and Certification Process</p> <p>Green Globes Professional Credentials</p> <p>Case Study: Health Sciences Building, St. Johns River State College,</p> <p>St. Augustine, Florida</p> <p>Summary and Conclusions</p> <p>Part III Green Building Design </p> <p>Chapter 7 The Green Building Design Process </p> <p>Conventional versus Green Building Delivery Systems</p> <p>High-Performance Green Building Delivery System</p> <p>Executing the Green Building Project</p> <p>Owner Issues In High-Performance Green Building Projects</p> <p>Setting Priorities And Making Other Key Initial Decisions</p> <p>Selecting The Green Building Team</p> <p>Role Of The Leed Accredited Professional Or Green Globes Professional In The Process</p> <p>Integrated Design Process</p> <p> Role of the Charrette in the Design Process</p> <p>Green Building Documentation Requirements</p> <p>LEED Documentation</p> <p>Green Globes Documentation</p> <p>Case Study: Theaterhaus, Stuttgart, Germany</p> <p>Summary and Conclusions</p> <p>Chapter 8 The Sustainable Site and Landscape </p> <p>Land and Landscape Approaches for Green Buildings</p> <p>Land Use Issues</p> <p>Sustainable Landscapes</p> <p>Green, or living, roofs</p> <p>Vertical landscaping</p> <p>Enhancing ecosystems</p> <p>Enhancing Ecosystems</p> <p>Stormwater Management</p> <p>Low-Impact Development</p> <p>Heat Island Mitigation</p> <p>Light Trespass and Pollution Reduction</p> <p>Assessment of Sustainable Sites: The Sustainable Sites Initiative</p> <p>Case Study: Iowa Utilities Board/Consumer Advocate Office</p> <p>Summary and Conclusions</p> <p>Chapter 9 Low-Energy Building Strategies </p> <p>Building Energy Issues</p> <p>High-Performance Building Energy Design Strategies</p> <p>HVAC Systems</p> <p>Water-Heating Systems</p> <p>Electrical Power System Components</p> <p>Innovative Energy Optimization Strategies</p> <p>Smart Buildings and Energy Management Systems (EMS)</p> <p>Ozone Depleting Chemicals in HVAC Systems</p> <p>Case Study: The Pertamina Energy Tower -- A Primer on Sustainable Skyscraper Design</p> <p>Chapter 10 Built Environment Hydrologic Cycle </p> <p>Global Water Resource Depletion</p> <p>Hydrologic Cycle Terminology</p> <p>Benefits of Water Efficiency</p> <p>High-Performance Building Hydrologic Cycle Strategy</p> <p>Building Plumbing Fixture and Controls</p> <p>Nonportable Water Sources</p> <p>Wastewater Strategies</p> <p>Baseline Water Model Example</p> <p>Use of Low-Flow Fixture Strategy</p> <p>Use of Alternative Water Sources Strategy</p> <p>Case Study: Lott Clean Water Alliance, Olympia, Washington</p> <p>Blackwater Case Study: Blackwater Recycling System, Salesforce Tower, San Francisco</p> <p>Summary and Conclusions</p> <p>Chapter 11 Closing Materials Loops </p> <p>The Challenge of Materials and Product Selection</p> <p>Selecting Building Materials and Products with a Focus on A Closed-Loop Materials System</p> <p>Life Cycle Assessment</p> <p>Materials and Product Certification</p> <p>Key and Emerging Construction Materials and Products</p> <p>Case Study Of Closing The Loop: Ecoworx® Carpet Tiles</p> <p>Design for Deconstruction and Disassembly</p> <p>Case Study: Project XX Office Building, Delft, Netherlands</p> <p>Summary and Conclusions</p> <p>Chapter 12 Built Environment Carbon Footprint </p> <p>Human Impact on the Biogeochemical Carbon Cycle</p> <p>Climate Change and the Carbon Cycle</p> <p>Climate Change Mitigating</p> <p>Defining the Carbon Footprint of The Built Environment</p> <p>Reducing the Carbon Footprint of the Built Environment</p> <p>Focusing on Mitigating Project Climate Change Impact</p> <p>Carbon Neutrality and Its Applicability to Buildings</p> <p>Focusing on Mitigating Project Climate Change Impacts</p> <p>Carbon Neutrality Case Study: The Hong Kong Zero Carbon Building</p> <p>Carbon Neutrality Case Study: Glaxosmithkline Carbon Neutral Laboratory for Sustainable Chemistry (Nottingham, Uk)</p> <p>Carbon Footprint Case Study: Rinker Hall, University of Florida </p> <p>Chapter 13 Indoor Environmental Quality </p> <p>Indoor Environmental Quality: The Issues</p> <p>Integrated IEQ Design</p> <p>Addressing the Main Components of Integrated IEQ Design</p> <p>HVAC Systems and IEQ</p> <p>Emissions from Building Materials</p> <p>The WELL and FITWEL Building Standards</p> <p>Summary and Conclusions</p> <p>Part IV Green Building Implementation </p> <p>Chapter 14 Construction Operations and Commissioning</p> <p>Site Protection Planning</p> <p>Managing Indoor Air Quality during Construction</p> <p>Construction Materials Management</p> <p>Construction and Demolition Waste Management</p> <p>Commissioning</p> <p>Summary and Conclusions</p> <p>Chapter 15 Green Building Economics </p> <p>General Approach</p> <p>The Business Case for High-Performance Green Buildings</p> <p>Economics of Green Building</p> <p>Quantifying Green Building Benefits</p> <p>Managing First Costs</p> <p>Tunneling through the Cost Barrier</p> <p>Summary and Conclusions</p> <p>Chapter 16 Resilience Resilience in the Context of Sustainable Construction</p> <p>Resilience Concepts and Scope</p> <p>Codes and Standards for Built Environment Resilience</p> <p>Designing Resilient Buildings</p> <p>Green Building Assessment and Resilience | |
650 | 0 | |a Sustainable construction. |0 http://id.loc.gov/authorities/subjects/sh2009003365 | |
650 | 0 | |a Sustainable buildings |z United States |x Design and construction. | |
650 | 0 | |a Green technology |z United States. | |
650 | 0 | |a Sustainable architecture. |0 http://id.loc.gov/authorities/subjects/sh00004838 | |
650 | 6 | |a Construction durable. | |
650 | 6 | |a Technologie de protection de l'environnement |z États-Unis. | |
650 | 6 | |a Architecture durable. | |
650 | 7 | |a Green technology. |2 fast |0 (OCoLC)fst00947645 | |
650 | 7 | |a Sustainable architecture. |2 fast |0 (OCoLC)fst01139728 | |
650 | 7 | |a Sustainable buildings |x Design and construction. |2 fast |0 (OCoLC)fst01139730 | |
650 | 7 | |a Sustainable construction. |2 fast |0 (OCoLC)fst01747883 | |
651 | 7 | |a United States. |2 fast |0 (OCoLC)fst01204155 | |
758 | |i has work: |a Sustainable construction (Text) |1 https://id.oclc.org/worldcat/entity/E39PCGjTHJH6V68xHFcqQDHCpP |4 https://id.oclc.org/worldcat/ontology/hasWork | ||
776 | 0 | 8 | |i Print version: |a Kibert, Charles J. |t Sustainable construction. |b Fifth edition. |d Hoboken, NY : Wiley, [2021] |z 9781119706458 |w (DLC) 2021031014 |
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