flexiblefullpage
billboard
interstitial1
catfish1
Currently Reading

Architect Adrian D. Smith on zero-energy cities, new technologies, and high density.

Architect Adrian D. Smith on zero-energy cities, new technologies, and high density.

Adrian D. Smith, FAIA, RIBA, is co-founder (with Gordon Gill) of Adrian Smith + Gordon Gill Architecture, Chicago. Previously, he was a design partner in the Chicago office of Skidmore, Owings & Merrill (1980-2003) and a consulting design partner from 2004 to 2006. His landmark structures include the Jin Mao Tower (Shanghai), Rowes Wharf (Boston), and Burj Khalifa (Dubai, U.A.E.), the world’s tallest structure. He recently collaborated with Gordon Gill to design the world’s first net-zero-energy skyscraper, Pearl River Tower, now nearing completion in Guangzhou, China. This account is based on his recent remarks at the Illinois Institute of Technology.


By By Robert Cassidy, Editorial Director | December 20, 2010
This article first appeared in the December 2010 issue of BD+C.

On zero-energy cities: The idea of a zero-energy city is a subject I’ve been interested in most of my career, working in indigenous areas like Guatemala and the Middle East, looking for clues about the design of buildings in their cultural and historical fabric. For the last four years, we’ve been looking at how to relate buildings to the natural forces that are available to us—geothermal, wind, solar, building orientation, and so on.

Sears Tower as guidepost: In 2005, while Gordon Gill and I were still at SOM, we started to look at the need to not only reduce buildings’ reliance on energy, but also to absorb the energy and use the latent environment to its greatest advantage. The Sears Tower [now Willis Tower] has 10,000 panes of single-glaze glass, and each creates as much carbon as one SUV. So we looked into completely replacing the exterior wall, redoing the insulation panels, updating the mechanical systems, reducing the amount of artificial light in the inner space, using dimmer systems, greening the nine roofs, using solar provide hot water, and so on. The potential savings would be 68 million kWh a year, which translates to five million fewer miles of driving, or electricity for 2,500 homes. We concluded that we could save 80% of the base energy of the building and 50% of the tenant energy use for the building.

Decarbonizing Chicago: The Sears Tower got us thinking about the 2030 Challenge, the BOMA 7-Point Challenge, and the Chicago Climate Action Plan: What would happen if we analyzed Chicago’s Loop to meet those goals? Over the last year, our firm has conducted an extensive study, a Chicago Central Area Decarbonization Plan, to see what it would take to get a carbon-free environment by 2030. We looked at a 460-acre section of the Loop that represents 9% of the city’s emissions, 3.9 million tons of CO2e a year, to see how to get an 80% reduction by 2020 and eliminate 3.2 million tons of CO2e a year.

By taking every building in the study area, all 550, and applying what we did in the Sears Tower, you get about one-third of the way toward the 2030 Challenge. Then, if you change the “urban matrix” of the buildings in the Loop from essentially 100% office use to 50% office and 50% residential, that gets you two-thirds of the way there. And through means like smart infrastructure, increased pedestrian traffic, district cooling, reducing energy in water and waste, and community education—when you do all that, you still have about 20% of the way to go, and that 20% has to come from renewable power sources to achieve a total reduction of carbon.

New technology, new philosophy: The old technology, old philosophy is having a central power plant and transmitting the power from the central plant to each building in the city. The problem is that you’re only 40-50% efficient at the source, and you’re losing 30% more in transmission, so you’re throwing away 70-80% of the power. Using new technology with wind and solar farms still relies on transmitting energy to the city. The new technology, new philosophy is to make as much power on the site as possible. Then you can shave the peak period for all users and reduce the total number of power plants. And you don’t need the grid: every building becomes a power source.

QUESTIONS FROM THE IIT AUDIENCE

Does your plan use projections of future improvements in technology?

ADS: The Chicago decarbonization plan uses existing technology; we don’t rely on technology that doesn’t exist. As people hear about what we’re doing, new technology will become part of our daily lives. We don’t know if some of those things will work, so you can’t rely on unknown technology in the future.

What about the embodied energy of materials?

ADS: The best way you can save energy is to take something old and renew it. You have to tackle it building by building, district by district. The study showed that for $65 a square foot you could bring these buildings up to state of the art, vs. $250 a square foot to replace them.

How will you store energy for when it’s actually needed?

ADS: You have to have storage facilities to store that power, whether that’s a battery or limestone caves. This is a key area of investigation, and it’s going to take a clever solution to do this on an economical basis.

How likely is it that your plan could be implemented?

ADS: That’s a big question mark. In New York City, building owners have to do some of the things we’re talking about. This is a seed. You throw it out there.

Would the residential units be too expensive for low-income groups?

