Biomass and polymeric wastes are becoming more problematic economically and
environmentally. Their co-pyrolysis could be a cost-effective and environmentally preferable …

Fast pyrolysis is commonly used in industrial reactors to convert waste tires into fine
chemicals and fuels. However, current thermogravimetric analyzers are facing limitations …

Converting algal biomass to clean energy via a thermochemical pathway is an emerging
technique for tackling environment and energy issues. Traditional kinetic studies on biomass …

Biowastes are marked sources of global greenhouse gas emissions, however, locally
accessible biowaste could be a sustainable source for biofuel production to generate clean …

Waste from scrap tyres, due to its high volume (17 million Mg per year) and durability
resulting from the physical and chemical properties, requires innovative approaches for …

Pyrolysis is an effective method for waste tire disposal. However, it has rarely been used to
recycle specific highly valuable components (such as benzene, toluene, and xylene (BTX)) …

Waste tires are solid wastes with high-value production and the potential to cause severe
environmental damage. There has been a clear-cut decline in innovation in tire disposal …

Microalgal biomasses have been established as promising biosorbents for biosorption to
remove heavy metal ions (HMIs) from wastewaters and contaminated natural waterbodies …

This study investigated a coupling strategy for comprehensive utilization of distillers' grains
(DGs), which integrated anaerobic digestion (AD) and chemical looping gasification (CLG) …

The selective upgrading of polyethylene waste into light aromatics is hampered by relatively
high C–C bond cleavage temperatures and low product selectivity. Herein, we report a low …