Nano4PAnMBR aims to develop an advanced and viable PAD technology by integrating nanomaterials and MBR technology to boost renewable bioenergy production.
Looking forward to IWA AD19 in València, Spain, 9-13 June 2026! 🇪🇸 A great opportunity to connect with the global AD community and discuss how AD can fuel sustainability via waste valorisation, bioenergy, bioproducts, and microbial innovation. ♻️
#IWAAD19#AnaerobicDigestion
Dose matters in nZVI-assisted AD 🧪https://t.co/VS6R18GUPA
Nano ZVI enhanced CH4 production by up to 23.8% and reduce ARGs, likely via H₂ generation and DIET. But excessive nZVI inhibited CH4 due to ROS and microbial stress. ⚠️
#AnaerobicDigestion#nZVI#Bioenergy#ARGs
Zero-valent iron nanoparticles in anaerobic digestion 🧪⚙️
nZVI shows potential for methane enrichment during sewage sludge digestion, but operational variability and organic loading rate matter. 🌱💨
https://t.co/qiV0XuZtto
#Biogas#AnaerobicDigestion#ZVI
Cold isn’t the limit — design is.
❄️Psychrophilic AD can cut energy input, but performance drops due to mass transfer, microbial, and kinetic constraints. The solution? Smarter reactor design.
🔗 https://t.co/tzc81El4ZY
#PsychrophilicAnaerobicDigestion#Bioenergy#WasteToEnergy
We are investing nearly €400 million to help researchers take their work across the EU and collaborate with the best scientific teams.
The 2026 Marie Skłodowska-Curie Actions Postdoctoral Fellowships are now open.
More ↓
https://t.co/9HTufXQJes
📢 Recent review related to AD intensification and psychrophilic AD research. 🔬♻️❄️:
Bioaugmentation-assisted AD for methane production: performances, microbiome functionalities, and key challenges.
https://t.co/cng6PbxVO6
#PsychrophilicAD#Bioaugmentation#WasteToEnergy
Sustainable biochar-enhanced upcycling solutions for Zero-Waste valorization of organic waste into circular economy products (Bio4UP), coordinated by the GICOM group from the Department of Chemical, Biological and Environmental Engineering, UAB, Barcelona.
https://t.co/JkDOsdKm1M
Bioaugmentation enhances the degradation of propionate under psychrophilic anaerobic digestion, addressing its accumulation limitation! Highly recommended! https://t.co/sIiBNowQp8
🚀 Excited to share my #MarieCurie Postdoctoral Fellowship project: Nano4PAnMBR! 🌱♻️ We aim to enhance psychrophilic anaerobic digestion for efficient bioenergy recovery from pig manure 🐷⚡ by integrating membrane bioreactors (MBR) and nanomaterials.
📢 Stay tuned for updates!