Selection of fluxing agent for coal ash and investigation of fusion mechanism: a first-principles study

Li, Jie; Du, Mei-Fang; Zhang, Zhong-Xiao; Guan, Rong-Qing; Chen, Yu-Shuang; Liu, Ting-Yu

Title: Selection of fluxing agent for coal ash and investigation of fusion mechanism: a first-principles study

Journal Article · Thu Jan 15 00:00:00 EST 2009 · Energy and Fuels

OSTI ID:21162103

Li, Jie; Du, Mei-Fang; Zhang, Zhong-Xiao; Guan, Rong-Qing; Chen, Yu-Shuang; Liu, Ting-Yu ^[1]

University of Shanghai for Science and Technology, Shanghai (China). College of Science, and Department of Power Engineering

An approach based on the ab initio quantum chemical modeling (CASTEP, generalized gradient approximation (GGA), and density functional theory (DFT)) was first employed to guide the selection of the appropriate fluxing agent to reduce the coal ash melting temperature. Two kinds of typical Chinese coal ash A and B with a high-melting temperature were chosen as the investigated subjects. Result of the calculation shows that mullite mineral, which is the main component of coal ash, is easier to combine with an electron acceptor than with an electron donor. Because the cations of borax (Na{sub 2}B{sub 4}O{sub 7}10H{sub 2}O) and limestone can act as electron acceptors, borax and limestone were selected as the fluxing agents in our experiment. Results of the experiment show that the melting temperatures of coal ash A and B are both decreased by borax and limestone, respectively. Moreover, borax has a better fluxing effect than limestone under the same conditions. The further numerical study on the coal ash fusing mechanism indicates that the Na{sup +} and Ca{sup 2+} cations, as acceptors, can enter into the crystal lattice of mullite mainly through O(7) and O(8) and then cause the Al(6)-O(8) and Al(5)-O(7) bonds to rupture in the (AlO{sub 6})-octahedron. From this, mullite is forced to transform to feldspar and corundum minerals that have a low binding energy. Because of the phase change of minerals in the coal ash, the coal ash melting temperature is decreased by adding borax and limestone. 27 refs., 8 figs., 3 tabs.

Cite

Export

Save

OSTI ID:: 21162103

Journal Information:: Energy and Fuels, Vol. 23, Issue 2; Other Information: zhzhx222@163.com; ISSN 0887-0624

Country of Publication:: United States

Language:: English

Similar Records

Experimental Determination of Solubilities of Sodium Polyborates In MgCl₂ Solutions: Solubility Constant of Di-Sodium Hexaborate Tetrahydrate, and Implications For the Diagenetic Formation of Ameghinite

Journal Article · Wed Nov 01 00:00:00 EDT 2017 · Canadian Mineralogist · OSTI ID:21162103

Xiong, Yongliang; Kirkes, Leslie; KNOX, Jandi; +1 more

Thermodynamics and dehydration/hydration behaviors of Na-sulfate, -borate, and -bicarbonate minerals

Journal Article · Thu Aug 27 00:00:00 EDT 2020 · Thermochimica Acta · OSTI ID:21162103

Liu, Tingting; Bish, David L.

Applications of differential scanning calorimetry to the study of thermal energy storage

Conference · Sat Jan 01 00:00:00 EST 1977 · OSTI ID:21162103

Cantor, S.

Related Subjects

01 COAL, LIGNITE, AND PEAT
COAL GASIFICATION
ASHES
MELTING
QUANTUM MECHANICS
MATHEMATICAL MODELS
MELTING POINTS
MULLITE
ELECTRON TRANSFER
LIMESTONE
BORAX
ADDITIVES

Title: Selection of fluxing agent for coal ash and investigation of fusion mechanism: a first-principles study

Citation Formats

Similar Records

Related Subjects