Fractal kinetic characteristics of uranium leaching from low permeability uranium-bearing sandstone |
Zeng, Sheng
(School of Resources Environment and Safety Engineering, University of South China)
Shen, Yuan (School of Resources Environment and Safety Engineering, University of South China) Sun, Bing (Civil Engineering College, University of South China) Tan, Kaixuan (School of Resources Environment and Safety Engineering, University of South China) Zhang, Shuwen (School of Resources Environment and Safety Engineering, University of South China) Ye, Wenhao (School of Resources Environment and Safety Engineering, University of South China) |
1 | B. Zhang, M. Li, X. Zhang, J. Huang, Kinetics of uranium extraction from uranium tailings by oxidative leaching, J. JOM. 68 (2016) 1990-2001. DOI |
2 | Z. Song, G. Liu, W. Yang, H. Zou, M. Sun, X. Wang, Multi-fractal distribution analysis for pore structure characterization of tight sandstone-a case study of the upper paleozoic tight formations in the longdong district, ordos basin, J. Marine and Petroleum Geology 92 (2018) 842-854. DOI |
3 | D.K. Nordstrom, D.W. Blowes, C.J. Ptacek, Hydrogeochemistry and microbiology of mine drainage: an update, J. Applied Geochemistry. 57 (2015) 3-16. DOI |
4 | Ministry of Nuclear Industry of the People's Republic of China, Determination of Uranium in Uranium Ore-Titanium Trichloride Reduction/Ammonium Vanadate Oxidation Titration Method, S. EJ/T 267, 1984, p. 3. |
5 | Li Peng, Min Zheng, Bi He, Songtao Wu, Xiaorui Wang, Pore throat structure and fractal characteristics of tight oil sandstone: a case study in the Ordos Basin, China, J. Petrol. Sci. Eng. 149 (2017) 665-674. DOI |
6 | Q. Ma, Z.G. Feng, P. Liu, X.K. Lin, Z.G. Li, M.S. Chen, Uranium speciation and in situ leaching of a sandstone-type deposit from China, J. Radioanal. Nucl. Chem. 311 (2017) 2129-2134. DOI |
7 | A.H. Orabi, S.A. Zaki, M.M. Bayoumi, D.A. Ismaiel, Leaching characteristics of uranium from el-missikat mineralized granite, J. Euro-Mediterranean Journal for Environmental Integration. 6 (1) (2021) 1-20. DOI |
8 | Lagneau Vincent, Olivier Regnault, Michael Descostes, Industrial deployment of reactive transport simulation: an application to uranium in situ recovery, J. Reviews in Mineralogy and Geochemistry. 85 (1) (2019) 499-528. DOI |
9 | X. Zhang, C. Wu, T. Li, Comparison analysis of fractal characteristics for tight sandstones using different calculation methods, J. Geophys. Eng. 14 (1) (2017) 120-131. DOI |
10 | P. Su, Z. Xia, L. Qu, W. Yu, P. Wang, D. Li, Fractal characteristics of low-permeability gas sandstones based on a new model for mercury intrusion porosimetry, J. Nat. Gas Sci. Eng. 60 (2018) 246-255. DOI |
11 | A. Fw, A. Ky, B. Jy, C. Xl, Analysis of pore size distribution and fractal dimension in tight sandstone with mercury intrusion porosimetry, J. Results in Physics 13 (2019) 102283. DOI |
12 | T. A, M.E. Lasheen, H.B. El-Ahmady, A. Hassib, Oxidative leaching kinetics of molybdenum-uranium ore in h2so4 using h2o2 as an oxidizing agent, J. Frontiers of Chemical Science & Engineering 7 (2013) 95-102. DOI |
13 | Xinrui Zhu, Xuheng Liu, Zhongwei Zhao, Leaching kinetics of scheelite with sodium phytate, J. Hydrometallurgy. 186 (2019) 83-90. DOI |
