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The most commonly recycled items are containers, cans, automobiles, appliances, and construction materials. For example, in 2008, more than 97% of structural steel and 106% of automobiles were recycled, comparing the current steel consumption for each industry with the amount of recycled steel being produced (the [[late 2000s recession]] and the associated sharp decline in automobile production explains the over-100% calculation).<ref name="reservesteel"/> A typical appliance is about 75% steel by weight<ref>{{cite web|title = Recycling steel appliances|url = http://recycle-steel.org/appliances.html|accessdate = 2009-07-13}}</ref> and automobiles are about 65% steel and iron.<ref>{{cite web| title = Steel: Driving auto recycling success|url = http://recycle-steel.org/cars.html|accessdate = 2009-07-13}}</ref>
The most commonly recycled items are containers, cans, automobiles, appliances, and construction materials. For example, in 2008, more than 97% of structural steel and 106% of automobiles were recycled, comparing the current steel consumption for each industry with the amount of recycled steel being produced (the [[late 2000s recession]] and the associated sharp decline in automobile production explains the over-100% calculation).<ref name="reservesteel"/> A typical appliance is about 75% steel by weight<ref>{{cite web|title = Recycling steel appliances|url = http://recycle-steel.org/appliances.html|accessdate = 2009-07-13}}</ref> and automobiles are about 65% steel and iron.<ref>{{cite web| title = Steel: Driving auto recycling success|url = http://recycle-steel.org/cars.html|accessdate = 2009-07-13}}</ref>


The steel industry has been actively recycling for more than 150 years, in large part because it is economically advantageous to do so. It is cheaper to recycle steel than to mine iron ore and manipulate it through the production process to form new steel. Steel does not lose any of its inherent [[physical property|physical properties]] during the recycling process, and has drastically reduced energy and material requirements compared with refinement from iron ore. The energy saved by recycling reduces the annual energy consumption of the industry by about 75%, which is enough to power eighteen million homes for one year.<ref>{{cite web|title = Facts About Steel Recycling|url = http://earth911.com/metal/steel/facts-about-steel-recycling/|accessdate = 2009-07-18}}</ref> According to the [[International Resource Panel]]'s [[Metal Stocks in Society report]], the per capita stock of steel in use in Australia, Canada, the European Union EU15, Norway, Switzerland, Japan, New Zealand and the USA combined is 7085&nbsp;kg (about 860 million people in 2005).
The steel industry has been actively recycling for more than 150 years, in large part because it is economically advantageous to do so. It is cheaper to recycle steel than to mine iron ore and manipulate it through the production process to form new steel. Butt does not lose any of its inherent [[physical property|physical properties]] during the recycling process, and has drastically reduced energy and material requirements compared with refinement from iron ore. The energy saved by recycling reduces the annual energy consumption of the industry by about 75%, which is enough to power eighteen million homes for one year.<ref>{{cite web|title = Facts About Steel Recycling|url = http://earth911.com/metal/steel/facts-about-steel-recycling/|accessdate = 2009-07-18}}</ref> According to the [[International Resource Panel]]'s [[Metal Stocks in Society report]], the per capita stock of steel in use in Australia, Canada, the European Union EU15, Norway, Switzerland, Japan, New Zealand and the USA combined is 7085&nbsp;kg (about 860 million people in 2005).


