Helping clients address a defining issue of our time
We recognise that to fulfill our promise to design with community in mind, we need to consider climate change in our project work.
Our approach is summarised in the Climate Solutions Wheel.
Technical and nature-based solutions that drive the removal of net greenhouse gas emissions from the atmosphere.
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Mitigation
Actionable plans to drive climate change adaptation and mitigate GHG emissions.
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Mitigation & Adaptation Planning
Adapting to predicted climate conditions to create the resilient communities of tomorrow.
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Adaptation
Performing risk assessments to develop climate change adaptation and GHG mitigation plans—both components of a strong ESG programme.
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Advisory Services
Benchmark performance against industry peers and standardised frameworks to help achieve climate goals.
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Benchmarking
Understand potential impacts on infrastructure and communities by modelling climate change scenarios.
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Modelling
Stakeholder engagement to create transparency and mutual understanding of climate action, risk, and resiliency.
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Stakeholders
Identification of both the physical and transition risks associated with climate change.
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Vulnerability & Risk
Environmental, social, and governance (ESG) goals guide corporate decision-making.
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ESG
Reducing greenhouse gas emissions by shifting to efficient, reliable, and renewable energy sources.
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Energy Transition
Using natural systems and processes to buffer against extreme weather events and capture carbon.
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Nature-Based Solutions
Using engineered solutions to assist in climate change adaptation and the transition to the low carbon economy.
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Engineered Solutions
Wastewater reuse and pumped storage hydropower are a few ways that water can support a resilient and sustainable energy future.
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Water-Energy Nexus
Transport systems are becoming electrified, autonomous, and more resilient.
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Transport
Community and building design is evolving to support climate adaptation and the transition towards a low-carbon economy.
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Communities & Buildings
Transitioning to the low carbon economy requires sustainable mineral extraction and enhanced recycling of battery materials.
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Battery materials
Battery storage systems support the energy transition, increasing the reliability of renewable energy systems.
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Battery storage
Microgrids provide reliable and stable power and reduce carbon emissions by creating small electrical generation and storage networks.
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Microgrids
Hydropower continues to be a low carbon form of energy generation while pumped storage creates a dispatchable electricity supply.
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Hydropower / Pumped storage
Hydrogen produced by renewable sources is increasingly viewed as an important fuel for hard to decarbonise industries like transportation and heavy industrial.
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Hydrogen
Geothermal energy plays an important role in powering some global economies.
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Geothermal
Wind energy continues to scale up, including in offshore wind farms where net capacity factors are higher.
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Wind
Efficiencies of scale and lower manufacturing costs are helping to make solar the fastest growing renewable energy source.
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Solar
Biofuels play a role in decarbonisation by decreasing waste streams and powering industry.
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Biogas / Fuels
Small modular reactors support the energy transition by providing low carbon power with a more affordable price and predictable permitting pathway than traditional nuclear reactors.
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Small modular reactor
Companies are reducing their carbon footprint by identifying the unintentional release of greenhouse gases (fugitive emissions).
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Fugitive emissions
Renewable energy and natural systems can help repurpose existing fossil fuel sites and support the energy transition.
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Decommissioning fossil fuel facilities
Capturing source carbon dioxide from the atmosphere or at the point of production for permanent storage or future use mitigates greenhouse gas emissions.
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Carbon capture: point source & direct air
Forests, new and old, play a significant role in carbon sequestration while providing other environmental and social benefits.
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Forests
Wetland communities support climate change adaptation by creating natural habitat, improving water quality, and providing stormwater control.
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Wetlands
Prairies and peatlands have an important biodiversity function and capture carbon through sequestration.
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Grasslands/ Peatlands
Climate change impacts coastal communities due to sea level rise, coastal flooding and erosion, ocean temperature, acidity, and salinity.
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Coasts & seas
Repairing streams and rivers after extreme weather events help communities and natural systems become more resilient to climate change.
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Rivers & streams
Submerged aquatic vegetation along lakes and shorelines provide natural carbon storage and local food resources.
