Focus

Above and beyond

Space in cities is in short supply. How we can still make room for people.

People are being drawn into the cites. Living space is growing scarce. How cities can continue to grow in the future and remain liveable at the same time.

Imagine a sunny morning in the year 2050. You are in a skyscraper. You look down from the panoramic windows on the top floor. Robots are cleaning the façade and making repairs. Further down, a new building module is being inserted into a façade opening. It’s an urban farming unit, where vegetables can be grown, and fish and chickens bred directly inside the building. Rainwater is collected on the roof and treated for domestic use. A building membrane converts carbon dioxide into oxygen, and solar panels and wind turbines produce energy. Sounds crazy, right? Not according to the plans of architecture firm WOHA, which has devised a concept for skyscrapers of the future. “We think that the ultimate, sustainable building is a self-sufficient building. We should be striving to create self-sustaining cities on a large scale,” says Richard Hassell, co-founder of WOHA.

The architects at WOHA want to form a close bond between architecture and nature – as we see here with the Parkroyal on Pickering hotel in Singapore.

The Singapore-based architecture firm has won many awards for its tropically open and sustainable architecture. One striking example is the Parkroyal on Pickering in Singapore, a hotel that combines architecture and nature.

Focus on Africa: This is where we find the fastest growing cities of the future.

The club of megacities
Growing megacities, sustainability, quality of life: these topics are increasingly important for city planners and architects. With around 38 million people, Tokyo is number one in the rankings for the world’s most populated cities, followed by Delhi, Shanghai and Mexico City. The Japanese metropolitan area has been a member of the exclusive club of megacities (defined by the United Nations as a city with more than 10 million inhabitants) since 1950. The only other member at that time was New York, which has now moved down to ninth place. Today, there are over 37 megacities worldwide, and it is expected that more and more people will continue to move to cities in the future. According to U.N. forecasts, there will be more than 43 megacities by 2030, most of which will be in emerging markets.

The world will need up to 2 billion more apartments in the next 80 years because of rapid urbanization. As cities do not have unlimited ground space to build on, and existing space is increasingly expensive, densification is the new buzzword. “The future of humanity depends on the benefits proposed by vertical densification in cities. This concept reduces land use and the energy required to build and maintain a horizontally expanding city,” says Professor Antony Wood from the Council on Tall Buildings and Urban Habitat (CTBUH) in Chicago. This non-profit organization studies tall buildings and their architecture. The CTBUH office is based in an historically significant location: Chicago is considered the birthplace of the skyscraper.

The most densely populated metropolises are in Asia.

After the Great Chicago Fire of 1871 and a rapid increase in land prices, new buildings steadily started creeping upward. This was made possible by high-strength steel. Crash-proof elevators invented by the Otis company in 1853 also made top floors a more attractive prospect. This was followed by height records being set, primarily in New York, thanks to steel skeleton structures. Today, New York City boasts more than 260 buildings with a height of over 150 meters. This is only exceeded by Hong Kong, which has about 350 skyscrapers.

But the current record-holder for highest building is in Dubai, United Arab Emirates: the Burj Khalifa with a height of 828 meters and 162 stories. Special equipment was required to construct such an extremely tall building, such as tower cranes and super high-pressure pumps, as well as appropriate material technology for the concrete. In the case of the Burj Khalifa, there were extremely stringent stability requirements.

“High-strength concrete was needed. The mixture had to have a pressure resistance of 80 Newtons per square millimeter, which is three times more pressure-resistant than the standard concrete used for house construction,” says David Bowerman, Regional Business Segment Manager at BASF in Dubai, who supervised the Burj Khalifa project. MasterGlenium products were used to make the 175,000 cubic meters of concrete that were needed. “These are the only concrete admixtures on the market that met the client’s requirements. They ensure rapid solidification and can be processed at temperatures of over 45 degrees Celsius – which is not an uncommon occurrence in Dubai in the summer,” explains the concrete expert. “Another challenge was that a pump had to transport the concrete mixture from the ground to a height of over 600 meters. That was a new record,” says Bowerman.

There are around 290 skyscrapers in Dubai, UAE. The Burj Khalifa stands proudly above them all – the tallest building in the world.

New gigantism
Innovative solutions clear the path to dizzying heights. Along with ultra-strong concrete, special large bored piles are also used to anchor super skyscrapers meters deep into the ground. And innovative cable-free elevators based on magnetic levitation technology transport residents up to the highest levels of mega towers at lightning speed.

Humans have been building up toward the heavens for thousands of years. Four groundbreaking skyscrapers.

It is neither the statics nor the foundation that truly limit height. “Most people think that the height of a building is limited by technical factors, but that’s not the case,” says CTBUH Executive Director Wood. A much more decisive factor is whether you are able to raise the necessary funds and obtain the necessary permits. The new hot contender in the race for the title of world’s tallest building is the Creek Tower in Dubai. Once it has been completed in 2020, the tower will loom about 1,000 meters above the ground thanks to BASF concrete admixtures. The construction costs for the mega tower are estimated to be around $1 billion.

