Difference between revisions of "Ilmenite"

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(ilmenite has too wide a bandgap for efficient solar conversion)
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Ilmenite has been proposed as a feedstock for lunar [[Lunar Titanium Production|titanium]] and [[iron]] production. In addition, the iron oxides present in the Ilmenite require the least energy to reduce of any oxide found on Luna. Because of this property, together with the ease of extraction from lunar sources, ilmenite has been proposed as a prime material for production of lunar [[oxygen]].
 
Ilmenite has been proposed as a feedstock for lunar [[Lunar Titanium Production|titanium]] and [[iron]] production. In addition, the iron oxides present in the Ilmenite require the least energy to reduce of any oxide found on Luna. Because of this property, together with the ease of extraction from lunar sources, ilmenite has been proposed as a prime material for production of lunar [[oxygen]].
  
Crystallized Ilmenite is a semiconductor with a bandgap of 2.54 volts.<ref>''THE MOON, Resources, Future Development, and Settlement''; David Schrunk, Burton Sharpe, Bonnie Cooper, Madhu Thangavelu; (C) 2008 Praxis Publishing Ltd, Chichester, UK; p 273</ref>  Ilmenite photovoltaic cells would have a worse conversion efficiency then silicon or gallium arsenide in unfiltered solar radiation.<ref>[http://pubs.rsc.org/services/images/RSCpubs.ePlatform.Service.FreeContent.ImageService.svc/ImageService/Articleimage/2014/EE/c3ee41981a/c3ee41981a-f2_hi-res.gif efficiency as a function of bandgap] from L. L. Kazmerski, ''J. Electron Spectrosc. Relat. Phenom.'', 2006, 150, 105–135</ref> However, because of its wide bandgap, it should be able to operate at higher temperature without degradation.
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Crystallized Ilmenite is a semiconductor with a bandgap of 2.54 volts.<ref>''THE MOON, Resources, Future Development, and Settlement''; David Schrunk, Burton Sharpe, Bonnie Cooper, Madhu Thangavelu; (C) 2008 Praxis Publishing Ltd, Chichester, UK; p 273</ref>  Ilmenite photovoltaic cells would have a greater conversion efficiency then silicon or gallium arsenide in unfiltered solar radiation.  Also, they should withstand higher temperature with less radiation damage.
  
 
==External Links==
 
==External Links==

Revision as of 15:32, 30 August 2014

Introduction

Ilmenite (FeTiO3, also known as Iron titanate, or iron titanium oxide) is a naturally occurring titanium and iron ore. It is named for the location where it was discovered, Ilmen Lake in the Ural Mountains of Russia. Ilmenite is currently the most important ore of Titanium for terrestrial production. It is reasonably abundant on Luna, the greatest concentrations being found in the lunar maria.


Lunar Extraction and Use

(see also: Ilmenite Reduction)

Ilmenite is weakly magnetic, and can be removed from lunar regolith by magnetic beneficiation. This property allows for the relatively easy extraction of Ilmenite, even from areas where it is not as abundant.

Ilmenite has been proposed as a feedstock for lunar titanium and iron production. In addition, the iron oxides present in the Ilmenite require the least energy to reduce of any oxide found on Luna. Because of this property, together with the ease of extraction from lunar sources, ilmenite has been proposed as a prime material for production of lunar oxygen.

Crystallized Ilmenite is a semiconductor with a bandgap of 2.54 volts.[1] Ilmenite photovoltaic cells would have a greater conversion efficiency then silicon or gallium arsenide in unfiltered solar radiation. Also, they should withstand higher temperature with less radiation damage.

External Links

Reference

  1. THE MOON, Resources, Future Development, and Settlement; David Schrunk, Burton Sharpe, Bonnie Cooper, Madhu Thangavelu; (C) 2008 Praxis Publishing Ltd, Chichester, UK; p 273