Pyrolysis and gasification represent two complementary thermochemical pathways for converting solid waste—ranging from municipal refuse and sewage sludge to agricultural residues and plastics—into ...

Catalytic pyrolysis has emerged as a versatile process for transforming mixed plastic waste into fuels and chemical feedstocks under an inert atmosphere at elevated temperatures. By coupling thermal ...

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 ...

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 ...

Images of plastic mountains at landfills and islands of floating plastics in our oceans demonstrably show that we are living in an age of immense consumer consumption. A rising worldwide population ...

The growing emphasis on reducing the carbon dioxide emissions from fossil fuel-based power plants has increased the importance of harnessing clean and renewable sources such as wind to generate energy ...

The US Environmental Protection Agency has proposed to remove air emission regulations from plastic pyrolysis plants, also known as chemical or advanced recycling facilities, that break down plastic ...