NCEF Resource List: High Performance Green Colleges and Universities

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References to Books and Other Media - 41

References to Journal Articles - 93 (6 new citations)

Related Websites - 14

Related NCEF Resource Lists - 5

HIGH PERFORMANCE GREEN COLLEGES AND UNIVERSITIES

NCEF's resource list of links, books, and journal articles on high performance college and university facilities, including sustainability and green design issues, cost and funding concerns, and educational and community benefits.

References to Books and Other Media

Show/Hide Abstracts

Campus Sustainability Report.
https://www.indiana.edu/~sustain/sustainabilityiu/report/
(Indiana University, Bloomington , Jan 07, 2008)

Summarizes the efforts of the Indiana University Task Force on Campus Sustainability to develop a comprehensive program in sustainability for the IU Bloomington campus. The report addresses energy use, land use, recycling, transportation, and the built environment. 122p.

Estimating the Carbon Footprint of Schools.
http://www.chps.net/manual/climate/CharlesEleyEstimatingCarbonFootprint.pdf
Eley, Charles
(Collaborative for High Performance Schools, San Francisco, CA , 2008)

Explains typical sources and amounts of carbon generated by school construction, use, and transportation. Ways to minimize direct energy and water use are suggested. 19p.

The Green Campus: Meeting the Challenge of Environmental Sustainability.
Simpson, Walter, ed.
(APPA, Alexandria, VA , 2008)

Explores the meaning of genuine environmental sustainability, while profiling notable campus environmental programs. This anthology consists of 29 essays from campus environmental leaders that address energy conservation, on-site solar and renewable energy development, power purchasing, building design, environmentally friendly purchasing, rechling ans waste reduction, "green" cleaning, sustainable landscaping and transportation practices, and evaluation of campus environmental programs. 372p.

ISBN-1-890956-46-5
TO ORDER: 1643 Prince Street; Alexandria, VA; 22314-2818; Tel: 703-684-1446
http://www.appa.org

Green Buildings Research White Paper.
http://www.bdcnetwork.com/contents/pdfs/BDC_07_WhitePaper.pdf?nid=2073
(Building Design & Construction, Reed Business Information, Oak Brook, IL , Oct 2007)

Covers "green" building awareness and practice across a variety of building types, with two specific chapters for higher education and K-12 education, respectively. These chapters interpret survey data reflecting awareness, implementation, willingness to pay for, and benefits of environmentally conscious buildings. In all categories, positive percentages from higher education were somewhat ahead of K-12. 60p.

State of Minnesota Sustainable Building Guidelines.
http://www.msbg.umn.edu/downloads_v2_0/guidelines.pdf
(University of Minnesota, Center for Sustainable Building Research, Minneapolis , Jul 01, 2007)

Assists with creating high performance structures for Minnesota, as required by the state legislature. The guidelines are organized into the following categories: performance management, site and water, energy and atmosphere, indoor environmental quality, and materials and waste. The guidelines are required when they clearly contribute to the desired human, community, environmental, and life-cycle economic outcomes. Some guidelines are recommended rather than required until their direct financial benefits to the State can be clearly demonstrated. 80p.

The Cost of Green Revisited.
http://www.davislangdon.com/upload/images/publications/USA
(Davis Langdon U.S. , Jul 2007)

Considers the cost of incorporating sustainable design features into projects, building on the work undertaken in the earlier paper "Costing Green: A Comprehensive Cost Database and Budget Methodology" (2004). This 2006 report looks at developments that have occurred over the past three years, as sustainable design has become more widely accepted and used. The report indicates no significant difference in average costs for green buildings as compared to non- green buildings. In many areas of the country, the contracting community has embraced sustainable design, and no longer sees sustainable design requirements as additional burdens to be priced in their bids. Data from this study shows that many projects are achieving certification through pursuit of the same lower cost strategies, and that more advanced, or more expensive strategies are often avoided. Most notably, few projects attempt to reach higher levels of energy reduction beyond what is required by local ordinances, or beyond what can be achieved with a minimum of cost impact. 25p.

College Sustainability Report Card: A Review of Campus & Endowment Policies at Leading Institutions, 2007.
http://www.endowmentinstitute.org/sustainability/CollegeSustainabilityReportCard.pdf
(Sustainable Endowments Institute, Cambridge, MA , 2007)

Reports on the policies and programs of the 100 leading colleges and universities (by endowment size), rating for them for sustainable practices regarding administration, climate change and energy, food and recycling, "green" building, endowment transparency, investment priorities, and shareholder engagement. A report for each institution assigns a grade from A-F in each category, and then averages them for an overall grade. 120p.

College Sustainability Report Card: A Review of Campus & Endowment Policies at Leading Institutions, 2008.
http://www.endowmentinstitute.org/sustainability
(Sustainable Endowments Institute, Cambridge, MA , 2007)

Reports on sustainability practices among North Americas 200 largest-endowed higher education institutions, revealing that 68 percent of the institutions surveyed improved their overall grade. Among the environmentally responsible steps colleges are taking are committing to cut carbon emissions, adopting green standards for design and construction, using hybrid or electric vehicles in their transportation fleets, producing their own wind or solar energy, and buying food from local farms. The grades earned encompass eight categories: administration, climate change and energy, food and recycling, green building, transportation, endowment transparency, investment priorities, and shareholder engagement. 37 percent of the institutions have staff dedicated to sustainability issues, 22 percent have established an office of sustainability, and 68 percent have a committee composed of multiple stakeholders that advises campus administrators on sustainability issues. 235p.

Core Performance Guide.
(New Buildings Institute, White Salmon, WA, 2007)

Advises on how to deliver best-in-class energy efficiency and indoor environmental quality in high-performance buildings. The book brings together over 30 criteria defining high performance in building envelope, lighting, HVAC, power systems and controls. It provides quantitative and descriptive specifications for exceeding state and national minimum standards such as ASHRAE/IESNA Standard 90.1-2001. 127

ISBN-978097429691
TO ORDER: Powell's Books, Tel: 503-228-4651, Toll Free: 800-878-7323
http://www.powells.com

Education Green Building SmartMarket Report.
(McGraw-Hill Construction, New York, NY , 2007)

Details construction market research into green building in the education construction sector. The research that the education sector is the fastest-growing market for green building. The study also found that: 1) The concern for "improved health and well-being" was the most critical social reason for driving education green building. 2) Fiscal advantages of green building, such as energy cost savings, are the major motivation behind the construction of green schools and universities. 3) Higher first costs are the primary challenge to building green in this sector. 4) Operational cost decreases resulting from green building are the most important trigger to faster adoption of green school building. 5) There is a strong need for access to and information on green building products, particularly those relating to improving health, such as reducing mold and indoor air pollutants. 6) The industry is calling for independent, third-party standards for green building products. Case studies of the "greening" of two K-12 schools and one university are included. 36p.

