Kinetics of thermal de-chlorination of PVC under pyrolytic conditions
- CVR - Centro para a Valorizacao de Residuos (Center for Waste Valorization), Guimaraes (Portugal)
- CT2M - Centre for Mechanical and Materials Technologies, Mechanical Engineering Department of Minho University, Guimaraes (Portugal)
Highlights: Black-Right-Pointing-Pointer Several tests were performed in DTA/TGA for understanding the thermal behavior of pure PVC. Black-Right-Pointing-Pointer We did a kinetic model for the de-chlorination of PVC molecule. Black-Right-Pointing-Pointer A temperature of 340 Degree-Sign C was defined as the optimum temperature for breaking the bond of chlorine in the PVC molecule. Black-Right-Pointing-Pointer The experimental validation of this temperature, led to a removal rate of 99.9% chlorine. - Abstract: Although PVC-containing wastes are an important potential source of energy they are frequently disposed in landfill. In thermal treatment processes such as pyrolysis and gasification, the presence of poly(vinyl chloride) (PVC), a compound with 56.7% of chlorine, may cause problems concerned with environmental protection, as consequence of the formation of hydrochloric acid, chlorine gas and dioxins, as well as corrosion phenomena of the reactor/equipment materials. Thus, a possible solution may involve a previous removal of the chlorine from PVC containing waste through a pyrolysis process at low temperatures before the material being submitted to a subsequent thermal treatment, for energetic valorization. In this work, a kinetic model for the thermal decomposition of PVC has been developed, in view of its de-chlorination. DTA/TGA testing at different temperatures indicated a first order reaction and an activation energy of 133,800 J/mol. An almost completed de-chlorination reaction was obtained at 340 Degree-Sign C under an inert atmosphere. The resulted material is a C{sub n}H{sub n} type polymer with potential to be used in an energy recovery process. Validation test performed at laboratory scale indicate that the temperature of 340 Degree-Sign C enables the removal of {approx}99.9% of the chlorine present in PVC. The chloride can be fixed in the form of an aqueous solution of HCl or calcium chloride, driving to an alternative full process with environmental benefits and reduction of the costs associated to the PCV - containing materials/wastes management.
- OSTI ID:
- 21612965
- Journal Information:
- Waste Management, Vol. 32, Issue 5; Other Information: DOI: 10.1016/j.wasman.2012.01.004; PII: S0956-053X(12)00018-9; Copyright (c) 2012 Elsevier Science B.V., Amsterdam, The Netherlands, All rights reserved.; Country of input: International Atomic Energy Agency (IAEA); ISSN 0956-053X
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
ORGANIC
PHYSICAL AND ANALYTICAL CHEMISTRY
12 MANAGEMENT OF RADIOACTIVE WASTES, AND NON-RADIOACTIVE WASTES FROM NUCLEAR FACILITIES
ACTIVATION ENERGY
AQUEOUS SOLUTIONS
CALCIUM CHLORIDES
CHLORINATION
CHLORINE
CORROSION
COST
DIOXIN
ENERGY RECOVERY
ENVIRONMENTAL PROTECTION
GASIFICATION
HEAT TREATMENTS
HYDROCHLORIC ACID
INERT ATMOSPHERE
PVC
PYROLYSIS
REACTION KINETICS
SANITARY LANDFILLS
VALIDATION
WASTE PROCESSING
ALKALINE EARTH METAL COMPOUNDS
ATMOSPHERES
CALCIUM COMPOUNDS
CALCIUM HALIDES
CHEMICAL REACTIONS
CHLORIDES
CHLORINATED ALIPHATIC HYDROCARBONS
CHLORINE COMPOUNDS
CONTROLLED ATMOSPHERES
DECOMPOSITION
DISPERSIONS
ELEMENTS
ENERGY
HALIDES
HALOGEN COMPOUNDS
HALOGENATED ALIPHATIC HYDROCARBONS
HALOGENATION
HALOGENS
HETEROCYCLIC COMPOUNDS
HOMOGENEOUS MIXTURES
HYDROGEN COMPOUNDS
INORGANIC ACIDS
INORGANIC COMPOUNDS
KINETICS
MANAGEMENT
MIXTURES
NONMETALS
ORGANIC CHLORINE COMPOUNDS
ORGANIC COMPOUNDS
ORGANIC HALOGEN COMPOUNDS
ORGANIC OXYGEN COMPOUNDS
ORGANIC POLYMERS
POLYMERS
POLYVINYLS
PROCESSING
SOLUTIONS
TESTING
THERMOCHEMICAL PROCESSES
WASTE DISPOSAL
WASTE MANAGEMENT