Study of the emissions from pyrolytic and oxidative thermal decomposition of PVC


Autoria(s): Edo Giménez, María del Mar; Aracil, Ignacio; Font Montesinos, Rafael
Contribuinte(s)

Universidad de Alicante. Departamento de Ingeniería Química

Universidad de Alicante. Instituto Universitario de Ingeniería de los Procesos Químicos

Residuos, Energía, Medio Ambiente y Nanotecnología (REMAN)

Data(s)

30/06/2015

30/06/2015

2014

Resumo

Polyvinyl chloride (PVC) is one of the plastics most extensively used due to its versatility. The demand of PVC resin in Europe during 2012 reached 5000 ktonnes1. PVC waste management is a big problem because of the high volume generated all over the world and its chlorine content. End-of-life PVC is mainly mixed with municipal solid waste (MSW) and one common disposal option for this is waste-to-energy incineration (WtE). The presence of plastics such as PVC in the fuel mix increases the heating value of the fuel. PVC has two times higher energy content than MSW ‒around 20 MJ/kg vs 10 MJ/kg, respectively. However, the high chlorine content in PVC resin, 57 wt.%, may be a source for the formation of hazardous chlorinated organic pollutants in thermal processes. Chlorine present in the feedstock of WtE plants plays an important role in the formation of (i) chlorine (Cl2) and (ii) hydrochloric gas (HCl), both of them responsible for corrosion, and (iii) chlorinated organic pollutants2. In this work, pyrolytic and oxidative thermal degradation of PVC resin were carried out in a laboratory scale reactor at 500 ºC in order to analyze the influence of the reaction atmosphere on the emissions evolved. Special emphasis was put on the analysis of chlorinated organic pollutants such as polychlorodibenzo-p-dioxins (PCDDs), polychlorodibenzofurans (PCDFs) and other related compounds like polychlorobenzenes (PCBzs), polychlorophenols (PCPhs) and polycyclic aromatic hydrocarbons (PAHs). Another objective of this work was to compare the results with those of a previous work3 in which emissions at different temperatures in both pyrolysis and combustion of another PVC resin had been studied; in that case, experiments for PCDD/Fs emissions had been performed only at 850 ºC.

Support for this project was provided by the Spanish MEC, research project CTQ2008-05520 and the Valencian Community Government with the research project Prometeo/2009/043/FEDER.

Identificador

Organohalogen Compounds. 2014, 76: 1055-1058

1026-4892

http://hdl.handle.net/10045/47977

Idioma(s)

eng

Publicador

Federal Environmental Agency

Direitos

© Organohalogen Compounds

info:eu-repo/semantics/openAccess

Palavras-Chave #PVC #Pyrolytic and oxidative thermal degradation #Emissions #Ingeniería Química
Tipo

info:eu-repo/semantics/article