TO ORDER: McGraw-Hill Construction Research & Analytics, 24 Hartwell Ave., Lexington, MA 02421; Tel: 800-591-4462
http://construction.ecnext.com/coms2/summary_0249-229622_ITM_analytics

Green Buildings and the Bottom Line.
http://www.bdcnetwork.com/article/CA6390371.html
(Reed Business Information, Oak Brook, IL , Nov 2006)

Examines financial considerations of "green" building across many building types, with one chapter each devoted to the practice in higher and K-12 education. Current attention to and financial advantages of green building in education are considered, as are obstacles and ways to overcome them. 62p.

The McPhail Center for Environmental Studies. Barney Memorial Hall Renovation.
http://www.denison.edu/enviro/barney/
(Denison University, Granville, OH, Aug 2006)

The Barney renovation project produced a statement building: a place where environmental principles are upheld and demonstrated to the community. The project promotes sustainability, uses renewable energy sources, reduces toxins, recycles wastes, and will continue to be used as a working laboratory for education and research. This includes highlights of the renovation, a green features tour, and ecological design links.

Adam Joseph Lewis Center for Environmental Studies. Building Systems.
http://www.oberlin.edu/ajlc/systems_home_1.html
(Oberlin College, Oberlin, OH, 2006)

Located on the campus of Oberlin College, Oberlin, Ohio, this building is designed to be a laboratory that showcases environmentally efficient building technologies, operating systems, and sustainable building techniques. Includes extensive information on the building's energy; heating, cooling, and air quality; landscaping; living machine and water use; weather conditions; and materials.

Green Buildings. Campus Structures That are Championing Sustainability and Winning Awards.
http://www.sustain.ubc.ca/greenbuilding.html
(University of British Columbia. Vancouver, 2006)

Since 1992, the University of British Columbia has sought to incorporate green design in its new building projects. Describes the C. K. Choi Building for the Institute of Asian Research, the Liu Centre for the Study of Global Issues, Aquatic Ecosystems Research Laboratory, ICICS/Computer Science Building, Irving K. Barber Learning Centre, and sustainability targets and energy conservation for low-rise residential buildings.

Greening-of-Dana Project [University of Michigan]
http://www.snre.umich.edu/greendana/
(School of Natural Resources and Environment, University of Michigan. , 2006)

The "Greening of Dana" was a $25 million dollar renovation that resulted in a building that makes a statement - a building where environmental principles are not only taught, but upheld and demonstrated to the community. The project promoted sustainability, reduced negative health impacts and now the building serves as a laboratory and educational center for ecological themes. The renovated S.T. Dana Building balances two critical facets: the building is a comfortable place to learn and work, and it simultaneously demonstrates state-of-the-art environmentally conscious design. This building teaches environmental sensitivity, respect, and awareness through its design and resource management.

McLean Environmental Living and Learning Center. Northland College, Ashland, Wisconsin.
http://www.designshare.com/index.php/projects/mclean-environmental-center
(DesignShare, 2006)

This two-story student housing complex is used in the college's curriculum to teach about energy performance, green materials, building lifecycles and sustainability. Computers monitor the building's renewable systems: passive solar south wing; a 20-kilowatt wind turbine, a solar domestic hot water system, and three photovoltaic panels. Students were involved throughout the design process. Other features include: high efficiency gas boilers and light fixtures; operable windows instead of air conditioning; heat recovery ventilation; low-flow showers and toilet fixtures; composting toilets; low VOC finishes to ensured exceptional indoor air quality; high recycled content products; bio-composite counter surfaces; and regionally harvested wood.

The "GIST" of Campus Sustainability Planning: Gain Impact. Save Time.
http://www.greenbuildconsult.com/images/uploads/GIST.pdf
(Yudelson Associates, Tuscon, AZ , 2006)

Describes nine steps in three stages toward creating a sustainable campus. The series focuses on outcomes rather than inputs (programs, budgets, staffing, etc.), shifting the emphasis to first setting goals, building coalitions, and other foundational activities, then to results. 8p.

Design on the Edge: The Making of a High-Performance Building.
Orr, David
(MIT Press, Cambridge, MA , Jan 2006)

Profiles Oberlin College's Adam Joseph Lewis Center, the United States' first substantially green higher education facility. The building is powered entirely by solar energy, features landscaping with fruit trees and vegetable gardens, and processes all wastewater for reuse in the building or landscape. The author puts the Lewis Center into historical design context and describes the obstacles and successes he encountered in obtaining funding and college approval, interweaving the particulars of the center with thoughts on the larger issues the building process illustrates. 272p.

ISBN-0-262-15117-0
TO ORDER: http://mitpress.mit.edu/main/home/default.asp

An Assessment of Green Design in an Existing Higher Education Classroom: a Case Study.
http://www.ibe.colostate.edu/projects/theses/lilyblade_thesis.doc
Lilyblade, Annie
(Colorado State Unviversity, Fort Collins , Fall 2005)

Presents a case study assessing the quality of a classroom remodel in a higher education institution. Both the teaching and learning environments as well as the level of green design integration were assessed. The methodology involved five steps of data collection including an existing pre-design survey, interviewing five members of the initial design team, interviewing two faculty members, a post-design survey, and an assessment of the level of sustainability utilizing the LEED-CI (Commercial Interiors) rating system. Results from the data collected demonstrated end-users satisfaction as well as that the classrooms meet the criteria of a sustainable classroom. The project results now teach others how to provide sustainable sites, increase water efficiency, improve overall energy performance, and how to use of sustainable materials and resources. Furthermore, these findings show how to decrease construction waste, create a healthy indoor environment, and how to create an optimal teaching and learning environment. Includes 13 references. 39p.

