Physico-chemical and Mineralogical Properties of Fly Ash from Thermal Power Stations in Northern Vietnam

Le Van Thien, Ngo Thi Tuong Chau, Le Thi Tham Hong, Le Hoai Nam

Article Sidebar

PDF
Published Mar 15, 2016

Article Details

How to Cite
THIEN, Le Van et al. Physico-chemical and Mineralogical Properties of Fly Ash from Thermal Power Stations in Northern Vietnam. VNU Journal of Science: Earth and Environmental Sciences, [S.l.], v. 32, n. 1S, mar. 2016. ISSN 2588-1094. Available at: <https://js.vnu.edu.vn/EES/article/view/2843>. Date accessed: 27 apr. 2024.
ABNT APA BibTeX CBE EndNote - EndNote format (Macintosh & Windows) MLA ProCite - RIS format (Macintosh & Windows) RefWorks Reference Manager - RIS format (Windows only) Turabian
Issue
Vol 32 No 1S
Section
Review Articles

Main Article Content

Abstract

Abstract: Fly ash is produced as a result of coal combusion at high temperatures in thermal power stations and discharged in ash ponds which absorb huge amount of water, energy, and land area. As the demand for power increases, the amount of fly ash from thermal power stations in Northern Vietnam is increasing year by year. Therefore, the environmental friendly fly ash management would remain a great concern. In this paper, physico-chemical and mineralogical properties of fly ash from Pha Lai, Mong Duong and Ninh Binh thermal power stations were studied for ultilization to improve soil properties. Results shows that the properties of fly ash depend on the nature of parent coal, conditions of combustion, type of emission control devices, and storage and handling methods. The fly ash samples occur 1-8 µm in particle size and rounded to angular in shape. They are alkaline (pHKCl >9) and CEC considerably ranged from 8.44 meq/100 g to 8.68 meq/100 g. All samples comprised of Mg, Al, Si, P, S, K, Ca, Ti, Cr, Mn, Fe, Ni, Cu, Zn, Rb and Pb with the highest contents of Al and Si. Of which, the highest content of Al and Si presents in fly ash sample from Pha Lai and Ninh Binh, respectively. High contents of K, P, Ca, Mg, S and some micro-nutrients are also found in fly ash samples. However, they have very low contents of radioactive elements (226Ra, 238U, 232Th, 40K) and heavy metals. Besides, fly ash contains minerals such as quartz (SiO2) and mullite (Al2Si2O13).

Keywords: Fly ash, thermal power station, fly ash properties, improving soil properties.

References

[1] Kiều Cao Thăng, Nguyễn Đ.Q. Tình hình và phương hướng tái chế, sử dụng tro xỉ của các nhà máy nhiệt điện ở Việt Nam, Hội tuyển khoáng Việt Nam, 2011.
[2] Fisher G.L., Chang D.P.Y., and Brummer M. Fly ash collected from electrostatic precipitators: Microcrystalline structures and the mystery of the spheres. Science (Washington, DC) 129 (1976) 553-555.
[3] Carlson C.L., and Adriano D.C. Environmental impacts of coal combustion residues. J. Environ. Qual. 22 (1993) 227-247.
[4] Summers R., Clarke M., Pope T., and O’Dea T. Western Australian fly ash on sandy soils for clover production. Commun. Soil Sci. Plant Anal. 29 (1998) 2757-2767.
[5] Gangloff W.J., Ghodrati M., Sims J.T., and Vasilas B.L. Impact of fly ash amendment and incorporation method on hydraulic properties of a sandy soil. Water Air Soil Pollut. 119 (2000) 231-245.
[6] Adriano D.C., Page A.L., Elseewi A.A., Chang A.C., and Straughan I. Utilization and disposal of fly ash and other coal residues in terrestrial ecosystems: A review. J. Environ. Qual. 9 (1980) 333-344.
[7] Swamy R. N. and Lambert G.H. The Microstructure of Lytag aggregate. The International Journal of Cement Composites and Lightweight Concrete 3 (4) (1981) 273-282.
[8] Plank C.O. and Martens D.C. Boron availability as influenced by application of fly ash to soil. Soil Sci. Soc. Am. Proc. 38 (1974) 974-977.
[9] Page A.L., Elseewi A.A., and Straughan I.R. Physical and chemical properties of fly ash from coal-fired power plants with reference to environmental impacts. Residue Rev. 71 (1979) 83-120.