flexiblefullpage
billboard
interstitial1
catfish1
Currently Reading

Building a Double Wall

Building a Double Wall


By By Charles Young | October 12, 2011
The new outer envelope of the A.J. Celebrezze Federal Building serves as a therm
The new outer envelope of the A.J. Celebrezze Federal Building serves as a thermal blanket in winter, reducing the need for mech
This article first appeared in the October 2011 issue of BD+C.

The A.J. Celebrezze Federal Building, a 32-story office building in Cleveland, Ohio, was built in the late 1960s for the U.S. General Services Administration. As with many early generation window walls, significant deterioration has occurred over time due to moisture damage from failed drainage systems. This resulted in delamination of exterior wall panels, compromising the air and moisture barrier. The panels had been stabilized with a retrofit, but their effectiveness as a perimeter barrier has reached its limit, as evidenced by the occurrence of frost inside the exterior envelope during winter.

Our firm, Interactive Design, was engaged as the architect to correct the façade deficiencies for the $121 million project, which is funded under the American Recovery and Reinvestment Act of 2009. To mitigate these issues the façade renovation program was focused on four primary requirements: 1) repair/replacement of the building envelope, 2) providing blast protection, 3) upgrading the energy conservation of the envelope, and 4) maintaining full occupancy during construction.

Blast pressure analysis indicated that the frame of the building would accommodate increased loads, but only at the column floor beam connections. Noncomposite slab construction eliminated the transfer of loads via diaphragm. Therefore, new tube beams were added externally to transfer the wind, blast, and gravity loads to these points. Deflection of the tubes under blast conditions may not impact the structural frame. The geometry formulated an exterior configuration two feet, six inches deep, which led logically to the investigation of a double wall assembly.

Originally the project was conceived as an overclad wall system. However, adding an overclad assembly would have extended the volume of interior spaces, resulting in significant fire protection modifications and perimeter air distribution modifications to the existing fan coil units.

MAKING DOUBLE WALL VIABLE
Double wall technology is one of the most complex building envelope forms. Originally developed and employed in Europe, it has been relatively slow in migrating to the U.S. However, higher energy costs are now making these systems more viable. In new construction, the inability to offset the initial high envelope costs through energy savings historically has been the obstacle for double wall usage. Specialized projects, such as museum construction, can justify these initial costs due to constant temperature/humidity requirements. For renovation projects such as the A.J. Celebrezze Federal Building, the existing interior wall can be reused as the interior skin to offset much of the cost delta.

The design process for double walls relies on the integration of all systems. The ventilation environment of the building informs the design. It is imperative that an accurate and robust energy model be developed to assist in the analysis and creation of the double wall. A fundamental challenge was to understand the effect of a double wall upon the existing building. The design team embarked upon an extensive series of computational fluid dynamic studies. Winter, spring/fall, and summer conditions were run in extreme temperature and solar conditions. The purpose of the CFD analysis was to fully understand the temperature relationships in the wall cavity and occupied spaces during seasonal variances.

The architects were able to manipulate glazing layups, light shades, and frit variations to impact the performance characteristics. The design team pursued a variety of critical design paths simultaneously. These included both actively ventilated and sealed cavity conditions.

A significant factor for this project is that the building has historically a very low winter relative humidity. This ultimately permitted a sealed cavity system with no ventilation from either the inside or outside. The temperature and humidity of the internal cavity are allowed to float, so to speak, with its surrounding environments. It acts as a buffer between inside and outside, mitigating the differences between the two without using additional mechanical means, and minimizing energy consumption.

CUTTING ENERGY USE 65%
This system is designed to improve the existing perimeter energy consumption by approximately 65%. It is most efficient to the building during the winter months, when it acts like a thermal blanket and significantly reduces the need for heat from the existing perimeter fan coils. During summer months, shading systems block direct solar gain to the tenant-occupied spaces. The cavity will increase in temperature while not detrimentally affecting the interior environment or the existing mechanical system.

The final configuration is a noncombustible, sealed assembly that requires minimal maintenance. Access to the cavity is provided at each floor by operable interior windows in the inner wall.

The passive double wall system being employed at the A.J. Celebrezze Federal Building is one solution to the growing number of fully occupied buildings that have aging or seriously deteriorated skins. Economic constraints dictate that building owners cannot afford to empty their buildings of tenants to do replacement or maintenance work on façades. Therefore, systems such as this may offer an alternative to complete façade replacement, at the same time lowering energy consumption and enhancing sustainability by preserving existing materials. BD+C
--
Charles Young is a partner with Interactive Design, Inc., an architecture firm based in Chicago. This article is adapted from Chicago Architect, the journal of AIA Chicago.

Related Stories

Architects | May 26, 2017

Innovations in addressing homelessness

Parks departments and designers find new approaches to ameliorate homelessness.

Architects | May 26, 2017

BIG plans: Architecture isn’t Bjarke Ingels Group’s only growth path

Kai-Uwe Bergmann, the firm’s head of global business development, says engineering and urban planning are key opportunities. And how about that Hyperloop?

Museums | May 25, 2017

The museum as workspace

Many museum staff are resistant to the idea of open offices.

| May 24, 2017

Accelerate Live! talk: Applying machine learning to building design, Daniel Davis, WeWork

Daniel Davis offers a glimpse into the world at WeWork, and how his team is rethinking workplace design with the help of machine learning tools.

| May 24, 2017

Accelerate Live! talk: Learning from Silicon Valley - Using SaaS to automate AEC, Sean Parham, Aditazz

Sean Parham shares how Aditazz is shaking up the traditional design and construction approaches by applying lessons from the tech world.

| May 24, 2017

Accelerate Live! talk: The data-driven future for AEC, Nathan Miller, Proving Ground

In this 15-minute talk at BD+C’s Accelerate Live! (May 11, 2017, Chicago), Nathan Miller presents his vision of a data-driven future for the business of design.

Architects | May 23, 2017

Queens Museum exhibit shows New York City as it could have been

The installation will showcase 200 years worth of unrealized Big Apple projects via original drawings, renderings, newly commissioned models, and 3D visualizations.

Education Facilities | May 22, 2017

Educational design taking lessons from tech firms

Recently, in educational design, we have seen a trend toward more flexible learning spaces.

Architects | May 16, 2017

Architecture that helps children fall in love with the environment

The coming decades present a major ecological challenge... so let’s encourage the next generation to do something about it!

AEC Tech | May 11, 2017

Accelerate Live!: Social media reactions from BD+C's AEC innovation conference

BD+C's inaugural Accelerate Live! innovation conference took place May 11, in Chicago.

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