Greening of Campus Dining
http://www.nacufs.org/i4a/pages/Index.cfm?pageID=4416
Boss, Donna
(National Association of College & University Food Services, Jul 2005)

This describes how college and university food service facilities can be designed to be more green by focusing on HVAC systems, water conservation, energy efficiencies, lifecycle metrics, and recyclables.

Creating a Culture of Sustainability: How Campuses Are Taking the Lead.
http://www.hermanmiller.com/hm/content/research_summaries/wp_Campus_Sustain.pdf
(Herman Miller, Inc., Zeeland, MI , 2005)

Discusses higher education's leadership in sustainability through curriculum decisions, operations budgets, facility plans, and campus culture. Measurable, positive impact of these efforts is described, as are outreach efforts beyond the campus. Includes 62 references. 9p.

LEED for New Construction and Major Renovations (LEED-NC).
(U.S. Green Building Council, 2005)

This is a green building rating system that was designed to guide and distinguish high-performance commercial and institutional projects, with a focus on office buildings. Practitioners have also applied the system to K-12 schools, multi-unit residential buildings, manufacturing plants, laboratories and many other building types. Includes a Reference Guide that is a 328-page manual that provides detailed information, resources and standards for the credits covered in the LEED Green Building Rating System. It is intended to help aspiring projects understand the benefits of compliance and apply the criteria.

TO ORDER: U.S. Green Building Council
http://www.usgbc.org/DisplayPage.aspx?CMSPageID=174

Labs21 Design Process Manual.
http://web.archive.org/web/20051221100807/
(U.S. Department of Energy; U.S. Environmental Protection Agency, 2004)

Provides guidance on the design process for high performance laboratories, leveraging the Labs21 tools. It includes the following: 1) The Design Process Checklist specifically lists process-related action items for each stage of the building design and delivery process, with links to relevant Labs21 tools for each action item. 2) The Sustainable Strategies Checklist is a “quick-reference” list of sustainable design strategies, categorized by area of environmental impact (i.e., energy, water, materials, etc), with links to detailed information for each strategy.

UB High Performance Building Guidelines.
http://wings.buffalo.edu/ubgreen/leos/ubhpguidelines.pdf
(University at Buffalo, NY , 2004)

Presents a set of building guidelines for University of Buffalo buildings that promote environmentally sensitive design and construction. The guidelines were created in response to an New York executive order mandating "green" buildings. They set out the rationale for building high performance facilities and the processes for integrating the guidelines with codes, standards, and other documents; provide technical strategies for design, landscaping, and building systems; and guidance in construction administration and building commissioning. 119p.

Sustainability on Campus: Stories and Strategies for Change.
Barlett, Peggy; Chase, Geoffrey
(MIT Press, Cambridge, MA , 2004)

Presents personal narratives of college campus "greening," written by faculty, staff, administrators, and students. Reports from institutions ranging from two-year community colleges to famous universities tell of environmental stewardship on campus, curriculum changes, green building design, and working with local communities. 327p.

ISBN-0-262-02560-4
TO ORDER: http://mitpress.mit.edu/main/home/default.asp

ASHRAE GreenGuide.
Grumman, David L., ed.
(ASHRAE, Atlanta, GA , Dec 2003)

Provides reference and guidance to HVAC system designers involved in green or sustainable building design. The Green Guide is a step-by-step manual for the entire building lifecycle, from the earliest stages of a green building design project to the resulting structure’s construction, operation, maintenance, and eventual demolition. It is divided into three sections entitled "Basics," "The Design Process," "Post-Design -- Construction to Demolition," and includes green design techniques applicable to related technical disciplines, such as plumbing and lighting. It addresses how mechanical and electrical systems may interact with and be influenced by architectural design,architectural design impacts, conceptual engineering design, space thermal/comfort delivery systems, energy distribution systems, energy conservation systems, energy/water sources, lighting systems, plumbing and fire protection systems and controls. Includes case studies, checklists, and specific measures for improving sustainability called "Green Tips." 190p.

ISBN-1931862419
TO ORDER: ASHRAE, 1791 Tullie Circle NE, Atlanta, GA 30329. Tel:800-527-4723.
http://www.ashrae.org

Carbon Neutrality at Middlebury College: A Compilation of Potential Objectives and Strategies to Minimize Campus Climate Impact.
http://community.middlebury.edu/~cneutral/es010_report.pdf
(Middlebury College, Middlebury, VT , Jun 19, 2003)

Presents the results of a course which sought to help reduce the institution's carbon dioxide emissions. The recommendations focus on strategies which are feasible within the constraints of the institute's operations, produce the greatest net reduction in campus carbon dioxide equivalent (CDE) emissions, or have the greatest long-term potential for significant mitigation of campus climate impact. Combinations of strategies described in the document could bring the campus to a net CDE emission of zero. The areas investigated by the class were space heating and cooling, electricity, transportation, solid waste, and sequestration of CDE emissions. 194p.

The Energy Smart Guide to Campus Cost Savings.
http://www.eric.ed.gov/contentdelivery/
(Department of Energy, Office of Energy Efficiency and Renewable Energy, Washington, DC. , Jun 2003)

Rebuild America is a program of the U.S. Department of Energy that focuses on energy-savings solutions as community solutions. This guide focuses on colleges and universities. Each chapter spells out options and provides guidance for implementing projects that can save substantial energy and money. Information is taken from successful projects implemented nationwide. Each section ends with case studies that provide examples of how the nation's colleges and universities are realizing energy savings. Four sections focus on: (1) "Project Financing" (e.g., financing options and common financial misconceptions); (2) "Clean Fuel Fleets" (e.g., biodiesel and ethanol); (3) "Combined Heat and Power" (e.g., system components and system integration and sizing options); and (4) "Emissions Markets" (e.g., air pollution and climate change programs and opportunities for colleges and universities to participate in air pollution markets). 55p.

ERIC NO: ED480550;

Building Momentum: National Trends and Prospects for High Performance Green Buildings.
http://www.usgbc.org/docs/resources/043003_hpgb_whitepaper.pdf
(U.S. Green Building Council, Washington, DC. , Feb 2003)

This report demonstrates the economic and environmental viability of building high-performance "green" buildings. This report is an outgrowth of the Green Building Roundtable of the U.S. Senate Committee on Environment and Public Works held in conjunction with the U.S. Green Building Council on April 24, 2002. The roundtable brought together diverse interests to educate members of Congress on green building trends and generated discussion about the economic and health benefits of green building, the barriers facing its progress, and the opportunities available to federal agencies to further promote sustainable spaces. These issues are described in the report. Sections of the report also address the role of green building in schools' environmental quality and offer recommendations to improve school environments. 21p.

