Detoxification of cathode ray tube glass by self-propagating process

Chen, Mengjun; Zhang, Fu-Shen; Zhu, Jiang

doi:10.1016/j.jhazmat.2008.10.098

Cited by 28 publications

(9 citation statements)

References 30 publications

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“…Studies have been carried out by various researchers to solve the discarded CRT waste problem, particularly with regard to the methods to reuse/recycle leaded funnel glass as it contains a large amount of lead [3][4][5][6][7]. Generally, there are three possible options for leaded CRT glass recycling.…”

Section: Crt Recycling and Current Recycling Approach Used In Hong Kongmentioning

confidence: 99%

Utilization of recycled glass derived from cathode ray tube glass as fine aggregate in cement mortar

Ling

Poon

2011

Journal of Hazardous Materials

169

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Section: Crt Recycling and Current Recycling Approach Used In Hong Kongmentioning

confidence: 99%

Utilization of recycled glass derived from cathode ray tube glass as fine aggregate in cement mortar

Ling

Poon

2011

Journal of Hazardous Materials

169

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“…The reaction medium is formed by adding to the process system substances such as carbon or iron, which are more active than lead. At the end of the reaction, the oxygen bound to the lead combines with the more active substances, leading to lead formation in the products [10]. 99% of the lead in CRT waste can be obtained with high purity.…”

Section: Pyrometallurgical Processmentioning

confidence: 99%

“…These components can be absorbed by soil over time, and can be passed indirectly to animals and humans [7][8][9]. Lead is particularly harmful to the environment and is the most commonly found heavy metal in CRT devices [10].…”

Section: Introductionmentioning

confidence: 99%

E-waste: A Review of CRT (Cathode Ray Tube) Recycling

Ciftci¹,

Çiçek²

2017

Res. Rev. J Mat. Sci

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The developments in monitor technology have accelerated in recent years, acquiring a new dimension. The use of liquid crystal display (LCD) and light emitting diode (LED) monitors has rapidly reduced the use of cathode ray tube (CRT) technology in computers and televisions (TVs). As a result, such devices have accumulated as electronic waste and constitute a new problem. Large parts of electronic waste can be recycled for reuse. However, some types of waste, such as CRT TVs and computer monitors, form hazardous waste piles due to the toxic components (lead, barium, strontium) they contain. CRT monitors contain different types of glass constructions and they can therefore be recycled. However, the toxic substances they contain prevent them from being transformed into glass for everyday use. Furthermore, because CRT technology is obsolete, it is not profitable to use CRT as a raw material again. For this reason, poisonous components in glass ceramic structures found in CRT monitors can be confined and used in closed-loop recycling for various sectors.

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“…A novel process for detoxifying CRTs, which involved blending CRT glass powder with suitable amounts of ferric oxide and magnesium, has been developed (Chen et al, 2009b). This technique, which is typically used for the synthesis of materials (referred to as ‘self-propagating high-temperature synthesis’ or SHS), is characterised by the fact that once the starting mixture (CRT glass powder, ferric oxide, and magnesium) is ignited by the means of external thermal sources for relatively short times, a self-propagating reaction in the form of combustion wave rapidly travels through the mixture without requiring additional energy; thus, converting reactants into products.…”

Section: Management Strategies For Eol Crt Glassmentioning

confidence: 99%

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

Iniaghe

Adie

2015

Waste Manag Res

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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.

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Detoxification of cathode ray tube glass by self-propagating process

Cited by 28 publications

References 30 publications

Utilization of recycled glass derived from cathode ray tube glass as fine aggregate in cement mortar

Utilization of recycled glass derived from cathode ray tube glass as fine aggregate in cement mortar

E-waste: A Review of CRT (Cathode Ray Tube) Recycling

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

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