The architectural engineering practice of Skidmore, Owings & Merrill has designed the tallest residence building in the large-scale Hudson Yards development. The company’s Associate Director of Structural Engineering, Preetam Biswas, talks about the challenges of high-density construction, and the role played by concrete in high-rise construction.

High-density construction is essential, particularly in large cities. What does this mean for architecture?

Because it avoids large, expansive cities, going vertical will be one of the most sustainable solutions to rapid urbanization in the years ahead. Cities are now embracing integrated commercial and residential zones that allow people to work and live in close proximity. The challenge architects and engineers are facing is to construct functionally mixed-use, vertically stacked buildings and developments that offer a very high quality of life on land that has become scarce.

 

What opportunities does this development present for SOM?

Skidmore, Owings & Merrill is known for designing and engineering various largescale projects throughout the world, from supertall buildings and hospitals to airports, schools, and convention centers. One of SOM’s biggest strengths is its multidisciplinary approach. Being an architectural engineering firm gives us a unique advantage in the age of vertical cities, as buildings such as Burj Khalifa in Dubai, the world’s tallest building, or the Manhattan West Development in New York prove.

 

Looking at New York, it is clear that the city is already very densely populated. What specific urban planning and construction requirements apply here?

Air-rights construction has made it possible to extend the Midtown Business District as far as the Hudson River. The Hudson Yards and Manhattan West developments alone are creating more than a million square meters in additional real estate. In the last ten years, new construction in Manhattan, Brooklyn and Queens have added real estate square footage equal to the whole of downtown San Francisco. In other words, an entire city has been built within one of the densest cities in the world. And this phenomenon is not unique to New York City. Over the next decade, we will see more and more cities growing vertically as their populations grow.

 

Manhattan West and Hudson Yards are prime examples of concentration, and SOM is building two office buildings, both over 300 meters high, as well as 35 Hudson Yards, the tallest residential building. What do investors demand from projects like these?

Investors are usually extremely aware of the premium that can be generated in the lucrative real estate market, and therefore look to capitalize on every square centimeter of floor space. This is where high-performance building materials such as highstrength concrete play a very important role. By using these materials, we can gain space because we can make structural elements – say walls and columns – smaller.

How can suppliers and partners support you in projects like these?

Developments in Real Estate have sped up considerably in recent years. Developers want to see a return on their investment as quickly as possible. That means using building materials that complement the ambitious timelines. Producers of such ma-terials are our natural partners. As designers, we particularly value our relationships with companies like Sika, who invest specifically in research and development and constantly innovate.

 

Concrete is becoming increasingly important in high-rise construction. 35 Hudson Yards also relies heavily on this material. Why is that?

This 72-story tower was built at a rate of one floor every two or three days. When you’re building at this speed, you need concrete admixtures and additives with very specific properties. The availability of high-strength concrete coupled with its longterm durability has also contributed to its increased demand in high-rise construction.

 

What benefits does concrete offer in terms of design?

Concrete is not just an economical building material, it is one of the most versatile there is. Demand for concrete is growing because various admixtures have broadened the options for using it in high-rise construction. Today, concrete is the material of choice for high-rise residential buildings. It provides an inherently stiff building structure with effective sound damping to minimize building movement and to make buildings quiet: characteristics that are a must for tall residential buildings.

CONSTRUCTION MATERIAL USED IN THE WORLD’S 100 TALLEST BUILDINGS

New York’s Empire State Building, which was completed in 1931, is one of the most famous skyscrapers in the world. It is a steel-framed building, typical of the 1930s. Purely steel constructions are much rarer today, concrete and concrete-steel composites now being the material of choice. These ensure a high level of rigidity, good damping effects, high safety standards, and greater flexibility in terms of design. Sika is at the forefront of this development, thanks to its high-performance concrete admixtures.

LAKTHA CENTER, SANKT PETERSBURG, RMJM

At 462 meters, the tallest building in Europe symbolizes the transformation of water to ice through its striking design. An immense foundation slab was required, so much so that Sika’s involvement helped the building make it into the Guinness World Records book.

125 GREENWICH, NYC, Rafael Viñoly Architects, SLCE Architects

With its high-strength concrete Ibeams rotated 90 degrees, 125 Greenwich is extremely wind-resistant. In addition, the new landmark building in Lower Manhattan stands out thanks to the scope it offers for the variable use of space and its columnfree interior. This was made possible thanks to the concrete construction produced using Sika additives.

MAHANAKHON BUILDING, BANGKOK, Ole Scheeren

Sika supplied concrete admixtures, waterproofing and roofing systems, mortar, and flooring solutions for this residential, hotel, and business complex, with its characteristic “pixelated” effect and 30% cantilevered floor space.