Environmentally Responsible Design of W. Duncan MacMillan Hall, Brown University.[Providence, Rhode Island]
http://www.brown.edu/Departments/Brown_Is_Green/reports/ncf_macm.htm#burke
Pleasant, Andrew
(Brown University, Providence, RI, 2003)

This new building houses teaching, laboratory space, and research facilities as well as a large classroom and lecture hall, and features a series of energy efficient measures. Described are lessons learned from other campuses, the comprehensive design approach that was taken, the use of building commissioning, window choice and placement in design, the laboratory ventilation system, and what was considered but not adopted.

Bellevue Community College R Building [Washington]
http://oikos.com/library/showcase/bellevue/
(Oikos Green Building Source, 2002)

Describes an environmentally-friendly classroom building on the campus of Bellevue Community College in Washington that includes waterless urinals, a geothermal heating and cooling system, and other green innovations.

Intelligent Skins.
Wigginton, Michale; Harris, Jude
(Butterworth Architectural Press, 2002)

This introduces a new approach to Intelligent Buildings. The prime objective is to control internal environments through a responsive building fabric rather than by energy conserving building services systems. The authors examine the potential for integral intelligence within the fabric of the building and explore the evolution of information technology and smart materials which have allowed a whole new category of design principles to be created. Includes international case studies. 184 p.

ISBN-0750648473

State of the Campus Environment: A National Report Card on Environmental Performance and Sustainability in Higher Education.
http://www.nwf.org/campusecology/html/stateofthecampusreport.cfm
McIntosh, Mary; Cacciola, Kathleen; Clremont, Stephen; Keniry, Julian
(National Wildlife Federation, Reston, VA , 2001)

Presents the results of a national survey of environmental initiatives at U.S. institutions of higher learning. The survey generated 1,116 responses from presidents, provosts, and chiefs of administration and operations at 891 of the nation's 4,100 colleges and universities (almost 22 percent of schools). Separate modules were designed for management practices, curriculum, and operations, and were completed by 471 presidents, 320 provosts, and 325 facilities chiefs. A simple grading system was utilized based on the percentage of campuses with particular activities in place. Advice on benchmarking and assessment, with criteria for exemplary schools is included. 145p.

Campus Demonstration Sites for Sustainable Systems and Design: Five "Creation" Stories.
http://www.eric.ed.gov/contentdelivery
Jack, Kathy; Ihara, Dan, Ed.
(Humboldt State University, Campus Center for Appropriate Technology, Arcata, CA , Oct 2000)

This paper provides a summary of the development and management of five campus demonstration sites designed to create harmony with natural systems and meet current student needs without compromising the needs of future generations. Information for each campus includes an overview of the site, project origins, the proposal and design process, the politics involved, construction, site management and student involvement, and the design's impact and future goals. A table lists the key elements from each site including site size, capacity, heating and power, water source, wastewater disposal, food production, building materials, and student involvement in design. (Contains 31 references.) 19p.

ERIC NO: ED453645 ;

The Greening of Bren Hall: Donald Bren School of Environmental Science & Management.
http://www.esm.ucsb.edu/about/GreenBren.pdf
(University of California, Santa Barbara , Oct 1999)

Describes the sustainable design program of this University of California Santa Barbara academic facility, making it the "greenest" building on the UCSB campus by a wide margin. The design includes features such as natural light harvesting, offices ventilated by ocean breezes, energy efficient lighting with sophisticated motion and ambient light sensors, energy-efficient laboratory ventilation, building materials from recycled or sustainably harvested materials, construction site recycling and reuse, native landscaping for shade, and irrigation by reclaimed water for irrigation. The school is partnering with Southern California Edison (SCE) to make the building a living laboratory and environmental showcase facility to demonstrate cost effective, energy efficient technologies and operations. 76p.

The Metering Guide for Managers
Qayoumi, Mohammed H.
(APPA: Association of Higher Education Facilities Officers, Alexandria, VA , 1999)

This volume provides a guide to management of utilities metering in educational facilities, especially colleges and universities. Chapter 1 gives an overview of why utility measurement, specifically the metering of energy consumption, is important in facilities management. Chapter 2 defines the basic units of measurement for both electric and nonelectric energy, defines the common multipliers that describe the magnitude of a measurement, and discusses basic utility rate structures and their impact on energy costs. Chapter 3 considers the fundamental elements and components of utility metering how alternative current is measured, common types of analog metering, present-day digital technology, and performance metering. Chapter 4 describes metering products that are currently available, such as nonintrusive appliance-load monitoring systems, electric metering networks, and main electric meters. Chapter 5 discusses management aspects of the role of metering in a deregulated environment, including strategies to reduce electric energy costs, energy management plans, and meter specifications and installation. 93p.

ERIC NO: ED435277 ;
TO ORDER: Association of Higher Education Facilities Officers, 1643 Prince St., Alexandria, VA 22314-2818
http://www.appa.org

Commonwealth of Pennsylvania High-Performance Green Building Guidelines.
http://www.gggc.state.pa.us/gggc/cwp/view.asp?a=3&q=151854
Kobet, Bob; Powers, Wendy; Lee, Stephen
(Pennsylvania Department of Environmental Protection, Harrisburg, PA, 1999)

Intended to familiarize decision-makers and others involved in the design, construction, and development of communities and buildings with the concept of sustainability. Describes green design systems and the green design process, then details twelve case studies, including college buildings. Provides extensive references and resources. 60p.

Natural Ventilation in Buildings - A Design Handbook
Allard, Francis; Santamouris, Mat
(James & James Science Publishers Ltd , 1998)

This new handbook describes the real potential of natural ventilation, its appropriate use, the design and dimensioning methodologies, the need for an integrated design approach, and how to overcome barriers. Includes a CD with software to assist in the calculation of airflow rate in natural ventilation configurations. This book is based on the work of 25 experts from all parts of Europe who have collected, evaluated, and developed the material under the auspices of the European Commission's Solar energy and Energy Conservation R&D programs. This books provides essential design information for all architects, building engineers, and other building design professionals. 368p.

