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How to Improve Energy Efficiency in Modernist Buildings?


Throughout the history of architecture, energy efficiency, and CO2 emissions were considered marginal issues until the late 20th century. The low scores of some iconic modernist buildings in the Energy Star certification program illustrate this situation. The MetLife/PanAm Building (designed by Walter Gropius and Pietro Belluschi in 1963) received a dismal score of 39 (on a scale of 0 to 100), while the Lever House (designed by Skidmore, Owings & Merrill in 1952) scored 20. The worst performance was by Mies Van der Rohe‘s iconic Seagram Building, constructed in 1958, which received only 3 points. On the other hand, two revered Art Deco buildings from the 1930s, the Chrysler Building and the Empire State Building achieved scores of 84 and 80, respectively, as a result of extensive upgrades to their mechanical and insulation systems.

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In an era of climate change and depleting natural resources, making existing buildings more sustainable and energy-efficient is not just possible but necessary, whether they are modern, traditional, or vernacular structures. The term “retrofit” is widely used to describe a set of improvements to an existing building to ensure it is responsive, resilient, and well-adapted to climate change.

MetLife Building © Wikimedia user Jnn13 licensed under CC BY-SA 4.0

Successful retrofit projects consider the building’s context, history, and occupants. Holistic and balanced solutions save energy while maintaining a comfortable and healthy indoor environment. For modernist buildings, specific challenges arise, particularly in preserving the architectural identity of the structure. The lack of general guidelines in public policies or specialized literature further amplifies this complexity.


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For example, one of the most distinctive features of modernist architecture is often seen as a significant obstacle to energy efficiency: the large expanses of glass. Architects of that era sought to incorporate as much glass as possible into their buildings to maximize natural light. Additionally, due to the open floor plan, they aimed to dematerialize exterior walls, making them as thin as possible. However, these features must provide more thermal protection and result in substantial energy waste.

AD Classics: Seagram Building / Mies van der Rohe. © Hagen Stier

In light of this paradox, some studies have focused on establishing guidelines for adapting modernist architecture to the current context. These studies suggest that CO2 emissions can be reduced by more than 55% by modernizing building envelopes and implementing available, proven technologies. These include energy recovery (though not recommended for historically designated buildings), incorporating renewable energy sources (such as heat pumps that extract heat from the ground), and photovoltaic energy.

The same research also reports that the estimated modernization costs per square meter for historic three-story buildings would be around 300 euros, while for eleven-story buildings, it would be between 120 and 150 euros per square meter, based on the situation in Poland, where the study was conducted. The research further indicates that the projected modernization costs per occupant range from approximately 4,000 to 6,000 euros, depending on the building. This means that a significant percentage of occupants might not be able to cover these costs, and renovations would need to be subsidized. Among such subsidy initiatives is the EU’s “Renovation Wave” program, launched in 2020, which notes that only 1% of old buildings are renovated annually and aims to increase the renovation rate to 4% per year.

Lacaton & Vassal’s Transformation of 530 Dwellings Through the Lens of Laurian Ghinitoiu. © Laurian Ghinitoiu

Regardless of the solutions found, it is important to highlight that significant damage can be caused to historic property in the name of energy upgrades if the process does not begin with careful consideration of the building’s form, materials, and other architectural qualities. In this context, the goal should be to enable buildings to achieve the best possible performance rather than imposing 21st-century standards on them.

Chandler McCoy, director of the Conserving Modern Architecture Initiative, explains that to improve energy efficiency in modernist buildings, you should first assess the building’s total energy use and then find ways to improve it comprehensively. If the simple glass windows are essential to the building’s historical identity, they should be preserved, and the focus should shift to other areas where improvements can be made. This process requires understanding the building and being creative in finding solutions. Meeting construction standards does not address issues such as historical significance or architectural character.

A successful example is the renovation of a three-block, fifteen-story modernist complex in the Grand Parc neighborhood of Bordeaux. The renovation was led by Anne Lacaton and Jean-Philippe Vassal, Pritzker Prize winners. Following the architects’ motto, “never demolish, never remove or replace, always add, transform, and reuse,” the project involved a meticulous process of restoring and enhancing the key features of the original design. The overall energy performance of the building was also improved, primarily through the addition of balconies and a new thermal insulation system for the facade.

Transformation of 530 dwellings / Lacaton & Vassal + Frédéric Druot + Christophe Hutin architecture. © Philippe Ruault

In an era where Le Corbusier‘s five points become increasingly relevant when integrated with sustainable and environmentally responsive architecture, transforming modernist buildings means keeping them active and in harmony with their surroundings. Above all, it eliminates excuses for their demolition.

This article is part of the ArchDaily Topics: Refurbishment, proudly presented by Sto.

Extending the lifespan of buildings reduces cost and environmental impact, avoiding demolition or more substantial interventions in the future. Sto’s products for facades, facade refurbishment, crack repair, waterproofing, and concrete restoration systems are used on heritage buildings, adaptive reuse projects, renovations and maintenance of new buildings all over the world. Every month we explore a topic in-depth through articles, interviews, news, and architecture projects. We invite you to learn more about our ArchDaily Topics. And, as always, at ArchDaily we welcome the contributions of our readers; if you want to submit an article or project, contact us.





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