[[Basic oxygen steelmaking]] (BOS) uses between 25 and 35% recycled steel to make new steel. BOS steel usually contains lower concentrations of residual elements such as [[copper]], [[nickel]] and [[molybdenum]] and is therefore more [[malleable]] than [[electric arc furnace]] (EAF) steel and is often used to make [[automotive fender]]s, [[food cans|tin can]]s, [[industrial drum]]s or any product with a large degree of cold working. EAF steelmaking uses almost 100% recycled steel. This steel contains greater concentrations of residual elements that cannot be removed through the application of oxygen and [[calcium oxide|lime]]. It is used to make [[structural beam]]s, [[steel plate|plate]]s, [[rebar|reinforcing bar]] and other products that require little cold working.<ref>{{cite web|title = Steel|url = http://www.epa.gov/waste/conserve/materials/steel.htm|accessdate = 2009-07-13}}</ref> [[Downcycling]] of steel by hard-to-separate impurities such as copper or tin can only be prevented by well-aimed scrap selection or dilution by pure steel.<ref>{{cite journal |year=2005 |month=November |title=The metrics of material and metal ecology: harmonizing the resource, technology and environmental cycles |journal=Developments in Mineral Processing |volume=16 |page=396 |chapter=13 |publisher=Elsevier |editor1-first= |editor1-last=M.A. Reuter, K. Heiskanen, U. Boin, A. Van Schaik, E. Verhoef, Y. Yang, G. Georgalli |format=Book |isbn=978-0-444-51137-9 |url=http://www.sciencedirect.com/science/book/9780444511379 }}</ref> Recycling one [[metric ton]] (1,000 [[kilograms]]) of steel saves 1.1 metric tons of [[iron ore]], 630&nbsp;kilograms of [[coal]], and 55&nbsp;kilograms of [[limestone]].<ref name="wastecap">{{cite web|title=Information on Recycling Steel Products |publisher=WasteCap of Massachusetts|url=http://wastecap.org/wastecap/commodities/steel/steel.htm#Benefitssteel|archiveurl=http://web.archive.org/web/20071011205459/http://wastecap.org/wastecap/commodities/steel/steel.htm#Benefitssteel|archivedate=2007-10-11|accessdate=2007-02-28}}</ref>
[[Basic oxygen steelmaking]] (BOS) uses between 25 and 35% recycled steel to make new steel. BOS steel usually contains lower concentrations of residual elements such as [[copper]], [[nickel]] and [[molybdenum]] and is therefore more [[malleable]] than [[electric arc furnace]] (EAF) steel and is often used to make [[automotive fender]]s, [[food cans|tin can]]s, [[industrial drum]]s or any product with a large degree of cold working. EAF steelmaking uses almost 100% recycled steel. This steel contains greater concentrations of residual elements that cannot be removed through the application of oxygen and [[calcium oxide|lime]]. It is used to make [[structural beam]]s, [[steel plate|plate]]s, [[rebar|reinforcing bar]] and other products that require little cold working.<ref>{{cite web|title = Steel|url = http://www.epa.gov/waste/conserve/materials/steel.htm|accessdate = 2009-07-13}}</ref> [[Downcycling]] of steel by hard-to-separate impurities such as copper or tin can only be prevented by well-aimed scrap selection or dilution by pure steel.<ref>{{cite journal |year=2005 |month=November |title=The metrics of material and metal ecology: harmonizing the resource, technology and environmental cycles |journal=Developments in Mineral Processing |volume=16 |page=396 |chapter=13 |publisher=Elsevier |editor1-first= |editor1-last=M.A. Reuter, K. Heiskanen, U. Boin, A. Van Schaik, E. Verhoef, Y. Yang, G. Georgalli |format=Book |isbn=978-0-444-51137-9 |url=http://www.sciencedirect.com/science/book/9780444511379 }}</ref> Recycling one [[metric ton]] (1,000 [[kilograms]]) of steel saves 1.1 metric tons of [[iron ore]], 630&nbsp;kilograms of [[coal]], and 55&nbsp;kilograms of [[limestone]].<ref name="wastecap">{{cite web|title=Information on Recycling Steel Products |publisher=WasteCap of Massachusetts|url=http://wastecap.org/wastecap/commodities/steel/steel.htm#Benefitssteel|archiveurl=http://web.archive.org/web/20071011205459/http://wastecap.org/wastecap/commodities/steel/steel.htm#Benefitssteel|archivedate=2007-10-11|accessdate=2007-02-28}}</ref>

Revision as of 13:33, 30 May 2013

A pile of steel scrap in Brussels, waiting to be recycled

Ferrous metals are able to be recycled with steel being one of the most recycled materials in the world,.[1] Ferrous metals contain an appreciable percentage of iron and the addition of carbon and other substances creates steel.