ISBN: 1873936729

Green Investment, Green Return: How Practical Conservation Projects Save Millions on America's Campuses.
Eagan, David; Keniry, Julian
(National Wildlife Federation, Reston, VA , 1998)

Highlights 23 cost-saving conservation initiatives at 15 public and private postsecondary institutions across the United States. Savings per project ranged from little more than $1,000 to $9 million, and the total savings across the 23 projects were $16.8 million, which represents an average of $728,500 per campus. The projects address issues of transportation, energy and water conservation, materials re-use and redistribution, composting, recycling, and management of hazardous chemicals. 77p.

TO ORDER: National Wildlife Federation, 11100 Wildlife Center Drive. Reston, VA 20190-5362; Tel: 800-822-9919
https://m1.buysub.com/webapp/wcs/stores/servlet/CategoryDisplay

The Sustainable Building Technical Manual: Green Building Design, Construction, and Operations
http://smartcommunities.ncat.org/pdf/sbt.pdf
(U.S. Department of Energy, Center of Excellence for Sustainable Development, Golden, CO, 1996)

Manual to help architects, developers, building owners, government officials, and others implement sustainable development practices. Practical, step-by-step advice on sustainable buildings written by some of the foremost experts in the field. Among the issues the book addresses are the economics of green building; pre-design strategies; passive solar design; heating, ventilation, and air-conditioning systems; electricity; plumbing; indoor air quality; acoustics; selection of building and landscaping materials; and housekeeping. 292p.

Campus Ecology: A Guide to Assessing Environmental Quality and Creating Strategies for Change.
Smith, April
(Living Planet Press, Venice, CA , 1993)

Uses the campus as a laboratory for the study of resource flows and for the implementation of environmentally sound alternatives. Analytical abilities and practical skills students will need to address ecological challenges and solve real problems that are embedded in organizations whose decisions shape our lives and environment are introduced. Sections include: "Wastes and Hazards" including solid waste, hazardous substances, radioactive waste, medical waste, wastewater and storm runoff, pest control, air quality, and the workplace environment; "Resources and Infrastructure" including water, energy, food, procurement policies, transportation, and campus design and growth; "The Business of Education" including research activities, investment policies, business ties, environmental education and literacy, and job placement and environmental careers; and "Taking Action" including creating strategies for change and working for environmental justice. 153p.

TO ORDER: National Wildlife Federation, 11100 Wildlife Center Drive. Reston, VA 20190-5362; Tel: 800-822-9919
https://m1.buysub.com/webapp/wcs/stores/servlet/CategoryDisplay

Show/Hide Abstracts

An Uncommon Cottage.
Carlson, Scott
The Chronicle of Higher Education; v54 n32 , pA12,A13 ; Jul 2008

Profiles a showcase home built at Furman University, built as a model of sustainability. After serving a tourist attraction for a year, the home will be converted for study of how the materials perform over time. Conflicts with manufacturers over the "greenness" of their products and compromises made in its design and construction are discussed.

Education for Sustainability in Further and Higher Education.
http://www1.scup.org/PHE/FMPro?-db=PubData.fp5&-lay=ART&-format=read_inner.ht m&-error=error.htm&ID=PUB-kS8ISc8DwXPXS58Oe&-Find
Tilbury, Daniella; Wortman, David
Planning for Higher Education; v36 n4 , p5-16 ; Jul 2008

Discusses international efforts at improving higher education campus sustainability. Then, citing Australian examples, the authors describe planning for campus greening, learning for sustainability, institutional learning, and competency-based training initiatives. Includes 81 references.

Sustainable Outdoor Lighting.
Preston, George
The Construction Specifier; v 61 n6 , p102-109 ; Jun 2008

Details elements of sustainable outdoor lighting, including efficient sources of light, energy-effective light application, and environmentally responsible suppliers. Types of bulbs, price comparisons, proper focus of the illumination, and items to check when evaluating a supplier are addressed.

Simple Strategies.
http://asumag.com/green/university_simple_strategies_2/
Stevens, Tod
American School and University; v80 n11 , p23-26 ; Jun 2008

Briefly reviews the current popularity of "green" building and highlights simple and inexpensive lighting, roofing, and materials choices for sustainable building.

Greening Athletics: Beyond the Playing Field.
http://www.peterli.com/cpm/resources/articles/archive.php?article_id=1840
Graham, Stephanie
College Planning and Management; v11 n5 , pA8,A10,A12 ; May 2008

Discusses the trend toward "green" design, construction, and operation of higher education athletic facilities. Examples from three institutions are provided, with descriptions that include site selection, indoor air, materials, photovoltaics, and lighting.

Can Neighborhood Electric Vehicles Help Your Campus Go Green?
http://www.campussafetymagazine.com/Articles/?ArticleID=167
Guardabascio, Mike; Brown, Chris.
Campus Safety; v16 n3 , p24-26,28-30 ; May-Jun 2008

Discusses the types, advantages, uses, specifications, costs, maintenance, and typical problems for neighborhood electric vehicles (NEV's) used on campuses. Advantages to the environment and flexibility of deployment are emphasized.

Cost and Red Tape Hamper Colleges Efforts to Go Green.
Carlson, Scott
The Chronicle of Higher Education; v54 n31 , pA1,A16,A17 ; Apr 11, 2008

Reviews higher education's enthusiasm over "green" design, along with their reluctance to spend what is required for third-party certification in order to achieve LEED certification. The power of the LEED brand name and flaws in the certification system are also addressed.

Facility Focus: LEED-Certified Facilities.
College Planning and Management; v11 n4 , p95-98 ; Apr 2008

Profiles four LEED-certified higher education facilities, including two academic facilities, a fitness center, and an off-campus field station for environmental studies.

The New Green U.
College Planning and Management; v11 n4 , p27,30 ; Apr 2008

Briefly reviews sustainability initiatives at a variety of large and small higher education institutions.

The Machine as the Garden: The New Harvard Campus in Allston, Sustainability, and Its Effects on Design.
http://www.gsd.harvard.edu/research/publications/hdm/current/28_Beauvais.html
Beauvais, Nathalie
Harvard Design Magazine; n28 , p1-4 ; Spring 2008

Details sustainable features of this campus expansion, with particular attention to the science complex, water use and protection, and advanced heating and cooling systems. Includes 18 references.

