Reconstruction in its many forms—tenant improvements, retail fitouts, adaptive reuse, historic preservation, gut rehab, and so on—is keeping many design and construction firms solvent.
The collapse of the U.S. housing market in 2007-2008 precipitated a nearly commensurate downturn in new nonresidential construction in the United States. Filling the gap, at least to some extent, has been reconstruction.
Architecture, engineering, and construction firms that once realized less than 20% of their revenues from renovation work are now performing 30-40% of their work in reconstruction. Another telling metric: LEED for Existing Buildings has now surpassed LEED for New Construction in total floor space. It is no exaggeration to say that reconstruction is keeping many AEC firms afloat.
This chain of events has created an excellent opportunity for the design and construction industry to seek ways to take reconstruction to the next highest level: from 20-30% energy and water savings, for example, to 40-60%—what those in the field are calling “deep energy retrofits.”
This White Paper details the obstacles to achieving high-performance reconstructed buildings and describes the promising opportunities available to AEC firms in this sector of the green building market.
The editors argue the case that existing and reused buildings represent “the 99% solution” for reducing energy, water, and materials waste in buildings and cutting the share of greenhouse gases produced by nonresidential buildings.
As in our eight previous White Papers, we conclude with a set of specific recommendations—an 18-point Action Plan—for stakeholders in the built environment to consider.
The editors welcome your feedback. Please contact Robert Cassidy, Editorial Director, at 847-391-1040; rcassidy@sgcmail.com.
Click here to download a PDF of High-Performance Reconstructed Buildings: The 99% Solution, the 9th in a Series of White Papers on the Green Building Movement
Chapter 1 Reconstruction: ‘The 99% Solution’ for Energy Savings in Buildings
Chapter 2 Exemplary High-Performance Reconstruction Projects
Chapter 3 How Building Technologies Contribute to Reconstruction Advances
Chapter 4 Business Case for High-Performance Reconstructed Buildings
Chapter 5 LEED-EB and Green Globes CIEB: Rating Sustainable Reconstruction
Chapter 6 Energy Codes + Reconstructed Buildings: 2012 and Beyond
Chapter 7 When Modern Becomes Historic: Preserving the Modernist Building Envelope
Chapter 8 High-Performance Reconstruction and Historic Preservation: Conflict and Opportunity
Chapter 9 The Key to Commissioning That Works? It Never Stops
Chapter 10 Action Plan: 18 Recommendations for Advancing Sustainability in Reconstructed Buildings
DIRECTORY OF SPONSORS
Associations
Construction Specifications Institute
North American Insulation Manufacturers Association
The Vinyl Institute
Government
U.S. General Services Administration Public Buildings Service
Manufacturers
Duro-Last Roofing, Inc.
SAGE Electrochromics, Inc.
Sika Sarnafil
Related Stories
Healthcare Facilities | Aug 10, 2023
The present and future of crisis mental health design
BWBR principal Melanie Baumhover sat down with the firm’s behavioral and mental health designers to talk about how intentional design can play a role in combatting the crisis.
Architects | Aug 10, 2023
Hoffmann Architects + Engineers awards first Diversity Advancement Scholarship to Reeja Shrestha of Howard University
Now in its inaugural year, the Hoffmann Scholarship was established in collaboration with the Connecticut Architecture Foundation (CAF) to support students from underrepresented racial or ethnic groups who are seeking degrees in architecture or engineering.
Senior Living Design | Aug 7, 2023
Putting 9 senior living market trends into perspective
Brad Perkins, FAIA, a veteran of more than four decades in the planning and design of senior living communities, looks at where the market is heading in the immediate future.
Higher Education | Aug 7, 2023
Building a better academic workplace
Gensler's David Craig and Melany Park show how agile, efficient workplaces bring university faculty and staff closer together while supporting individual needs.
University Buildings | Aug 7, 2023
Eight-story Vancouver Community College building dedicated to clean energy, electric vehicle education
The Centre for Clean Energy and Automotive Innovation, to be designed by Stantec, will house classrooms, labs, a library and learning center, an Indigenous gathering space, administrative offices, and multiple collaborative learning spaces.
Green | Aug 7, 2023
Rooftop photovoltaic panels credited with propelling solar energy output to record high
Solar provided a record-high 7.3% of U.S. electrical generation in May, “driven in large part by growth in ‘estimated’ small-scale (e.g., rooftop) solar PV whose output increased by 25.6% and accounted for nearly a third (31.9%) of total solar production,” according to a report by the U.S. Energy Information Administration.
Resiliency | Aug 7, 2023
Creative ways cities are seeking to beat urban heat gain
As temperatures in many areas hit record highs this summer, cities around the world are turning to creative solutions to cope with the heat. Here are several creative ways cities are seeking to beat urban heat gain.
Government Buildings | Aug 7, 2023
Nearly $1 billion earmarked for energy efficiency upgrades to federal buildings
The U.S. General Services Administration (GSA) recently announced plans to use $975 million in Inflation Reduction Act funding for energy efficiency and clean energy upgrades to federal buildings across the country. The investment will impact about 40 million sf, or about 20% of GSA’s federal buildings portfolio.
MFPRO+ New Projects | Aug 4, 2023
Nashville gets 'first-of-its-kind' residential tower
Global architecture firm Goettsch Partners announces the completion of Alcove, a new 356-unit residential tower in Nashville, Tenn., developed by Giarratana LLC.
Industrial Facilities | Aug 3, 2023
The state of battery manufacturing in the era of EV
One of the most significant changes seen in today’s battery plant is the full manufacturing process—from raw materials to the fully operational battery.