A LAB-SCALE MICROWAVE SYSTEM FOR EXPERIMENTS OF HIGH TEMPERATURE WASTE PYROLYSIS

Salvatore Nicosia; Aurelio Agliolo  Gallitto; Placido Alfredo Lanza

A LAB-SCALE MICROWAVE SYSTEM FOR EXPERIMENTS OF HIGH TEMPERATURE WASTE PYROLYSIS

Salvatore Nicosia, Aurelio Agliolo Gallitto, Placido Alfredo Lanza

Risultato della ricerca: Other › peer review

Abstract

The reactor designed and assembled at Università degli Studi di Palermo - presented here -was conceived to explore high unit power input, high temperature reductive processes.Its main field of use therefore is likely to be the destruction of liquid waste fed as an aerosol; or of VOCs; or of granular waste making a fluidized bed. If required, a 3 - phase system including a solid catalyst could also be set up. These waste should be free of low - melting or boiling metals. Incidentally, a literature review shows that the compounds taken as benchmarkin thermal VOC destruction are trichloroethylene, benzene and toluene.At lower unit power rates this MW - based system lends itself also to recoveringuseful fractions from complex waste like WEEE (Waste of Electrical and Electronic Equipment), through pyrolysis and gasification.

Lingua originale	English
Pagine	486-487
Numero di pagine	2
Stato di pubblicazione	Published - 2016

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title = "A LAB-SCALE MICROWAVE SYSTEM FOR EXPERIMENTS OF HIGH TEMPERATURE WASTE PYROLYSIS",

abstract = "The reactor designed and assembled at Universit{\`a} degli Studi di Palermo - presented here -was conceived to explore high unit power input, high temperature reductive processes.Its main field of use therefore is likely to be the destruction of liquid waste fed as an aerosol; or of VOCs; or of granular waste making a fluidized bed. If required, a 3 - phase system including a solid catalyst could also be set up. These waste should be free of low - melting or boiling metals. Incidentally, a literature review shows that the compounds taken as benchmarkin thermal VOC destruction are trichloroethylene, benzene and toluene.At lower unit power rates this MW - based system lends itself also to recoveringuseful fractions from complex waste like WEEE (Waste of Electrical and Electronic Equipment), through pyrolysis and gasification.",

author = "Salvatore Nicosia and {Agliolo Gallitto}, Aurelio and Lanza, {Placido Alfredo}",

year = "2016",

language = "English",

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T1 - A LAB-SCALE MICROWAVE SYSTEM FOR EXPERIMENTS OF HIGH TEMPERATURE WASTE PYROLYSIS

AU - Nicosia, Salvatore

AU - Agliolo Gallitto, Aurelio

AU - Lanza, Placido Alfredo

PY - 2016

Y1 - 2016

N2 - The reactor designed and assembled at Università degli Studi di Palermo - presented here -was conceived to explore high unit power input, high temperature reductive processes.Its main field of use therefore is likely to be the destruction of liquid waste fed as an aerosol; or of VOCs; or of granular waste making a fluidized bed. If required, a 3 - phase system including a solid catalyst could also be set up. These waste should be free of low - melting or boiling metals. Incidentally, a literature review shows that the compounds taken as benchmarkin thermal VOC destruction are trichloroethylene, benzene and toluene.At lower unit power rates this MW - based system lends itself also to recoveringuseful fractions from complex waste like WEEE (Waste of Electrical and Electronic Equipment), through pyrolysis and gasification.

AB - The reactor designed and assembled at Università degli Studi di Palermo - presented here -was conceived to explore high unit power input, high temperature reductive processes.Its main field of use therefore is likely to be the destruction of liquid waste fed as an aerosol; or of VOCs; or of granular waste making a fluidized bed. If required, a 3 - phase system including a solid catalyst could also be set up. These waste should be free of low - melting or boiling metals. Incidentally, a literature review shows that the compounds taken as benchmarkin thermal VOC destruction are trichloroethylene, benzene and toluene.At lower unit power rates this MW - based system lends itself also to recoveringuseful fractions from complex waste like WEEE (Waste of Electrical and Electronic Equipment), through pyrolysis and gasification.

UR - http://hdl.handle.net/10447/179729

M3 - Other

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EP - 487

ER -