The quantity of organic solid waste (OSW) discharged by the public has increased
significantly in recent years. Herein, we consider bio-waste and plastic waste. Bio-waste …

Due to the continuous rise in population, modernization, and industrialization, the demand
for energy is increasing day by day, resulting in serious issues such as fossil fuel depletion …

Water-based lubricants (WBLs) have been at the forefront of recent research, due to the
abundant availability of water at a low cost. However, in metallic tribo-systems, WBLs often …

Hydrogen is a source of clean energy as it can produce electricity and heat with water as a
by-product and no carbon content is emitted when hydrogen is used as burning fuel in a fuel …

Pyrolysis is a viable thermochemical conversion (TCC) process to convert waste plastics into
useful chemicals and alternative energy. Specifically, co-pyrolysis of plastics with biomass …

This study aimed to quantify the co-pyrolysis of textile dyeing sludge (TDS) and the two
medical plastic wastes of syringes (SY) and medical bottles (MB) in terms of their …

The production and accumulation of sludge, as well as other biomass wastes, places a long-
term burden on the urban ecosystem. Pyrolysis is an advanced waste disposal technology …

Phosphonium-based room temperature ionic liquids (P-RTILs) offer outstanding lubricant
properties. Studies have shown that the cationic chain length and anionic ring size …

The increasing global fuel consumption and growing environmental concerns are the
impetuses to explore alternative energy that is clean and renewable for fuel production …

The co-reaction synergy of wheat straw (WS) and high-density polyethylene (HDPE) plastic
waste with varying mass ratios were evaluated at 550° C in a fixed bed pyrolyzer reactor. Ex …