Summary

The paper investigates the potential of microwave-assisted pyrolysis for the conversion of waste plastics into valuable products such as bio-oil and char. The study focuses on the effects of operational parameters like temperature, heating rate, and feedstock composition on the yield and quality of the products. The results indicate that microwave-assisted pyrolysis offers a more efficient and environmentally friendly method for waste plastic valorization compared to conventional pyrolysis techniques. This study investigates the properties of a Korean lunar regolith simulant (KICT) and its behavior under different thermal and mechanical conditions. The research focuses on the dielectric properties of the simulant and its potential for use in lunar construction applications. The study also explores the effects of temperature and frequency on the dielectric properties of the simulant, which is crucial for understanding its performance in the harsh lunar environment. The findings suggest that the KICT simulant has promising dielectric properties that make it suitable for use in lunar habitats and other space applications. The provided text is a series of URLs and file names associated

Methods and applications