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A STUDY ON THERMAL DECOMPOSITION OF DOLOMITE FROM WEST ANATOLIA REGION USING SEMI-PILOT SCALE ROTARY FURNACE

BROWSE_DETAIL_CREATION_DATE: 2013

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BROWSE_DETAIL_TYPE: Article

BROWSE_DETAIL_PUBLISH_STATE: Published

BROWSE_DETAIL_FORMAT: PDF Document

BROWSE_DETAIL_LANG: English

BROWSE_DETAIL_SUBJECTS: Mining engineering. Metallurgy,

BROWSE_DETAIL_CREATORS: DERIN, BORA (Author), DEMİRCAN, UMUT (Author), UZUNOĞLU, TİMUR (Author), YÜCEL, ONURALP (Author),

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BROWSE_DETAIL_PUBLISHER: Atılım Üniversitesi BROWSE_DETAIL_PUBLICATION_NAME: The International Journal of Mineral Resources Engineering BROWSE_DETAIL_PUBLICATION_LOCATION: Ankara BROWSE_DETAIL_PUBLICATION_DATE: 2007 BROWSE_DETAIL_PUBLICATION_NUMBER: 3 BROWSE_DETAIL_PUBLICATION_VOLUME: 12 BROWSE_DETAIL_PUBLICATION_PAGE: 205-214


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Decomposition behaviour of dolomite from the western Anatolia region (Turkey) was

investigated using semi-pilot scale rotary furnace as a part of a magnesium production

project. Experiments were carried out using 1000 g of dolomite samples at different

temperatures (800-1100 ・・C) and time (0-300 min). It was found that the decomposition

process increased with increasing time and temperature. TG/DTA and XRD analysis

showed that dolomite decomposition followed two stage reactions; first is formation

of CaCO3 and MgO, the second is following CaCO3 decomposition. Decomposition

mechanism of semi-pilot experiments was found to be first order reaction with activation

energy of 126.8 kJ mol-1.


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