Climate change is transforming industry practices across all sectors globally. Construction, especially, is looking toward more resilient designs for buildings to withstand these increasing environmental challenges. Integrating adaptability for unforeseen disasters and climate change effects into building processes contributes to a sounder, greener world.

The climate crisis: where construction stands in 2025

A United Nations Environment Programme report found that 30 per cent of final energy demand was derived from the global building sector in 2022, particularly heating and cooling. Construction materials production accounted for 34 per cent.

In response to the industry’s increasing carbon footprint, the green building market is on a rapid upward trajectory. Experts predict eco-friendly materials will see a 10.4 per cent compounded annual growth rate from 2025 to 2030, or US$47.9 billion.

However, the industry must consider more than just the completed project, since on-site building practices also need to become more sustainable.

For instance, prioritising low-impact site development minimises the effects on the surrounding environment, while implementing a waste management system to recycle and reuse items is also essential.

Even equipment must be considered. Opting for energy-efficient machinery and maintaining it regularly ensures fewer emissions. Likewise, preventive maintenance can reduce unplanned downtime by 52.7 per cent, improving the gear’s life span and allowing you to stay on track with completion timelines.

Despite changes in global power and the potential for lifting green construction standards, the industry will likely continue its environmentally forward thinking in 2025. If your business upholds its sustainability stance, this could be a quicker and more widespread path toward greener infrastructure.

What is resilient design?

Resilient design involves building infrastructure specifically to withstand damage from natural disasters and climate change effects. Because it incorporates green building practices, the construction industry and the built environment can also lower their carbon footprints.

The Resilient Design Institute outlines 10 principles to achieve this goal. Some of these directions cover the following:

• Building infrastructure that can adapt to a changing climate, such as more intense and frequent storms, extreme temperatures, wildfires, sea-level rise and droughts
• Looking to nature for inspiration in creating structural resilience while also conserving the natural environment
• Enhancing durability in building design and ensuring regular maintenance for a longer life span
• Accounting for basic human needs, including potable water, indoor comfort, sanitation, air quality and energy efficiency
• Implementing backup passive and manual systems for electricity, water and transportation to deploy during unexpected events

Adopting resilient design in your construction practices has many benefits. In addition to extending building longevity amid extreme weather conditions and disasters, it promotes greater structural efficiency, lower costs and improved health for all occupants. These buildings also help reduce emissions released from the built environment, creating a more sustainable future.

Implementing resilient design in construction projects

You must take a varied approach to construction projects when implementing resilient design. This means collaborating with everyone involved, from concept to standing structure, including architects, engineers, the supply chain and developers.

A building’s resilient design can include the following to boost its stability amid climate change:

• Passive design: Orient buildings so 40-50 per cent of the structure’s glass faces south for most natural light exposure, with fewer windows facing west and east for optimal thermal comfort.
• Advanced insulation: Use cutting-edge insulation materials, maximising energy efficiency and decreasing heat loss and gain.
• Solar panels: Install rooftop solar for renewable power generation and less dependence on traditional fossil fuel sources.
• Green roofs: Installing rooftop vegetation can reduce up to 70 per cent of the cooling load in buildings.
• Natural ventilation: Limit the need for HVAC operations to improve indoor air quality and achieve energy efficiency.

Materials selection is just as critical to resilient design. You’ll want to focus on recyclables to decrease construction debris. According to a 2022 study, the construction and demolition industries produce 30 per cent of the world’s 2.24 billion metric tonnes of solid waste.

Concrete and stone will also create a more comfortable indoor environment by absorbing heat and regulating temperatures. These materials have a high thermal mass and can resist some of the more substantial impacts of climate change-related disasters.

Policies and Regulations

Transitioning toward resilient design in the construction sector requires new policies and regulations promoting green building. After meeting certain benchmarks, environmentally efficient buildings may receive a Leadership in Energy and Environmental Design (LEED) and Building Research Establishment Environmental Assessment Methodology (BREEAM) certification.

Governments must prioritise structures that can withstand the effects of climate change and positively affect its impacts by revising existing building codes. Likewise, it is crucial to incentivise construction businesses, stakeholders and individuals to invest in sustainability, energy efficiency and resilient design practices.

Resisting climate disaster impacts through resilient design

You play a critical role in creating a more resilient built environment that simultaneously helps mitigate the climate crisis. Regardless of the politics and regulatory rollbacks occurring globally, the construction industry must stay adaptable and sustainable throughout all structural designs.