Nanocrack Formation in Hematite through the Dehydration of Goethite and the Carbon Infiltration from Biotar-Reference-Cited by-同舟云学术

Nanocrack Formation in Hematite through the Dehydration of Goethite and the Carbon Infiltration from Biotar

Published:2010 Issue: Volume:2010 Page:1-12
ISSN:1687-4110
Container-title:Journal of Nanomaterials
language:en
Short-container-title:Journal of Nanomaterials

Author:

Kashiwaya Yoshiaki¹,Akiyama Tomohiro²

Affiliation:

1. Depatment of Energy Science and Technology, Kyoto University, Sakyo-ku, Yoshida Honmachi, Kyoto 606-8501, Japan

2. Center for Advanced Research of Energy Conversion Materials, Hokkaido University, kita 18, Nishi 8, Kita-ku 060-8072, Japan

Abstract

The cracks in nano-order are generated and propagated when the combined water is released during the dehydration. If the nanopore can be utilized for a reaction site, the overall reaction can be extremely accelerated. On the other hand, it is well known that woody biomass is an attractive alternative fuel for the reduction of emission. However, the process of biomass pyrolysis is disturbed by the tar which causes a clogging in gas tubing system. Hata et al. found that the tar was consumed almost 100% in the iron ore layer having nanocrack or nanopore. The nanocracks formed in hematite crystals after dehydration of goethite were about 4 nm in width, which is in excellent agreement with the result of BET measurement. When the carbon deposited from tar into the nanocracks, reduction reactions were occurred simultaneously. The deposited carbons completely infilled into the nanocracks and the void in the sample.

Publisher

Hindawi Limited

Subject

General Materials Science

Link

http://downloads.hindawi.com/journals/jnm/2010/235609.pdf

Reference12 articles.

1. Biotar Ironmaking Using Wooden Biomass and Nanoporous Iron Ore

2. Lowering of Grinding Energy and Enhancement of Agglomerate Strength by Dehydration of Indonesian Laterite Ore.

3. Measurement and Modeling of Thermal Conductivity for Dense Iron Oxide and Porous Iron Ore Aggliomerates in Stepwise Reduction.

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