Construction and Landscape

As the earth gets warmer, the cooling of living and working spaces requires more energy. Governments are enacting standards for eco-friendly buildings in response to increasing concerns about rising energy use and carbon emissions. A novel “self-cooling” solution can help buildings and automobiles to cool down without heavily relying on air conditioning, leading to greater energy savings. The technology offer is a high-performance passive radiative cooling paint (PRCP) using emerging nanomaterial technology. Different from conventional paint, this cooling paint combines high solar reflectivity with high thermal emissivity. Hence, the paint can reflect incoming solar radiation and emit thermal radiation simultaneously, achieving effective cooling even under direct sunlight.  The technology owner is interested in R&D collaboration and test-bedding with commercial and residential building owners, property developers and construction companies. The technology is also available for out-licensing to paint developers and manufacturers.

High-risk industrial sectors, notably the chemical industry, frequently experience severe safety incidents during production. Traditional risk management approaches, heavily reliant on manual efforts, often suffer from inadequate supervision, incomplete coverage, and suboptimal control. Addressing these challenges, the tech provider offers an advanced solution combining artificial intelligence technologies such as computer vision, the Internet of Things (IoT), and big data analytics. By utilizing existing enterprise cameras and sophisticated algorithmic servers, it establishes a video-based intelligent analysis platform for hidden risk management. This platform enhances overall safety through comprehensive risk perception, proactive hazard identification, predictive warnings, and visual decision-making aids, aiming for widespread and intelligent safety management across high-risk industrial environments.

Fibre reinforced polymer (FRP) is widely used for blast protection and structural reinforcement of concrete elements in buildings and infrastructure. However, conventional FRP solutions have limitations due to labour-intensive applications such as on-site preparation and resin mixing, inconsistent quality, long curing time, and low productivity. The technology is a glass fibre reinforced polymer (GFRP) roll pre-saturated with a tacky resin system that can be easily applied to structural elements like “double-sided tape”. The resin-infused GFRP can fully cure in natural light within a few hours, strengthening the structure with only a marginal increase in wall thickness. A fire-retarding version of GFRP is also available. The GFRP solution is fast and efficient with minimal on-site tools and less dependent on workmanship skills. The technology is available for IP licensing and collaboration with industrial partners who are interested in adopting the fast-curing GFRP technology in their products and applications.

Current methods of monitoring construction safety and productivity are tedious, costly and prone to human errors. Resulting in operations being non-compliant, dangerous and inefficient which leads to project delays, cost overruns and even reputational damage. This technology offers an enhanced safety and productivity tracking solution in the construction industry by leveraging on video analytics to detect safety hazards and high-risk scenarios as well as productivity insights. It provides actionable insights in the form of alerts, charts and reports to enable safety officers and project managers to make better-informed decisions for their operations.