The scale of the project transforming swathes of barren salt desert on the edge of western India into one of the most important sources of clean energy anywhere on the planet is so overwhelming that the man in charge can’t keep up.
“I don’t even do the math any more,” Sagar Adani told CNN in an interview last week.
Adani is executive director of Adani Green Energy Limited. He’s also the nephew of Gautam Adani, Asia’s second richest man, whose $100 billion fortune stems from the Adani Group, India’s biggest coal importer and a leading miner of the dirty fuel.
Its clean energy unit AGEL is building the sprawling solar and wind power plant in the western Indian state of Gujarat at a cost of about $20 billion.
It will be the world’s biggest renewable park when it is finished in about five years, and should generate enough clean electricity to power 16 million Indian homes.
Read more at the link in our bio.
📸: Punit Paranjpe/AFP/Getty Images
Talks on a global plastics treaty are reshaping the outlook for sustainable construction, confronting the sector with both regulatory and material-chain disruption. With construction ranked as the second-largest global user of plastics, any curbs on polymer production threaten the availability of insulation foams, membranes and sealants central to sustainable building design. The shift toward verified recycled content and resource efficiency in construction is accelerating the move from voluntary eco-design for buildings toward compliance-driven transformation rooted in circular economy principles.
The rising urgency of decarbonising the built environment is underscored by new data on global warming, pushing embodied carbon and whole life carbon assessment to the centre of procurement and design. Project teams must quantify the carbon footprint of construction through lifecycle assessment and adopt life cycle thinking in construction to reduce embodied carbon in materials. Whole life carbon performance will become a defining compliance metric as clients demand transparent environmental product declarations (EPDs) and measurable carbon footprint reduction across all phases of building lifecycle performance.
Digital underperformance in the sector remains a barrier. Reliable data infrastructure and interoperable systems are vital to trace materials, verify recycled inputs and prove low embodied carbon materials. Without robust building lifecycle data, organisations cannot credibly achieve net zero whole life carbon or ensure low carbon construction materials meet standards for circular construction strategies and end-of-life reuse in construction.
Strategic adaptation requires investment in renewable building materials, low carbon design and evidence-based sustainable material specification. Firms integrating life cycle cost, BREEAM and BREEAM v7 metrics into sustainable building practices will strengthen environmental sustainability in construction and move closer to true carbon neutral construction. The winners will be those who elevate sustainability from compliance to product strategy, embedding green building materials and low-impact construction methods as standard practice in achieving net zero carbon buildings.
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