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http://dx.doi.org/10.5855/ENERGY.2018.27.4.064

Properties Evaluation and flowability of Controlled Low Strength Materials Utilizing Industrial By-Products  

Cho, Yong-Kwang (Danyang Factory, Hanil Cement Co.Ltd.)
Kim, Chun-Sik (Danyang Factory, Hanil Cement Co.Ltd.)
Nam, Seong-Young (Danyang Factory, Hanil Cement Co.Ltd.)
Cho, Sung-Hyun (Danyang Factory, Hanil Cement Co.Ltd.)
Lee, Hyoung-Woo (Danyang Factory, Hanil Cement Co.Ltd.)
Ahn, Ji-Whan (Center for Carbon Mineralization, Korea Institute of Geosceinces and Mineral Resources (KIGAM))
Publication Information
Journal of Energy Engineering / v.27, no.4, 2018 , pp. 64-69 More about this Journal
Abstract
The purpose of this study is to expand the use of coal ash and coal slag in thermal power plants. In addition, controlled low strength materials was developed to prevent mine settlement. Bottom ash and KR slag are mixed at ratio of 7:3 to expand the use of industrial by-products through carbonate reaction and inhibit the exudation of heavy metals. In order to efficiently fill the abandon mine, workability and physical properties were evaluated according to flow. As a result of elution of harmful substance experiment, it was confirmed that the carbonation reaction inhibited the elution of heavy metals. It was confirmed that the difference in water ratio was the difference in specific surface area of the controlled low strength materials. It was confirmed that the working efficiency is excellent when the flowability is 300mm compared to 260mm. compressive strength measurement result was relatively high at 260mm compared to 300mm because the number of pores due to decrease of water ratio was small.
Keywords
Industrial By-Products; backfill; carbonate reaction; flowability; mine;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
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1 Kim, JM., Kwon, SJ., 2016 Resources Recycling in Concrete Industry, Magazine of Korea Concrete Institute, Vol. 28(4) pp. 15-19.
2 Park, HY., Seo, SI., Kim, SC., Kang, DS. 2007, Reburning of bottom ash in a coal fired powder plant and its effect on the plant management, J. Korea Solid Wastes Eng. Soc. Vol, 24(5) pp472-481.
3 Kim, KD., Kang, SG., 2007, Manufacturing artificial lightweight aggregates using coal bottom ash and clay, J. Korea Cryst. Tech. Vol. 17(6) pp277-282.
4 ASTM (American Society for Testing and Materials) E2277-14, 2014 : Standard Guide for Design and Construction of Coal Ash Structural Fills.
5 Park, S. M. et al., 2015, Selective recovery of dissolved Fe, Al, Cu, and Zn in acid mine drainage based on modeling to predict precipitation pH, Environ. Sci. Pollut. Res., Vol. 22(4), pp. 3013-3022.   DOI
6 Yoo, J.C, Ji, SW, Ahn, JW, Kim, CS, Shin, HY, 2017, A Case Study of Mine Environmental Restoration using Coal Ash, J. of Korea Inst of Resources Recycling, Vol. 26(2), pp. 80-88.   DOI
7 Lee, B. K., Kim, G. Y., Koo, K. M., Shin, K. S., 2014, Properties of Compressive Strength of Mortar Based on High-activated Blast Furnace Slag using the Slag by-product as an Activator, Journal of the Korea Institute of Building Construction, Vol. 14, pp.37-44.   DOI
8 kim, K. D., Kang, S.G., 2007, Manufacturing artificial lightweight aggregates using coal bottom ash and clay" Journal of the Korean Crystal Growth and Crystal Technology, Vol. 17(6) pp. 277-282.
9 ACI, 229R, 2005, Controlled low strength materials, American Concrete Institute, Farminington Hills, MI, USA.