"Green" versus "Mean."
Boley, William
College Planning and Management; v11 n4 , p86,87 ; Apr 2008

Describes several aesthetically pleasing "green" building materials, including translucent panels and drywall made of largely recycled content, ground-faced block, and bamboo flooring.

Greening Middlebury College.
http://www.peterli.com/cpm/resources/articles/archive.php?article_id=1796
Brown, Robert; Viccica, Paul
College Planning and Management; v11 n4 , p80-85 ; Apr 2008

Reviews highlights of sustainable building and campus management practices at this institution, focusing on the features of a new library addition and a power plant that will run on wood chips.

Georgia Southern University: Actively Going Green.
http://www.peterli.com/cpm/resources/articles/archive.php?article_id=1799
Enck, H.J.

Details the advances made in sustainability in building and operations at this university, in the areas of new construction, renovation, cleaning, site management, groundskeeping.

Transportation Planning for a Green Campus.
http://www.peterli.com/cpm/resources/articles/archive.php?article_id=1802
Harknett, Thomas
College Planning and Management; v11 n4 , p68,70,72,74 ; Apr 2008

Focuses on campus transportation planning to achieve sustainability. This includes building denser, creating bicycle paths and bicycle storage, bus systems, and charging for parking. Points of progress in transportation planning at Cornell University are included.

It's Green-Now Find Out What That Really Means.
http://www.buildings.com/articles/detail.aspx?contentID=5834
Madsen, Jana
Buildings; v102 n4 , p60-62,64,65 ; Apr 2008

Discusses the validity of manufacturers' claims of "greenness" for their building products, directing building owners toward legitimate certification programs, and advising on the meaning of terms such as "recycled," "rapidly renewable," "biodegradable," "low- or no-VOC," and "sustainably harvested."

To LEED or Not to LEED? That Is the Question.
http://www2.peterli.com/cpm/resources/articles/archive.php?article_id=1797
Micham, Ray
College Planning and Management; v11 n4 , p32,34-36 ; Apr 2008

Compares the large quantity of energy buildings consume to that of other human activities, encourages LEED certification, emphasizes the value of building commissioning, describes the right-sizing of HVAC equipment, and describes administrative costs associated with LEED certification.

It's Not Easy Being Green.
http://www.peterli.com/cpm/resources/articles/archive.php?article_id=1798
Milshtein, Amy
College Planning and Management; v11 n4 , p38,40,42 ; Apr 2008

Describes ways to "recommission" existing higher education buildings for energy and water savings.

Green Design: New Construction vs. Renovation.
Perruzzi, Daniel
Buildings; v102 n4 , p84,86 ; Apr 2008

Briefly reviews the six categories of LEED certification for new construction and addresses the additional options available with renovation projects.

From Waste to Energy.
http://www.peterli.com/cpm/resources/articles/archive.php?article_id=1794
Rhodes, Kevin
College Planning and Management; v11 n4 , p76-79 ; Apr 2008

Discusses opportunities for generating energy for campuses using materials previously considered waste. These included wood chips, plant parts, chicken litter, and sewage sludge. Processes for biomass gassification are described, as a pros and cons of these endeavors in an academic setting.

Environmental Education.
http://athleticbusiness.com/articles/article.aspx?articleid=1749&zoneid=9
Steinbach, Paul
Athletic Business; v32 n4 , p38-4,42,44,46,48 ; Apr 2008

Reviews strategies that higher education institutions are using to lower energy consumption and improve the environment in their recreation centers. These include solar hot water, "green" cleaning, recycling, and reduction in the use of disposable products.

Look to the Landscape.
http://www.peterli.com/cpm/resources/articles/archive.php?article_id=1800
Weesner, John
College Planning and Management; v11 n4 , p52,54,56,58 ; Apr 2008

Reviews landscaping considerations that can improve campus sustainability. These include creating a master plan, using native plants, encouraging walkability, compact development, stormwater management and re-use, and minimization of impervious surfaces.

The 800-Pound Gorilla: The Threat and Taming of Global Climate Change.
http://www.appa.org/files/FMArticles/MA08%20Hansen%20Feature.pdf
Hansen, Jim
Facilities Manager; v24 n2 , p22-24,26,28 ; Mar-Apr 2008

Provides two case studies examining the current and future consequences of continued global warming at the current business-as-usual pace and at a decreased (new alternative forms of energy) level. Cause and effect relationships are explored, such as the varying levels of CO2 emissions and the effect it has on melting ice, higher sea levels, and the extinction of species. Potential policy solutions such as a carbon tax and renewable energies are addressed, as well as the critical role that colleges and universities can play by committing to achieve climate neutrality.

STARS: A Sustainability Assessment and Rating System for Colleges and Universities.
Walton, Judy
Facilities Manager; v24 n2 , p44-49 ; Mar-Apr 2008

Provides an overview of current campus sustainability models and introduces the newest and most comprehensive sustainability measurement tool developed by the Association for the Advancement of Sustainability in Higher Education (AASHE). AASHE launched the Sustainability, Tracking, Assessment & Rating System (STARS) pilot program this year. Details of the new program are included.

Making the Case for Green Building.
Wilson, Alex
Facilities Manager; v24 n2 , p36-43 ; Mar-Apr 2008

Advocates "green" building initiatives by detailing the numerous benefits derived from choosing to go green. Categories of benefits detailed include environmental, first-cost savings, reduced operating costs, health and productivity, community, as well as other economic benefits.

Green Designs Support Learning Environments.
http://www.learningbydesign.biz/2008/citation.html
Learning By Design; n17 , p8-11 ; 2008

Presents the ten Citation of Excellence award winners in this competition, with particular attention to four educational facilities that exhibit particularly innovative and well-executed sustainable designs. The recipients include primary, secondary, and higher education projects.

Green Special Section.
http://www.learningbydesign.biz/2008/green.html
Learning by Design; n17 , p30-58 ; 2008

Profiles 24 primary, secondary, and higher education facilities cited for their outstanding attention to sustainable design. For each project, a description, list of project participants, costs, and photographs are included.

Blueprints for Learning.
http://www.learningbydesign.biz/2008/casestudy1.html
Costlow, Andrew; Rawlins, Daniel
Learning by Design; n17 , p198 ; 2008

Profiles sustainable features of two Indiana educational facilities.

