Sustainability Initiatives

Battery Units

A battery unit designed for site offices provides an efficient solution for nighttime power needs, particularly beneficial for locations near residential areas due to its minimal noise pollution. With an estimated power storage capacity of up to 300 kWh, it can effectively support lighting and essential equipment and communication management (ECM) usage on site. Drawing from practical experience, this battery unit can sustain current usage for approximately 6 to 9 hours, ensuring uninterrupted operations while maintaining a quiet environment for nearby residents.

Carbon Mineralised Concrete

Carbon mineralized concrete offers a sustainable solution to reduce the carbon footprint of construction projects by permanently absorbing industrial waste carbon dioxide. This process converts the CO2 gas into a solid mineral, which is then embedded within the concrete. Not only does this innovation help sequester carbon, but it also enhances the performance of the concrete. Additionally, it reduces cement consumption by up to 20 kg per cubic meter of concrete, effectively lowering CO2 emissions by an equivalent amount. This dual benefit of improved material properties and significant carbon reduction makes carbon mineralized concrete a valuable advancement in eco-friendly construction practices.

Concrete AI

Concrete AI significantly enhances construction productivity by monitoring in-situ strength development, allowing for timely progression to subsequent construction stages. This advanced technology decreases carbon emissions by reducing the reliance on destructive cube tests and the associated transportation, thereby promoting more sustainable practices. Furthermore, Concrete AI improves quality assurance by effectively identifying variations in concrete mixtures, ensuring consistent and reliable material performance throughout the project.