Mapping and Development of Shredding Plant Stream to Improve Quality and Quantity of Recycled Materials and Protect Environment
Sustainable development requires the optimal use of natural resources and recycling of the wastes.In fact recycling is the final productive use of obsoletes.ELVs,obsolete appliances and industrial wastes have become important resources for production of iron and steels,non-ferrous metals,and composites.Within shredding plants,these obsoletes are firstly shredded to the pieces and then processed to recycle different materials,especially ferrous and non-ferrous metals for metallurgy.Traditional and new developed mineral processing technologies are nowadays used for recycling different materials from waste effluents.Shredding and separating plants are currently recycle the wastes by make use of different technologies to mainly produce raw material for metallurgical application.However,other non-ferrous components are also treated for energy conservation and protecting environment.Currently,recovery in shredding and recycling plants maximises to 75% and about 25% of the feed is land-filled.However,recycling rate must be increased in due to the economical,environmental and social concerns.A comprehensive study for recycling,with especial focus on ferrous metal recovery,was supported by Swedish Environmental Agency (MISTRA) to look at possibilities to increase the recycling rate and to reduce the amount of disposal.Part of this study was dedicated to study the shredding plant facilities and to look for possibilities to improve the quality and quantity of the shredding product streams.The aims were to improve the quality of ferrous scrap (apparent density > 0.9 and Cu<0.25%) for iron and steel production as well as having better quality for non-ferrous metals through the recycling schema,and finally to treat the shredder residue (SR) to recover metals and plastics to reduce the disposals.This paper summarises the results of sampling and conducting separation tests for improving the recovery of the ferrous and non-ferrous metals.The results indicated to be possible to obtain high quality ferrous scrap at recovery of 88%.However,the total recovery for metal scrap has reached 93%.Furthermore,test results on fine,P< 8mm,shredding residue (SR) showed promising prospect in recovery of metals and protecting environment by physical separation,i.e.electrical separation technique.
Shredding plant Physical separation Ferrous metals Shredder residue Recycling Shred density Obsoletes End of life vehicles (ELVs)
H.R.Manouchehri
Ian Wark Research Institute,University of South Australia,Mawson Lakes Campus,Australia
国际会议
XXIV International Mineral Processing Congress(第24届国际矿物加工大会)
北京
英文
3513-3521
2008-09-24(万方平台首次上网日期,不代表论文的发表时间)