New ideas for skyscrapers

The wooden skyscraper

Until now, steel and concrete have been the building materials of choice when it comes to high-rise construction. In the heart of Tokyo, Japan, a record-breaking building constructed using renewable raw materials is being planned for 2041. The world’s highest wooden skyscraper will stretch 350 meters into the sky, comprise 70 stories, and cost €4.5 billion.

The green apartment block

A spectacular example of the green future of high-rise construction has been set in 2018 in Taipei, Taiwan. The Tao Zhu Yin Yuan Tower designed by the Paris-based Vincent Callebaut Architectures resembles a DNA double helix. With 23,000 trees and shrubs, the façade, the roof, and the balconies of the apartment block provide a beautiful green landscape. The plants should absorb 130 metric tons of carbon dioxide a year – equivalent to the emissions from 27 automobiles.

The floating skyscraper

The sky is no limit for Clouds Architecture Office in New York and their Analemma Tower project. The U.S. firm has presented visionary designs for a skyscraper that floats high above the roofs of the city. How does it work? The building will be suspended from an asteroid placed in orbit over the earth.

The wooden skyscraper, the green apartment block and the floating skyscraper

  Learn more

The wooden skyscraper

Until now, steel and concrete have been the building materials of choice when it comes to high-rise construction. In the heart of Tokyo, Japan, a record-breaking building constructed using renewable raw materials is being planned for 2041. The world’s highest wooden skyscraper will stretch 350 meters into the sky, comprise 70 stories, and cost €4.5 billion.

The green apartment block

A spectacular example of the green future of high-rise construction has been set in 2018 in Taipei, Taiwan. The Tao Zhu Yin Yuan Tower designed by the Paris-based Vincent Callebaut Architectures resembles a DNA double helix. With 23,000 trees and shrubs, the façade, the roof, and the balconies of the apartment block provide a beautiful green landscape. The plants should absorb 130 metric tons of carbon dioxide a year – equivalent to the emissions from 27 automobiles.

The floating skyscraper

The sky is no limit for Clouds Architecture Office in New York and their Analemma Tower project. The U.S. firm has presented visionary designs for a skyscraper that floats high above the roofs of the city. How does it work? The building will be suspended from an asteroid placed in orbit over the earth.

The future of humanity depends on the benefits proposed by vertical densification in cities.”

Professor Antony Wood

CTBUH Executive Director, Chicago/USA

Skyscraper expert Wood expects a real surge in the number of skyscrapers over the course of global urbanization. The record set in 2016 of 127 buildings higher than 200 meters completed worldwide was quickly surpassed just one year later with 140 new gigantic towers. Most of these were built in China. Wood is sure that skyscrapers are the ideal way to confront urban densification – not only because of their height, but also because they link together several levels of a city. “Things that are usually at ground level – for example, urban infrastructures or green spaces – will ideally continue onto and into the skyscraper, making the building an extension of the city.” The result of this will be vertical cities that grow upward into the sky, where living, working, and leisure go hand in hand. These new buildings are often designed as flexible modular structures that can be easily and cost-effectively adapted to the needs of their users.

Small but mighty
Unusual, mini modular solutions are being developed for cities with an extreme shortage of living space: The OPod Tube Housing project of Hong Kong architecture firm James Law Cybertecture converts concrete water pipes into micro-apartments with a living space of 9.29 square meters. The residential tubes can be stacked vertically and horizontally as needed.

In Hong Kong, China, concrete water pipes are being turned into new mini-homes.

Hong Kong is notorious for its lack of space and dense living conditions. This is where the term “mosquito apartment” came from: tiny living spaces only big enough for a mosquito. In Japan and Taiwan, the construction of micro-apartments to fill the smallest gaps is also booming. It’s a trend spreading all over the world. Micro-living should provide some relief for large European and North American cities in the coming years.

Small but spacious: Japan is a pioneer when it comes to living in compact mini-houses.

This way of living encourages a new form of cohabitation, which focuses less on private space and more on communal space. The space that we are lacking is shifted beyond the confines of our personal area. Communal areas on different levels and on the roof are just as much a part of all this as launderettes and swimming pools. The future of urban living is about sharing – not just cars, but also private and public space.

At the same time, nature is being brought back into our living spaces. For example, leaves are already sprouting on the spectacular Tao Zhu Yin Yuan Tower in Taipei (see page 13) and on the Oasia Hotel Downtown in Singapore, which was named the world’s best skyscraper in 2018. This building designed by WOHA has a red aluminum grid façade, where tropical plants are gradually covering the hotel in a shroud of green. The building is a real eye-catcher that is also benefiting the microclimate.

The residential complex The Interlace in Singapore is like a vertical village. Living and social spaces are connected side by side and on top of each other.

Related Content

The five E’s of a city planner

Cities in motion

Back to all topics