Head of the Class.
http://www.nxtbook.com/nxtbooks/ashrae/hpb_2008winter/index.php
Croxton, Randolph
High Performing Buildings; , p14-18,20,21 ; Winter 2008

Profiles the University of Florida's Rinker Hall, an academic facility that achieved extensive daylighting throughout its three-storey structure, its preparation for photovoltaics, and siting that maximizes shade for cooling efficiency.

The Greening of the Yard.
http://www.preservationnation.org/magazine/2008/january-february
Freeman, Allen
Preservation; v60 n1 , p38-42 ; Jan-Feb 2008

Reviews environmentally and aesthetically conscious choices made in the restoration and renovation of buildings and grounds at Harvard University, focusing on the notable "Harvard Yard" area.

Sustainable Buildings for Learning.
http://www.learningbydesign.biz/2008/feature3.html
Gisolfi, Peter
Learning by Design; n17 , p18-21 ; 2008

Outlines the separate LEED criteria for new and existing building, and profiles two "green" higher education buildings. The first is a renovated 1867 structure at Cornell, and the other a new student center at Manhattanville College.

Grounds Care Goes Green.
http://www.facilitiesnet.com/ms/article.asp?id=8090&keywords=mowers,%20blowers,% 20turf
Hounsell, Dan
Maintenance Solutions; v16 n1 , p30 ; Jan 2008

Reviews groundskeeping equipment and operations choices that save energy and reduce pollution.

Everything's Gone Green.
http://www.canadianarchitect.com/Issues/ISarticle.asp?id=195413&story_id=134190092946&issue=01012008&PC=
Jen, Leslie
Canadian Architect; v53 n1 , p22-24 ; Jan 2008

Profiles Humber College's Centre for Urban Ecology. The LEED Gold-certified building features high recycled content, high-performance glazing, daylighting, a green roof, rainwater harvesting, high-efficiency HVAC, and onsite waste treatment via biofilters.

Sustainability Standard.
http://www.facilitiesnet.com/ms/article.asp?id=8083&keywords=sustainability,%20com missioning,%20leed,%20water%20conservation,%20recycling
Matt, Chris
Maintenance Solutions; v16 n1 , p6,7 ; Jan 2008

Reviews building features and materials that went into the renovation of Harvard's Blackstone building, yielding an energy- and water-saving facility. Of particular interest was the creative recycling of old building parts and construction waste.

Colleges Strain to Reach Climate-Friendly Future.
Monastersky, Richard; Carlson, Scott
The Chronicle of Higher Education; v54 n16 , pA1,A16,A18-A21 ; Dec 14, 2007

Describes the efforts of a growing list of higher education institutions to become more "climate neutral," both by upgrading facilities and changing constituent behavior. Several hundred participating institutions have signed on to the American college and University Presidents Climate Commitment, and the rationales behind four institions' reluctance to sign are also discussed. The mixed return on investment in wind power is cited, due to the expense of acquiring and maintaining windmills.

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Go Green.
http://asumag.com/green/university_go_green/
Kennedy, Mike
American School and University; v80 n4 , p22,24,26,28 ; Dec 2007

Discusses ten significant reason to embrace sustainable design in school design and construction: to save energy, water, and money; reduce pollution; improve health; provide educational opportunities; use local resources; reuse materials; receive grants and subsidies; and to exhibit leadership and social responsibility.

Utility Vehicles: Driving Toward Sustainability.
http://www.facilitiesnet.com/ms/article.asp?id=7940&keywords=utility%20vehicle,%20b io-diesel,%20propane,%20electric%20power,%20hauling%20capacity,%20golf%20cart
Matt, Chris
Maintenance Solutions; v15 n12 , p18,19 ; Dec 2007

Reviews options for campus grounds maintenance vehicles, with particular attention to the limitations and opportunities with electric vehicles, opportunities for bio-diesel and propane vehicles, and vehicle maintenance.

Go Big Green.
http://www.peterli.com/cpm/resources/articles/archive.php?article_id=1677
Milshtein, Amy
College Planning and Management; v10 n12 , p18-20 ; Dec 2007

Discusses the increasing environmental awareness of college students, some practices of notably "green" campuses, and the role that sustainability might play in recruiting.

Green Building Reaches the Tipping Point in Higher Education.
Barista, David
Facilities Manager; v23 n6 , p38-46 ; Nov-Dec 2007

Reviews the status of "green" building design and construction at higher education institutions, based on a survey of members of three major higher education professional associations. Attention to principles of sustainability in this sector is relatively high and growing, with obstacles such as funding and technology limitations diminishing. Survey responses are extensively illustrated by 12 tables.

Two New Buildings at Ithaca College Meet High Environmental Standards.
Carlson, Scott
The Chronicle of Higher Education; v54 n9 , pA32 ; Oct 2007

Profiles two new LEED Platinum buildings at this campus, housing the business school and administrative offices. These buildings feature daylighting, automated artificial lighting, a green roof, and rainwater harvesting.

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The Cost and Value of Green Buildings.
http://www.peterli.com/archive/cpm/1630.shtm
Doo, Peter
College Planning and Management; v10 n10 , p29,30,32,34 ; Oct 2007

Discusses average construction cost increases to achieve the various LEED certification levels. These are typically lower than owners perceive that they will be at the outset, but sustainability features must be integral to the design, not merely an overlay. Assigning value to elements of sustainability, calculating return on the investment, and advice on pursuing certification are included.

A School's Green Design Saves Money and the Environment.
Hass, Michael
College Planning and Management; v10 n10 , p36-38 ; Oct 2007

Profiles Eastern Connecticut State University’s LEED Certified South Residential Village. The 750-bed multi-building complex that features advanced HVAC systems with water reclamation, efficient plumbing fixtures, daylighting, extensive use of local and low-VOC materials, and fifty percent recycling of construction waste.

Academia Embraces Green.
http://www.cfmmag.com/print/Campus-Facility-Maintenance/Academia-Embraces-Gree n/1$439
Wells, Scott; Ervin, David
Campus Facility Maintenance; v4 n3 , p28,29 ; Fall 2007

Reviews the LEED Gold certified Engineering Tower at Portland State University, detailing its geothermal heating and cooling system, rainwater harvesting, operable windows, and automated HVAC controls.