ADS: In the Loop, retrofitting the pre-1950s buildings could give you opportunity to do that, where units would be cost accessible. In the ’80s, we took a lot of abandoned manufacturing buildings and converted them into residential lofts that were quite affordable.

How do you counteract the public’s reaction to high density?

ADS: People don’t want their views blocked, and that’s where a master plan comes in, and zoning densities. Wacker’s “Manual of the Plan of Chicago” was used for 15 years after the Burnham Plan of 1909, to teach every public school student what the plan meant. We’re proposing a similar manual that creates strategies for a carbon-free environment.

Related Stories

Curtain Wall | Aug 15, 2024

7 steps to investigating curtain wall leaks

It is common for significant curtain wall leakage to involve multiple variables. Therefore, a comprehensive multi-faceted investigation is required to determine the origin of leakage, according to building enclosure consultants Richard Aeck and John A. Rudisill with Rimkus. 

MFPRO+ News | Aug 14, 2024

Report outlines how Atlanta can collaborate with private sector to spur more housing construction

A report by an Urban Land Institute’s Advisory Services panel, commissioned by the city’s housing authority, Atlanta Housing (AH), offered ways the city could collaborate with developers to spur more housing construction.

Adaptive Reuse | Aug 14, 2024

KPF unveils design for repositioning of Norman Foster’s 8 Canada Square tower in London

8 Canada Square, a Norman Foster-designed office building that’s currently the global headquarters of HSBC Holdings, will have large sections of its façade removed to create landscaped terraces. The project, designed by KPF, will be the world’s largest transformation of an office tower into a sustainable mixed-use building.

Sustainability | Aug 14, 2024

World’s first TRUE Zero Waste for Construction-certified public project delivered in Calif.

The Contra Costa County Administration Building in Martinez, Calif., is the world’s first public project to achieve the zero-waste-focused TRUE Gold certification for construction. The TRUE Certification for Construction program, administered by Green Business Certification Inc. (GBCI), recognizes projects that achieve exceptional levels of waste reduction, reuse, and recycling.

Modular Building | Aug 13, 2024

Strategies for attainable housing design with modular construction

Urban, market-rate housing that lower-income workers can actually afford is one of our country’s biggest needs. For multifamily designers, this challenge presents several opportunities for creating housing that workers can afford on their salaries.

University Buildings | Aug 12, 2024

Planning for growing computer science programs

Driven by emerging AI developments and digital transformation in the business world, university computer science programs are projected to grow by nearly 15% by 2030.

Energy Efficiency | Aug 9, 2024

Artificial intelligence could help reduce energy consumption by as much as 40% by 2050

Artificial intelligence could help U.S. buildings to significantly reduce energy consumption and carbon emissions, according to a paper by researchers at the Lawrence Berkeley National Laboratory.

Sponsored | Healthcare Facilities | Aug 8, 2024

U.S. healthcare building sector trends and innovations for 2024-2025

As new medicines, treatment regimens, and clinical protocols radically alter the medical world, facilities and building environments in which they take form are similarly evolving rapidly. Innovations and trends related to products, materials, assemblies, and building systems for the U.S. healthcare building sector have opened new avenues for better care delivery. Discussions with leading healthcare architecture, engineering, and construction (AEC) firms and owners-operators offer insights into some of the most promising directions. This course is worth 1.0 AIA/HSW learning unit.

Office Buildings | Aug 8, 2024

6 design trends for the legal workplace

Law firms differ from many professional organizations in their need for private offices to meet confidentiality with clients and write and review legal documents in quiet, focused environments

Data Centers | Aug 8, 2024

Global edge data center market to cross $300 billion by 2026, says JLL

Technological megatrends, including IoT and generative AI, will require computing power to be closer to data generation and consumption, fueling growth of edge IT infrastructure, according to a new JLL report.

boombox1
boombox2
native1

More In Category


Urban Planning

Bridging the gap: How early architect involvement can revolutionize a city’s capital improvement plans

Capital Improvement Plans (CIPs) typically span three to five years and outline future city projects and their costs. While they set the stage, the design and construction of these projects often extend beyond the CIP window, leading to a disconnect between the initial budget and evolving project scope. This can result in financial shortfalls, forcing cities to cut back on critical project features.



Libraries

Reasons to reinvent the Midcentury academic library

DLR Group's Interior Design Leader Gretchen Holy, Assoc. IIDA, shares the idea that a designer's responsibility to embrace a library’s history, respect its past, and create an environment that will serve student populations for the next 100 years.

halfpage1

Most Popular Content

  1. 2021 Giants 400 Report
  2. Top 150 Architecture Firms for 2019
  3. 13 projects that represent the future of affordable housing
  4. Sagrada Familia completion date pushed back due to coronavirus
  5. Top 160 Architecture Firms 2021