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Lakes & shorelines
Blue and green infrastructure helps improve communities, wildlife habitat, noise pollution, and water and air quality while mitigating GHG emissions.
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Blue / green corridors
Geoengineering is advancing our understanding of technology interventions in removing greenhouse gas emissions from the atmosphere.
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Geoengineering
Coastal resilience projects provide infrastructure protection, protect against sea level rise, and enhance coastal communities.
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Coastal resilience
A climate adaptation strategy requires stormwater engineers to model future conditions predicted by changes in precipitation.
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Inland flooding
Reviewing and assessing infrastructure helps build resiliency against future climate change related weather events.
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Structural assessments
Communities may benefit from resiliency hubs to deal with natural disasters—good design and planning can also support daily life too.
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Disaster planning / response
Aquaculture, hydroponics, aquaponics, agrivoltaics, and vertical farming can all help create resiliency in our global food supplies.
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Food security
Reliable power plays an important role in community resiliency during climate change related extreme weather events.
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Power transmission & distribution
Adaptive capacity assessments help communities understand their ability to recover from extreme climatic events.
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Adaptive capacity assessments
Developing water policy and applying emerging technologies are a key part of connecting the water-energy nexus.
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Policy & technology
Wastewater can be a viable component of the circular economy creating products like industrial chemicals and biofuels.
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Treatment reconfiguration
A sustainable future relies on a circular economy, one in which water plays a central role.
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Water resource optimization
Designing streets for all users and all modes of transportation helps with social value and mitigating climate change.
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Complete streets
Transitioning towards zero-emission vehicles reduces greenhouse gases associated with transporting people and goods.
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Zero-emission vehicles / Smart mobility
Food grown in urban settings using the built environment help to feed high-density populations while addressing the impact global food supplies have on climate change.
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Decentralization
Nature-based solutions and thoughtful design help urban communities adapt to climate change by reducing ambient heat associated with man-made materials.
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Urban heat assessments
Understanding low carbon alternates for materials in your supply chain is a key part of transitioning to net zero.
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Low carbon materials
Roofs covered in vegetation support urban farming, provide shade, and help to reduce roof and adjacent air temperatures.
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Green roofs
Retrofitting existing buildings reduces embodied carbon emissions by prolonging the useful life of existing materials.
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Building retrofits
Energy efficiency is not just about emissions reduction, it is also about energy productivity (aka the bottom line).
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Energy efficiency
Supporting the energy transition, net zero, and net positive buildings produce as much or more than they consume annually.
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Net zero / Net positive
Reducing greenhouse gas emissions as much as possible with the balance of emissions being removed from the atmosphere and sequestered.
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Net Zero
The ability to adapt to and recover from hazardous events (like climate change) to maintain functionality is creating the resilient communities of tomorrow.
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Resiliency
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Benchmarking
ESG
Mitigation & Adaptation Planning
Modeling
Stakeholders
Vulnerability & Risk
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Advisory Services
Communities and Buildings
Energy Transition
Engineered Solutions
Nature-based Solutions
Transport
Water/Energy Nexus
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Battery Materials
Battery Storage
Biogas / Fuels
Carbon capture: point source & direct air
Decommissioning fossil fuel facilities
Fugitive emissions
Geothermal
Hydrogen
Hydropower / Pumped Storage
Microgrids
Small modular reactor
Solar
Wind
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Policy & technology
Treatment reconfiguration
Water resource optimization
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Complete Streets
Decentralization
Zero-emission vehicles / Smart mobility
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Blue / green corridors
Coasts & seas
Forests
Grasslands / Peatlands
Lakes & shorelines
Rivers & streams
Wetlands
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Adaptive capacity assessments
Coastal resilience
Disaster planning / response
Food security
Geoengineering
Inland flooding
Power transmission & distribution
Structural assessment
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Building retrofits
Energy efficiency
Green roofs
Low carbon materials
Net zero / Net positive
Urban heat assessments
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