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
A severe UK cold spell has provided a live test for low carbon heating technologies, demonstrating that well‑installed heat pumps can outperform gas boilers even under high demand. Findings from thousands of homes reinforce the potential for sustainable construction and eco‑friendly construction as the industry accelerates towards net zero carbon buildings. The data strengthens confidence in low carbon design, showing that performance hinges on sustainable building design, robust fabric efficiency and competent commissioning—core principles of green construction and life cycle thinking in construction.
The energy market is rapidly aligning with this transition. Hourly carbon‑free electricity tariffs are enabling property owners to verify supply with net zero Whole Life Carbon performance, supporting Whole Life Carbon Assessment as a standard procurement metric. This shift offers developers and end users both measurable carbon footprint reduction and fiscal gains through demand flexibility, reinforcing the case for decarbonising the built environment. Integrating smart controls, submetering and dynamic tariffs in building services now links operational energy performance directly to whole life carbon outcomes and long‑term Life Cycle Cost savings.
For architects, contractors and housing providers, the priority lies in specifying low embodied carbon materials, optimising embodied carbon in materials, and applying lifecycle assessment across all stages of design and delivery. Adoption of recognised frameworks such as BREEAM and BREEAM v7 will support certification credibility and demonstrate environmental sustainability in construction. The convergence of digital design, Circular Economy in construction, and circular construction strategies is positioning the sector towards demonstrably carbon neutral construction. Competitive advantage now depends on embedding sustainable building practices, data‑driven building lifecycle performance, and verified environmental product declarations (EPDs) into every project.
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