The extensive production and consumption of plastics has resulted in significant plastic
waste and plastic pollution. Polyvinyl chloride (PVC) waste has a high chlorine content and …

Advanced plastic waste recycling via pyrolysis and subsequent steam cracking of pyrolysis
oils has the potential to partly close the cycle between the petrochemical production of …

Polyvinyl chloride (PVC) plastic wastes can bring a series of problems during pyrolysis or
incineration such as the emission of dioxins, corrosion, slagging in the reactors, etc …

Solid waste containing heavy metals, halogens and other hazardous substances can cause
harm to humans and environment. It is a central issue that how to treat solid waste effectively …

Poly (vinyl chloride)(PVC) has continued to be a research topic in polymer science since its
discovery in the early 19th century. Its internal structural defects, which stem from its direct …

This paper reviews the latest research findings on the combined treatment of both electric
arc furnace dust (EAFD) and halogenated plastic wastes, mainly polyvinyl chloride (PVC) …

Plastics are essential materials for various products such as packaging and containers,
electrical and electronic equipment, and automobiles. Japanese production of polymers was …

Copper‐free azide‐alkyne click chemistry is utilized to covalently modify polyvinyl chloride
(PVC). Phthalate plasticizer mimics di (2‐ethylhexyl)‐1H‐triazole‐4, 5 dicarboxylate (DEHT) …

To remove chlorine from chlorinated wastes efficiently, the hydrothermal treatment (HT) of
PVC was investigated with a lower alkaline dosage in this work. Some typical operating …

The chemical degradation of PVC waste in SCW between 400 and 425° C and reaction
times from 30 to 60 min was studied. The PVC waste in SCW decomposed into the gas, oil …