The objective of this research is to produce oil from the catalytic pyrolysis of waste polypropylene (WPP) using a low-cost natural catalyst. Three natural catalysts were examined, i.e. Kaolin, ...

Dr. Byungwook Hwang's research team from the CCS Research Department at the Korea Institute of Energy Research (KIER) has successfully developed a process that applies the circulating fluidized bed ...

Under pressure from activists and state environmental authorities, Freepoint Eco-Systems has suspended operations at its new ...

Evonik introduces catalysts and adsorbents that purify pyrolysis oil, turning plastic waste into high-quality feedstock.

To facilitate resource utilization of waste tires (WT) and oily sludge (OS), waste tire-sludge adsorbent (WTSA) was developed using co-pyrolysis technology, and its effectiveness in adsorbing crude ...

Methods that don't employ a catalyst, though, tend to have low rates of converting the waste into products of use. For this project, the researchers found a way around both of these obstacles and ...

The mounting global plastic waste crisis has compelled scientists and engineers to seek novel solutions. Among the various technologies being explored, the pyrolysis of plastic waste has emerged as a ...

Significant market opportunities exist in advanced recycling technologies, driven by global awareness of plastic waste and ...