Acceleration of Carburization and Melting of Reduced Iron in Iron Ore–Carbon Composite Using Different Types of Carbonaceous Materials

<p>The accuracy of modal parameters identified by Operational Modal Analysis (OMA) algorithms is of vital importance in vibration-based health monitoring. This paper reports the effects of using different OMA algorithms on identified modal parameters of railway bridges. For this purpose, comparison and application of three different OMA methods including FDD, ARX, SSI-COV are discussed. The vibration measurements are conducted on two railway bridges in Northern Norway for using five triaxial accelerometers. The first bridge is a single-span bridge with the length of 50 m, while the second is a two-span bridge with a total length of 85m. OMA has been conducted on the free vibration responses after passage of different types of trains including light-weight railway vehicles and heavily loaded iron ore trains to evaluate the variation of the identified modal parameters with the chosen algorithm and the vibration source on the OMA results.</p>

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Kinetics of the Volume Shrinkage of a Magnetite/Carbon Composite Pellet during Solid-State Carbothermic Reduction

Metals ◽

10.3390/met8121050 ◽

2018 ◽

Vol 8 (12) ◽

pp. 1050 ◽

Cited By ~ 3

Author(s):

Guang Wang ◽

Jingsong Wang ◽

Qingguo Xue

Keyword(s):

Activation Energy ◽

Solid State ◽

Apparent Activation Energy ◽

Carbothermic Reduction ◽

Iron Ore ◽

Carbon Composite ◽

Volume Shrinkage ◽

Reduction Temperature ◽

Iron Particles ◽

Composite Pellet

The volume shrinkage evolution of a magnetite iron ore/carbon composite pellet during solid-state isothermal reduction was investigated. For the shrinkage, the apparent activation energy and mechanism were obtained based on the experimental results. It was found that the volume shrinkage highly depended on the reduction temperature and on dwell time. The volume shrinkage of the pellet increased with the increasing reduction temperature, and the rate of increment was fast during the first 20 min of reduction. The shrinkage of the composite pellet was mainly due to the weight loss of carbon and oxygen, the sintering growth of gangue oxides and metallic iron particles, and the partial melting of the gangue phase at high temperature. The shrinkage apparent activation energy was different depending on the time range. During the first 20 min, the shrinkage apparent activation energy was 51,313 J/mol. After the first 20 min, the apparent activation energy for the volume shrinkage was only 19,697 J/mol. The change of the reduction rate-controlling step and the automatic sintering and reconstruction of the metallic iron particles and gangue oxides in the later reduction stage were the main reasons for the aforementioned time-dependent phenomena. The present work could provide a unique scientific index for the illustration of iron ore/carbon composite pellet behavior during solid-state carbothermic reduction.

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Reduction and Carburization of Carbon Composite Iron Ore Hot Briquet on Condition of Increasing in Temperature

Tetsu-to-Hagane ◽

10.2355/tetsutohagane1955.89.12_1212 ◽

2003 ◽

Vol 89 (12) ◽

pp. 1212-1219 ◽

Cited By ~ 59

Author(s):

Akito KASAI ◽

Masaaki NAITO ◽

Yoshiyuki MATSUI ◽

Yoshiaki YAMAGATA

Keyword(s):

Iron Ore ◽

Carbon Composite

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Effect of Iron Ore and Coal Properties on Reaction Behavior of Carbon Composite Iron Ore Briquette

Tetsu-to-Hagane ◽

10.2355/tetsutohagane.95.453 ◽

2009 ◽

Vol 95 (6) ◽

pp. 453-459 ◽

Cited By ~ 4

Author(s):

Yasuaki Ueki ◽

Koji Osuga ◽

Ko-ichiro Ohno ◽

Takayuki Maeda ◽

Koki Nishioka ◽

...

Keyword(s):

Iron Ore ◽

Carbon Composite ◽

Reaction Behavior ◽

Coal Properties

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A comparison of different types of gold?carbon composite electrode for detection of arsenic(III)

Analytical and Bioanalytical Chemistry ◽

10.1007/s00216-004-2960-z ◽

2004 ◽

Vol 381 (4) ◽

pp. 979-985 ◽

Cited By ~ 45

Author(s):

Andrew O. Simm ◽

Craig E. Banks ◽

Shelley J. Wilkins ◽

Nikos G. Karousos ◽

James Davis ◽

...

Keyword(s):

Composite Electrode ◽

Carbon Composite ◽

Different Types ◽

Carbon Composite Electrode

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The Potential of Iron Ore Tailings as Secondary Deposits of Rare Earths

Applied Sciences ◽

10.3390/app9142913 ◽

2019 ◽

Vol 9 (14) ◽

pp. 2913 ◽

Cited By ~ 1

Author(s):

Henar Moran-Palacios ◽

Francisco Ortega-Fernandez ◽

Raquel Lopez-Castaño ◽

Jose V. Alvarez-Cabal

Keyword(s):

Rare Earths ◽

Iron Ore ◽

Waste Storage ◽

Wide Geographical Distribution ◽

Iron Ore Tailings ◽

Different Types ◽

New Energy ◽

Iron Mining ◽

Separation Behavior ◽

Strategic Reserve

Rare earths have appeared in the market with new energy and Information Technology and Communications (ITC) applications. While their demand grows exponentially, their production is experiencing a bottleneck given that their deposits are concentrated in very few locations, mainly in China. This scarcity and dependence have turned them into strategic minerals, and the location of new sources has become vital. On the other hand, the inevitable trend towards sustainability favors the reuse of waste to avoid the degradation of new areas and the need for waste storage. One of the biggest generators of waste is iron mining. The tailings are stored in huge ponds with consequent environmental problems and risks. As tailings come from a concentration process, they incorporate different amounts of rare earths depending on their separation behavior. To evaluate the viability of these resources as potential repositories of rare earths, samples of different types of deposits and treatments were selected. The presence of different rare earths in them was determined through spectroscopy techniques to evaluate their use as a deposit. The results show an increase in the concentration of rare earths, especially high-density ones, which, although currently not economically feasible given the very wide geographical distribution of iron mining, represent a fundamental strategic reserve.

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