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Mineralogical Characteristic and Thermostability of Ammonium Illite(PDF)

《地球科学与环境学报》[ISSN:1672-6561/CN:61-1423/P]

Issue:
2024年第02期
Page:
229-239
Research Field:
矿产资源综合利用
Publishing date:

Info

Title:
Mineralogical Characteristic and Thermostability of Ammonium Illite
Author(s):
HE Ni1 LI Shang-ying12 LIANG Shao-xian3 ZHOU Xuan-ping1 WU Zhen-xiao1ZHAO Hao1 WANG Yang1 CHENG Hong-fei1*
(1. School of Earth Science and Resources, Chang'an University, Xi'an 710054, Shaanxi, China; 2. School of LandEngineering, Chang'anUniversity, Xi'an 710054, Shaanxi, China; 3. College of Geology and Environment, Xi'an University ofScience and Technology, Xi'an 710054, Shaanxi, China)
Keywords:
ammonium illite interlayer mineral structure spectral characteristic thermal-stability nitrogen-bearing mineral nitrogen cycle
PACS:
P575.4
DOI:
10.19814/j.jese.2023.12043
Abstract:
Illite is a common layered silicate mineral in the Earth's crust. Ammonium illite can be formed when NH+4 is located in the interlayers of illite. The identification of ammonium illite mineralogical characteristics and the thermostability of interlayered NH+4 can provide an important basis for understanding the geochemical cycling of nitrogen. The mineralogical characteristics and thermal stability of ammonium illite collected from gangue in Xinjing coal mine of Yangquan city, Shanxi province, were comprehensively investigated with spectroscopic, electron microscopic, and thermal analyses, and using illite(its interlayered cation is K+)as a reference. The results show that the ratio of NH+4 to total interlayer cations in ammonium illite is about 0.86, and the basal spacing(10.344 Å)of ammonium illite is significantly larger than that(9.973 Å)of illite; meanwhile, the intensity ratio of the(002):(003)diffraction peaks of ammonium illite is about 1:1, whereas the corresponding ratio for illite is about 1:3; in the tetrahedral sheets of ammonium illite, the isomorphous substitution of Al3+ for Si4+(Al3+ → Si4+)widely exists, leading to a layer charge density of approximately 0.85; the presence of interlayeredNH+4 does not have a significant impact on the layered silicate framework of illite, but it can cause a blue shift in the structural hydroxyl groups; theinterlayeredNH+4 of ammonium illite exhibits good thermostability; at temperatures ranging from 400 ℃ to 700 ℃, NH+4 gradually decomposeswiththe loss of structural hydroxyl groups; this suggests that interlayered NH+4 reacts with the structural hydroxyl groups during heating, resulting in the formation of NH3 and H2O. These research results contribute to a deep understanding of the mineralogical characteristics and thermostability of ammonium illite.

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Last Update: 2024-04-10