Management practices for end-of-life cathode ray tube glass: Review of advances in recycling and best available technologies

Cathode ray tubes are image display units found in computer monitors and televisions. In recent years, cathode ray tubes have been generated as waste owing to the introduction of newer and advanced technologies in image displays, such as liquid crystal displays and high definition televisions, among...

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Bibliographic Details
Published in:Waste Management & Research 2015-11, Vol.33 (11), p.947-961
Main Authors: Iniaghe, Paschal O, Adie, Gilbert U
Format: Article
Language:English
Subjects:
Cathode Ray Tube
CRTs
Detoxification
Electronic waste
Electronic Waste - analysis
Environmental economics
Environmental protection
Glass - analysis
Landfills
Leaching
Lead content
Recycling
Studies
Television sets
Waste disposal
Waste disposal sites
Waste Management
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Summary:Cathode ray tubes are image display units found in computer monitors and televisions. In recent years, cathode ray tubes have been generated as waste owing to the introduction of newer and advanced technologies in image displays, such as liquid crystal displays and high definition televisions, among others. Generation and subsequent disposal of end-of-life cathode ray tubes presents a challenge owing to increasing volumes and high lead content embedded in the funnel and neck sections of the glass. Disposal in landfills and open dumping are anti-environmental practices considering the large-scale contamination of environmental media by the potential of toxic metals leaching from glass. Mitigating such environmental contamination will require sound management strategies that are environmentally friendly and economically feasible. This review covers existing and emerging management practices for end-of-life cathode ray tubes. An in-depth analysis of available technologies (glass smelting, detoxification of cathode ray tube glass, lead extraction from cathode ray tube glass) revealed that most of the techniques are environmentally friendly, but are largely confined to either laboratory scale, or are often limited owing to high cost to mount, or generate secondary pollutants, while a closed-looped method is antiquated. However, recycling in cementitious systems (cement mortar and concrete) gives an added advantage in terms of quantity of recyclable cathode ray tube glass at a given time, with minimal environmental and economic implications. With significant quantity of waste cathode ray tube glass being generated globally, cementitious systems could be economically and environmentally acceptable as a sound management practice for cathode ray tube glass, where other technologies may not be applicable.
ISSN:0734-242X
1096-3669
DOI:10.1177/0734242X15604212