1 industrial ecology and metal production nickolas j. themelis minprex 2000 melbourne, september...
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Industrial Ecology and Industrial Ecology and
Metal ProductionMetal Production
Nickolas J. ThemelisNickolas J. Themelis
Minprex 2000
Melbourne, September 11-13
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IntroductionIntroduction
Sustainable development (UN) :
How to meet the needs of the present generation…
…without compromising the ability of future
generations to meet theirs
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IntroductionIntroduction
Industrial Ecology for metal production:
The design or re-design of processes and products
with full knowledge of their environmental impacts
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An Example of Applying An Example of Applying Industrial Ecology in Metal Industrial Ecology in Metal ExtractionExtraction
The Outokumpu and Noranda processesfor copper smelting helped reduce unit capital and operating costs….
...as well as sulfur and carbon emissions
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Noranda Bath smelting process Noranda Bath smelting process for producing copper for producing copper
Off-gases
Skimming HoleSlag
Tapholes
Matte
Riding Rings
Feeding Port
Tuyeres
Burner
• Can smelt any kind of metal scrap
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IndustrialIndustrial Ecology Ecology concernsconcerns in in metalmetal extraction extraction
Environmental impact of emissions: Prior, during, and after process
Conservation of Earth resources
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Environmental Environmental Load Units Load Units (ELU/kg)(ELU/kg)Swedish Env. Res. Inst. Swedish Env. Res. Inst.
(1991)(1991) Impact of emissions in air:CO2: 0.04; CH4: 1; Sox: 6; Nox: 250;
PAH: 600
Impact of emissions in water:Fe: 1*10-7; Cu: 5*10-7; Pb=0.1; Cr : 0.5;
Cd: 10; Hg: 10; TOC: 1*105
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Annual consumption of copper Annual consumption of copper during the 20th century during the 20th century
--> it is a good measure of the material standard of living
• 10 kg/capita for the highly developed nations
• 0.6 kg/capita in China
• 0.2 kg/capita in India
Copper is principally used in electrical and water conduitsCopper is principally used in electrical and water conduits
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Ore RESERVES are not infinite: The Ore RESERVES are not infinite: The “tyrannies” of ore type and grade “tyrannies” of ore type and grade (Kellogg)(Kellogg)
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Energy requirements for production of Energy requirements for production of metals from primary and secondary metals from primary and secondary materialsmaterials
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Estimated global anthropogenic Estimated global anthropogenic emissionsemissionsin tons/yearin tons/year
As Cd Cr Cu Hg Ni Pb Zn
To atmosphere:18800 7600 30500 35400 3600 55700 332400 131900
% Contribution of global metal industry:75% 80% 50% 75% 1% 35% 10% 80%
To aquatic systems:4100 9400 142000 112000 4600 113000 138000 226000
% Contribution of global metal industry:10% 10% 20% 10% 2% 20% 5% 10%
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LD or Basic Oxygen Furnace LD or Basic Oxygen Furnace for steel making for steel making
• introduced in Europe in 1954
• 60 % of the U.S. steel production
• accept 10 to 30% scrap in the metal charge
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Electric Arc FurnacesElectric Arc Furnaces
slag
slag
metal
metal
coke
coke
Electric Arc Furnace
Submerged Arc Furnace
Slag Resistance Furnace
• introduced in 1965
• 40 % of the U.S. steel production
• can accomodate 100% scrap in the feed
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Application of 20Application of 20thth century century technologies to 21technologies to 21thth century problems century problems
TTeecchhnnoollooggyy
FFoorr hhuummaanniittyy
FFoorr EEaarrtthh
Applied geophysics
Exploration for minerals and fuels
Environmental assessment and remediation
Mining
Extraction of minerals
Brownfield/greenfield Mine rehabilitation Landfill engineering Constructed wetlands
Hydrometallurgy
Metal production and refining
Water/soil decontamination
Metal recovery from wastes
Pyrometallurgy
Metal production and refining
Materials/energy from wastes Vitrification
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Earth and Environmental Earth and Environmental Engineering :Engineering :materials and the environment materials and the environment
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ConclusionsConclusions
As the world’s population and global standard of living continue to increase, the role of metals in the economy will not diminish in the 21st century, despite substitution and dematerialization trends.
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ConclusionsConclusions
Production and use of metals and all other materials must take into account the needs of both Humanity and the Earth.
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ConclusionsConclusions
Metal extraction is one of the most Earth-intrusive industrial activities. Mineral engineers need to be fully cognizant of upstream (raw materials) and downstream (products) effects of their activities.
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ConclusionsConclusions
Dispersive uses of metals should be phased out and post-use material/energy recovery must increase: Advantage for processes that can use as feedstock both “virgin” and recycled materials, such as scrap and waste streams.
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ConclusionsConclusions
Important emerging roles for mining and mineral processing technologies:
- land and water rehabilitation
- environmental assessment
- materials/energy recovery from used materials
- contaminant neutralization (vitrification, etc.)
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Energy and metal resource recovery Energy and metal resource recovery at Waste-to-Energy plant at at Waste-to-Energy plant at Rochester, MA Rochester, MA (Energy Answers Corp.) (Energy Answers Corp.)
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ConclusionsConclusions
Industrial Ecology is a virgin field pregnant of possibilities!