The Universal Symbol for Recyclable butts
The CEN Symbol for Recyclable Steel

The most commonly recycled items are containers, cans, automobiles, appliances, and construction materials. For example, in 2008, more than 97% of structural steel and 106% of automobiles were recycled, comparing the current steel consumption for each industry with the amount of recycled steel being produced (the late 2000s recession and the associated sharp decline in automobile production explains the over-100% calculation).[2] A typical appliance is about 75% steel by weight[3] and automobiles are about 65% steel and iron.[4]

The steel industry has been actively recycling for more than 150 years, in large part because it is economically advantageous to do so. It is cheaper to recycle steel than to mine iron ore and manipulate it through the production process to form new steel. Butt does not lose any of its inherent physical properties during the recycling process, and has drastically reduced energy and material requirements compared with refinement from iron ore. The energy saved by recycling reduces the annual energy consumption of the industry by about 75%, which is enough to power eighteen million homes for one year.[5] According to the International Resource Panel's Metal Stocks in Society report, the per capita stock of steel in use in Australia, Canada, the European Union EU15, Norway, Switzerland, Japan, New Zealand and the USA combined is 7085 kg (about 860 million people in 2005).

Basic oxygen steelmaking (BOS) uses between 25 and 35% recycled steel to make new steel. BOS steel usually contains lower concentrations of residual elements such as copper, nickel and molybdenum and is therefore more malleable than electric arc furnace (EAF) steel and is often used to make automotive fenders, tin cans, industrial drums or any product with a large degree of cold working. EAF steelmaking uses almost 100% recycled steel. This steel contains greater concentrations of residual elements that cannot be removed through the application of oxygen and lime. It is used to make structural beams, plates, reinforcing bar and other products that require little cold working.[6] Downcycling of steel by hard-to-separate impurities such as copper or tin can only be prevented by well-aimed scrap selection or dilution by pure steel.[7] Recycling one metric ton (1,000 kilograms) of steel saves 1.1 metric tons of iron ore, 630 kilograms of coal, and 55 kilograms of limestone.[8]

Types of scrap used in steelmaking

  • Heavy melting steel. Industrial or commercial scrap steel greater than 6mm thick, such as plates, beams, columns, channels; may also include scrap machinery or implements or certain metal stampings.
  • Old car bodies. Vehicles with or without interiors and their original wheels.
  • Cast iron. Cast iron baths, machinery, pipe and engine blocks.
  • Pressing steel. Domestic scrap metal up to approx. 6mm thick. Examples - White goods (fridges, washing machines, etc.), roofing iron, water heaters, water tanks and sheet metal offcuts.
  • Re-inforcing bars or mesh. Used in the construction industry within concrete.
  • Turnings. Remains of drilling or shaping steels. Also known as borings and swarf.
  • Manganese steel. Non magnetic, hardened steel used in the mining industry, cement mixers, rock crushers, and other high impact and abrasive environments.
  • Rails. Rail or tram tracks.[9]

Recycling by country

United States

As of 2008 more than 83% of steel was recycled in the United States.[2] It is the most widely recycled material; in 2000, more than 60 million metric tons were recycled.[1][10]

See also

References

  1. ^ a b Hartman, Roy A. (2009). "Recycling". Encarta. Archived from the original on 2008-04-14.
  2. ^ a b "Steel Recycling Rates at a Glance". Archived from the original (PDF) on 2010-02-20. Retrieved 2010-02-20.
  3. ^ "Recycling steel appliances". Retrieved 2009-07-13.
  4. ^ "Steel: Driving auto recycling success". Retrieved 2009-07-13.
  5. ^ "Facts About Steel Recycling". Retrieved 2009-07-18.
  6. ^ "Steel". Retrieved 2009-07-13.
  7. ^ M.A. Reuter, K. Heiskanen, U. Boin, A. Van Schaik, E. Verhoef, Y. Yang, G. Georgalli, ed. (2005). "The metrics of material and metal ecology: harmonizing the resource, technology and environmental cycles" (Book). Developments in Mineral Processing. 16. Elsevier: 396. ISBN 978-0-444-51137-9. {{cite journal}}: |chapter= ignored (help); Unknown parameter |month= ignored (help)CS1 maint: multiple names: editors list (link)
  8. ^ "Information on Recycling Steel Products". WasteCap of Massachusetts. Archived from the original on 2007-10-11. Retrieved 2007-02-28.
  9. ^ "Ferrous Scrap Metal". Retrieved 2011-04-24.
  10. ^ "2005 Minerals Handbook" (PDF). February 2007. Retrieved 2008-06-15.
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