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Among the existing methods of TMS processing, the most attention is paid to pyrolysis due to such advantages of this method as a high level of process control, the ability to adapt the process to a different composition of raw materials with a high yield of target products with specified characteristics, a closed-loop process, etc. [1, 2]. The study is devoted to the study of the process of co-pyrolysis and is aimed at developing a technology for thermocatalytic processing of complex organic waste of anthropogenic...

With the rapid growth of polymer consumption, the issue of efficient recycling and disposal of plastic waste is becoming increasingly pressing. One promising approach is thermal degradation (pyrolysis), which yields valuable hydrocarbon products [1]. Of particular interest is the recycling of polyethylene with increased thermal stability (PE-RT) with the addition of octylene-1. This material combines thermal stability, mechanical strength, flexibility, chemical resistance, and processability, making it a highly ef...

As part of this study, a comprehensive thermogravimetric analysis of biomass oxidation was conducted to study its thermal decomposition and determine its kinetic characteristics in an oxidative environment. This work is of great importance for the development of sustainable energy, the optimization of combustion and co-combustion processes, and the minimization of environmental damage through more efficient use of biomass. The experiments involved measuring the mass change of biomass samples (sawdust from hardwood...