Wind-Powered Device Converts Air into Ammonia

Karmactive Team

Photo Source: Peter Steiner 🇨🇭 1973 (Pexels)

Stanford researchers craft wind-powered device producing ammonia from air, aiming to replace energy-intensive Haber-Bosch process that generates 1% of global CO2.

Traditional ammonia production consumes 2% worldwide energy, while agriculture contributes one-third of greenhouse emissions according to UN Environment Programme.

Photo Source: Mark Stebnicki (Pexels)

Photo Source: Ron Lach (Pexels)

Richard Zare's team successfully tested eco-friendly technology outside lab conditions, producing ammonia at room temperature without external voltage sources.

Catalytic mesh system studied under various environmental factors including humidity, wind speed, salt levels to optimize ammonia generation process.

Photo Source: Mikhail Nilov (Pexels)

Photo Source: EqualStock IN (Pexels)

Laboratory tests using microporous stone filter and water recycling system achieved greenhouse-grade fertilizer concentration within two hours.

Research duo Xiaowei Song and Chanbasha Basheer confirm device needs 2-3 years development before market introduction, planning larger mesh systems.

Photo Source: Chokniti Khongchum (Pexels)

Photo Source: Jörn Sommer (Pexels)

Ammonia's superior energy density compared to hydrogen positions it as efficient renewable energy storage medium for shipping and power sectors

Study published December 13 in Science Advances receives funding from US Air Force Office of Scientific Research and King Fahd University.

Photo Source: Oliver Wright  (Pexels)

Photo Source: Pixabay (Pexels)

Technology integration into irrigation systems enables farmers to generate fertilizer directly from air using wind energy.

Researchers explore scaling possibilities through increasingly large mesh systems for enhanced ammonia production capacity.

Photo Source: Pavel Danilyuk (Pexels)

Next Story

Sensors Detect Plant Dehydration 48 Hours Early