The taller the building, the more prestigious it appears. At least, that’s how the thinking goes. Recently, cities around the world are beginning to use tall buildings to show off their wealth and prosperity in the same way professional athletes use garages filled with Ferraris, Aston Martins, and Lamborghinis.
Sure, tall buildings provide a way of maximizing space in crowded cities, but a report from the Council on Tall Buildings and Urban Habitat (CTBUH) points to the fact that many supertalls around the world have hundreds of feet of non-occupiable space. This “vanity height” as it is referred to, exists purely as a design element and to make the building taller.
In fact, if you eliminate vanity height, 44 of the world’s 72 supertalls (the number at the time of the report using July 2013 data) would measure less than 300 meters, losing their supertall status. The tallest of these building’s is Guangzhou’s 390-meter CITIC Plaza. Seeing these tall buildings only to realize so much of it is purely for aesthetics is like buying a large bag of chips only to discover a third of it is filled with air.
In terms of sheer height, the Burj Khalifa is the most egregious vanity height offender. 244 meters at the top of the world’s tallest tower is non-occupiable, that’s a whopping 800 feet. In other terms, if the Burj Khalifa’s vanity height were a building in its own right, it would be Europe’s 11th-tallest building.
In terms of percentage, another Dubai building is the worst offender. 39% of the Burj Al Arab’s height is non-occupiable space. However, at the opposite end of the spectrum, Dubai is also home to The Index, which has a vanity height of only four meters, or 1% of the buildings overall height.
New York has three of the worst offenders with the Bank of America Tower (131 meters, 36%), New York Times Tower (99 meters, 31%), and One World Trade Center (134 meters, 25%). The Empire State Building, however, plays the role of New York’s Index, as it loses just 1% of its height to non-occupiable space.
Measuring building height has been a fairly subjective practice over the years. Spires are counted toward height (which some view as counterproductive and rewarding vanity height) while antennae are not. In 1998, the then Sears Tower lost its title of tallest building in the world to Petronas Towers despite being almost 250 feet taller when its antennae were included and also having a higher occupiable top floor. The Petronas Towers’ spires, which are included in the building’s height, reach 1,483 feet in the air while the Sears Tower without its antennae, which are not included in its overall height, only reaches 1,454 feet. With the antennae the Sears Tower is 1,707 feet.
The now Willis Tower lost out again to vanity height in determining the tallest building in the United States. The Willis Tower’s roof is 442.1 meters high while One World Trade Center’s roof is 417 meters high. Again, however, One World Trade Center’s spire counts towards its height, bringing it up to 1,776 feet and giving it the distinction of being the tallest building in the U.S.
So what does all of this mean? Well, not much, except the list of the tallest buildings in the world would be shuffled around a bit if spires, masts, and antennae were counted toward a building’s overall height or, conversely, if buildings were just measured to their top floors.
But there really isn’t a simple solution: completely occupiable or not, the Burj Khalifa is still the tallest structure ever created (to this point. Jeddah Tower will take the title when it is completed, most likely with quite a bit of non-occupiable space of its own). But if you allow spires, antennae, or other non-occupiable components to count, then some architects and developers could add comically large elements to their structures just to get the accolade of tallest structure in the world.
Regardless, whichever way you measure it, architects are continuing to push the boundaries of what is possible in terms of building height as more tall buildings than ever are popping up in cities around the world.
Related Stories
| Feb 13, 2013
'Vegetative tower' apartments to revive NYC site
A Manhattan site formerly slated for development with a "tower of cubes"—a now-defunct project by Santiago Calatrava—will be revived with a 998-foot, 300,000-sf apartment building by Morali Architects.
| Jul 9, 2012
Modular Construction Delivers Model for New York Housing in Record Time
A 65-unit supportive housing facility in Brooklyn, N.Y., was completed in record time using modular construction with six stories set in just 12 days.
| Jul 2, 2012
San Francisco lays claim to the greenest building in North America
The 13-floor building can hold around 900 people, but consumes 60% less water and 32% less energy than most buildings of its kind.
| Jun 13, 2012
Thornton Tomasetti founding principals receive CTBUH Fazlur R. Khan Lifetime Achievement Medal
This is the first time the CTBUH Board of Trustees has awarded the prize to two individuals jointly.
| Jun 8, 2012
Thornton Tomasetti/Fore Solutions provides consulting for renovation at Tufts School of Dental Medicine
Project receives LEED Gold certification.
| Jun 6, 2012
KPF designs tower for Yongsan IBD
The master plan, created by Studio Daniel Libeskind, is a dynamic urban environment containing contributions from 19 different architects practicing in diverse locations around the globe.
| Jun 6, 2012
SOM urges Chicago tenants to partner with landlords to cut energy use
Tenants can exceed building energy challenge targets recently announced by Mayor Emanuel.
| Jun 1, 2012
New BD+C University Course on Insulated Metal Panels available
By completing this course, you earn 1.0 HSW/SD AIA Learning Units.
| May 29, 2012
Reconstruction Awards Entry Information
Download a PDF of the Entry Information at the bottom of this page.
| May 24, 2012
2012 Reconstruction Awards Entry Form
Download a PDF of the Entry Form at the bottom of this page.