Paul Koltun scite author profile

The diverse properties of rare earth elements have seen broad and growing applications in clean energy technologies, hybrid vehicles, pollution control, optics, refrigeration, and so on. This study presents a "cradle-to-gate" life cycle assessment of the energy use, resource depletion, and global warming potential resulting from the production of rare earth elements (REEs) using the Bayan Obo rare earth operation in Inner Mongolia, China, as a representative system. The study aggregates data from the literature, LCI databases, and reasonable estimations. A novel economic value-based allocation method for the multiple coproducts of the process is proposed. It is found that four of the high priced REEs scandium, europium, terbium, and dysprosium have very high GWPs from production relative to the rest. A mass-based allocation is also provided for comparison. Impacts on immediate local environment from waste streams that can be toxic are not included in this study.

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Is there an environmental advantage of using magnesium components for light-weighting cars?

Tharumarajah

Koltun

2007

Journal of Cleaner Production

150

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Influence of gas composition on plasma arc cutting of mild steel

Ramakrishnan

Shrinet

Polivka

et al. 2000

J. Phys. D: Appl. Phys.

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We report the results of a study on the influence of oxygen in the plasma gas used in the plasma arc cutting process on cuts obtained in mild steel plates. Experimental results of shapes of kerfs and the leading edges of the cut front formed while cutting a 6 mm mild steel plate at 100 A with nitrogen, air and oxygen as plasma gases are presented. These results are discussed in the light of the overall energy balance of the process. It is found that the exothermic reaction of oxygen in the plasma gas with the iron in mild steel enables the cutting of mild steel at higher speeds with both air and oxygen than the maximum cutting speed attainable with nitrogen. A comparison of the melting rates for oxygen with those of air reveals that although oxygen can produce more exothermal energy by oxidation, oxygen is not superior to air in melting metal near the bottom of the kerf formed at high cutting speeds.The study shows that the dross formed at the bottom of the cut is determined by the shape of the cut-front surface over which the molten metal from the cut front flows to be ejected at the plate bottom. Any improvement of metal ejection to be gained with oxygen as the plasma gas may be the result of enhanced superheating of the metal melted from the cut-front surface.

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The impact of uranium ore grade on the greenhouse gas footprint of nuclear power

Norgate

Haque

Koltun

2014

Journal of Cleaner Production

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Paul Koltun

Global warming impact of the magnesium produced in China using the Pidgeon process

Life Cycle Impact of Rare Earth Elements

Is there an environmental advantage of using magnesium components for light-weighting cars?

Influence of gas composition on plasma arc cutting of mild steel

The impact of uranium ore grade on the greenhouse gas footprint of nuclear power

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