The intensification of municipal-solid-waste (MSW) production, energy usage,
and the curb of the landfill have developed the need for our society to use
MSW under the vision of a waste-to-energy (WTE) approach to eradicating MSW
as well as to address the energy issues across the world. WTE alteration is
an environment-friendly way of disposing of MSW. This study examines the
usage of plastic, wood, and paper for RDF production. The RDF is solitary of
MSW energy yields, whose dependability and superiority are analysed in the
current work. Two different RDFs have been obtained from diverse waste
streams at the plant site to find the finest RDF based on energy efficiency.
Plastics, wood, and paper are the principal constituents in the method of
occupied RDFs. The results exhibited that the RDF-PA holds a high amount of
carbon as-well-as hydrogen content and a decent calorific value, which leads
to better fuel quality. The retention time under combustion and pyrolysis,
the volatile matter portion of RDFs, has increased accordingly. As per
obtained results, RDF-PA is a good option for energy applications and fuel
for combustion and pyrolysis reactions.