The role of temperature in maximizing olefin yield and minimizing catalyst fouling during plastic waste pyrolysis is critically analyzed in this research.

Dakota BioChar brings unique ideas to boost both crop agriculture and wildfire mitigation.

Researchers have developed a new eco friendly method to transform biochar into a highly hydrophobic material that can repel water and absorb large ...

Researchers have developed a practical and low cost method to transform agricultural waste into high quality biochar, ...

A new study reports a promising approach to transform agricultural and industrial waste into high-performance porous carbon materials that could help ...

High-temperature pyrolysis at the forefront of the energy transition When talking about real innovation in the cleantech sector, CHAR Technologies is currently hard to ignore. The Toronto-based ...

Green tides, characterised by massive blooms of the seaweed Ulva, pose a significant threat to coastal economies and marine ecosystems. This review explores the potential repurposing of harmful Ulva ...

Borges BMMN, Strauss M, Camelo PA, Sohi SP & Franco HCJ. 2020. Re-use of sugarcane residue as a novel biochar fertiliser - Increased phosphorus use efficiency and ...

Pyrogenic carbon, a carbon rich material produced when biomass burns or is converted into biochar, is widely found in soils, sediments, and aquatic environments around the world. Scientists have long ...

Clariant's HDMax™ catalyst successfully achieves complete conversion of plastic waste-derived pyoil to cracker-grade ...