Higher Education Construction. Building Hallowed Halls for Future Generations.
http://southwest.construction.com/features/archive/0708_feature1.asp
Southwest Contractor; Aug 2007

Projects at colleges and universities provide designers and builders with an opportunity to produce quality buildings with an eye towards cutting-edge design concepts and sustainability. Modern higher education buildings tend to combine multiple purposes, use building materials in interesting ways and blur the boundaries between the interior and exterior spaces. The structures themselves often act as teaching tools, allowing students to learn about green building practices or construction techniques. This provides extensive case studies of projects that reflect many of these traits: the University of Nevada Reno's Mathewson-IGT Knowledge Center and Joe Crowley Student Union; Arizona State University's Polytechnic Campus; and University of New Mexico's School of Architecture.

Georgetown Goes Greener.
http://explore.georgetown.edu/documents/?DocumentID=25425
Blue and Gray; Jul 05, 2007

Describes a number of ways that Georgetown University is conserving energy, including motion sensor lights in classrooms, offices, and public spaces; updating solar panels; energy-efficient lighting; fuel-cell bus transportation; and computer-controlled building temperatures.

A Sustainable Legacy.
http://northwest.construction.com/features/archive/0707_Cover.asp
Northwest Construction; Jul 2007

Reviews Pacific University's efforts to build sustainbly, starting with a library that was already under construction, and continuing with academic and residential facilities that were planned with LEED certification in mind.

Sustainable Design: A Small but Worthwhile Investment.
Diaz, ShaVon
College Planning and Management; v10 n4 , pG4,G6,G8 ; Apr 2007

Reviews the misconception that sustainable design is too expensive, cites the benefits of sustainable design, and then details ways that sustainable design is more affordable if incorporated from the earliest planning stages for a building. Sources of outside funding to support sustainable design and quick payback through energy and maintenance savings are also covered.

CHPS National: A Resource for States, Districts and School Building Committees.
Fudge, Donald
Educational Facility Planner; v42 n2/3 , p21-24 ; 2007

Reviews the origins of the National Collaborative for High Performance Schools (CHPS), from its inception in California to the formation of state and regional organizations that have adapted the CHPS criteria for their respective climates. Major categories of the CHPS criteria are also described.

Queen Margaret University College's Sustainable, Community Campus.
http://www.oecd.org/dataoecd/62/40/37697406.pdf
Woodman, Susan
PEB Exchange; , p1-2 ; Nov 2006

Profiles the new campus of Queen Margaret University College in the United Kingdom, designed to be sustainable educational and community resource. Early consultation with students and staff on the campus design revealed a strong desire for a sustainable environment. In response to this, the design focuses on maximizing biodiversity, encouraging green transport, and making the most of natural daylight and ventilation in interior spaces. The Queen Margaret RE:LOCATE project will transform 35 acres of low grade farmland into diverse wildlife habitats to provide the parkland setting. The campus will be open to the public for leisure, education and recreation.

In Search of the Sustainable Campus.
Carlson, Scott
The Chronicle of Higher Education; v53 n9 , pA10-A12,A14,A16,A17 ; Oct 20, 2006

Reviews examples of higher education institutions striving to creating a more sustainable campus. These include building green structures, mass transit, manufacture and use of biofuels, locally obtained food, and conscientious landscaping. A diagram illustrating elements of a sustainable university is included.

Green Acres.
http://asumag.com/DesignPlanning/university_green_acres/
Seibert, Blair
American School and University; v79 n2 , p44,46,47 ; Oct 2006

Profiles some higher education and K-12 efforts at creating sustainable schools, either by following the guidelines of the Collaborative for High Performance Schools (CHPS) or of the Green Building Council's Leadership in Energy Efficient Design (LEED) program.

Testing the "Green" Philosophy.
http://www.nxtbook.com/nxtbooks/pmg/ub0606-GG/index.php
Sugg, Joe; Chaney, Elizabeth
University Business; v9 n6 , pG19,G20 ; Jun 2006

Describes the features of Santa Clara University's sustainable demonstration building, created as a laboratory to monitor differences in comfort and energy use and to serve as a model for future campus construction. Justifications for higher construction costs are presented along with examples of sustainable preplanning at other universities.

Energy Efficiency for Tropical Campus
Lek, Siang; Min, Zaw
ASHRAE Journal; v48 n5 , p48-50,52,53 ; May 2006

Describes energy efficiency achieved at a Singapore university through energy-efficient lighting and air-conditioning, an integrated building management system, and extensive use of natural ventilation and daylighting.

LEED Experts Help University with Green Decisions.
College Planning and Management; v9 n4 , pG12,G14 ; Apr 2006

Describes the sustainable features of a new Lawrence University residence hall, including in-floor radiant heat, high performance tinted glass, exhaust heat recovery systems, recycled and recyclable construction materials, bio swales, and native plantings.

Taking the Green Path to Sustainability.
Simpson, Walter
College Planning and Management; v9 n4 , pG24,G26,G28,G29 ; Apr 2006

Encourages a shift from a consuming to a conserving view of natural resources, and lists eighty steps toward a sustainable campus environment. These steps are organized under the categories of waste reduction and recycling, purchasing and administrative services, energy conservation and purchasing, water use, hazardous materials, transportation, food service, grounds and land use, new construction, campus planning and design, investment policies, and teaching and research.

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The True Costs of Building Green.
Suttell, Robin
Buildings; v100 n4 , p46-48 ; Apr 2006

Discusses recent data indicating that green buildings can cost from less than 1 to 6.5 per cent more to build, depending on the quantity and sophistication of sustainability features included. Benefits to building operations and occupant productivity are presented as more than offsetting the initial cost.

How Green Can You Go?
http://asumag.com/mag/university_green_go/
Conroy, Jeffrey
American School and University; v78 n7 , HP30-32,HP34 ; Mar 2006

Discusses site planning that can enhance campus environmental sensitivity, including care in street configuration, parking, stormwater and graywater reuse, indigenous plantings, geo-exchange systems, proper site lighting, careful orientation of buildings.

The Greening of Academe.
http://www.bdcnetwork.com/article/CA6256211.html
Yoders, Jeff
Building Design and Construction; v46 n9 , p40-45,47,49 ; Sep 2005

Details the efforts that went into creating the University of California's new Merced campus, which aspires to