Spearheading the assessment of flood risk and water quality.
Engineering is, in many senses, about turning the seemingly impossible into the possible.
Designing a first-of-its-kind port for floating wind turbines.
This project aligns with our purpose, to achieve transformative outcomes for our clients, communities and the environment. It’s a force for good.
Empowering women to tackle climate change.
A key project objective has been to engage with hard-to-reach communities and leave no-one behind.
Our people world-over achieve the extraordinary through the projects they help deliver, their contribution to advancing technical and professional knowledge, nurturing new talent, and providing the benefits of their skills and experience to communities, charities and the environment.
Six North American colleagues provide a snapshot.
Realising greater value from projects.
Combining rich social and environmental data with project information empowers clients and investors to achieve better outcomes for people and the planet.
Pushing geotechnical boundaries to save cost and carbon.
Infrastructure is responsible for half of carbon emissions. Addressing that is engineers' responsibility. We engineers have the skills and influence to achieve change, so we must step up.
A driving force behind the observational method.
Geotechnical engineering isn’t magic, but the benefits we can deliver in budget, schedule and environmental and community impact can make it seem like it is.
Setting the baseline for carbon reduction.
In a first for the infrastructure industry, our highways carbon dataset provides an essential baseline for setting emission reduction targets – and it’s open to all.
Using adaptive design to achieve whole-life efficiency and resilience.
We need to get to a place where, if we have a low probability event, possibly decades in the future, we're willing to adapt. We can make passive arrangements, observe the situation, and implement those arrangements if we have to - but only then.
Master planning a pioneering green energy hub.
The whole dynamic of delivering floating offshore wind facilities is different – it’s a project with many moving parts.
Keeping water flowing.
Water and hydropower operators can, for the first time, estimate available water resources in almost real time.
Making risks visible to all.
Geospatial modelling enables an 80% reduction in project hazards.
Pioneering corrosion technology.
Getting the most out of materials is more important now than it’s ever been. Preserving materials saves money, saves energy, saves carbon – it’s the sustainable thing to do.
Visualising the carbon hot spots in major infrastructure.
Carbon Twin equips project teams to quantify and visualise carbon, and then systematically reduce it. At its core is something innate to most new projects: BIM.
Our journey in Singapore began in 1902, when Sir William Henry Preece, an electrical engineering visionary, conducted a feasibility study for electric lighting.
We are looking for enthusiastic, inspiring, and committed people to join our growing team.