14 | V. Madakkaruppan, A. Pius, T. Sreenivas, K.S. Kumar, Leaching kinetics of uranium from a quartz-chlorite-biotite rich low-grade indian ore, J. Radioanal. Nucl. Chem. 303 (2015) 1793-1801. |
15 | V. Maruvanchery, E. Kim, Mechanical characterization of thermally treated calcite-cemented sandstone using nanoindentation, scanning electron microscopy and automated mineralogy, J. International Journal of Rock Mechanics and Mining Sciences 125 (2020) 104158. DOI |
16 | H.S. Mohammed, Y.K. Abdel-Monem, M.G. El-Feky, S.A. Omer, M.R. Ahmed, Leaching of el-missikat low-grade fluoritized uranium ore by sulfuric acid: mechanism and kinetic, J. Radioanal. Nucl. Chem. 319 (2019) 245-255. DOI |
17 | J. Shen, L. Jun-Wen, Z.P. Tang, L. Yang, Leaching kinetics of uranium from waste residue by sulfuric acid with surfactant mes, J. Science Technology and Engineering 16 (11) (2016) 115-119. |
18 | D. Shang, B. Ge Issler, M. Mew, L. Satalkina, N. Haneklaus, Unconventional uranium in China's phosphate rock: review and outlook, J. Renewable and Sustainable Energy Reviews 140 (2021) 110740. DOI |
19 | Iaea, Recent Developments in Uranium Resources and Production with Emphasis on In-Situ Leach Mining, IAEA-TECDOC, R. Vienna, Austria, 2004, p. 1396. |
20 | Sheng Zeng, Yuan Shen, Bing Sun, Ni Zhang, Shuwen Zhang, Feng Song, Pore structure evolution characteristics of sandstone uranium ore during acid leaching, J. Nucl. Eng. Technol. (2021), https://doi.org/10.1016/j.net.2021.06.011. DOI |
21 | Sheng Zeng, Jinzhu Li, Kaixuan Tan, Shuwen Zhang, Fractal kinetic characteristics of hard-rock uranium leaching with sulfuric acid, J. Royal Society Open Science. 5 (9) (2018) 19. |
22 | P. Li, M. Zheng, H. Bi, S.T. Wu, X.R. Wang, Pore throat structure and fractal characteristics of tight oil sandstone: a case study in the Ordos Basin, China, J. Petrol. Sci. Eng. 149 (2017) 665-674. DOI |
23 | M.K. Tanaydin, Z. Bakici Tanaydin, N. Demirkiran, Determination of optimum process conditions by central composite design method and examination of leaching kinetics of smithsonite ore using nitric acid solution, J. Sustain. Metall. 7 (2021) 178-191. DOI |
24 | Kaixuan Tan, Chunguang Li, L.I.U. Jiang, Huiqiong Qu, Yongmei Li, A novel method using a complex surfactant for in-situ leaching of low permeable sandstone uranium deposits, J. Hydrometallurgy 150 (2014) 99-106. DOI |
25 | Z.Q. Zhang, Y.M. Shi, H. Li, W.Q. Jin, Experimental study on the pore structure characteristics of tight sandstone reservoirs in Upper Triassic Ordos Basin China, J. Energy Explor Exploit 34 (2016) 418-439. DOI |
26 | Zhentao Li, Dameng Liu, Yidong Cai, Yunpeng Wang, Guangyao Si, Evaluation of coal petrophysics incorporating fractal characteristics by mercury intrusion porosimetry and low-field NMR, J. Fuel. 263 (2020) 116802. DOI |
27 | Na Zhang, Shuibing Wang, Chenggang Yan, JianJie Gao, rong Guo, hao Wang, Pore structure evolution of hydration damage of mudstone based on NMR technology, J. Journal of China Coal Society 44 (S1) (2019) 110-117. |
28 | S.H. Yin, L.M. Wang, C.Y. Pan, X. Chen, Effect of fine interlayers on surface morphology and passivation during leaching, J. Chinese Journal of Engineering 40 (8) (2018) 910-917. |
29 | Bing Sun, Shituan Chen, Qinglai Zhou, Sheng Zeng, Analysis of factors affecting leaching rate during in-situ leaching of uranium, J. China, Modern Mining. 36 (8) (2020) 89-93 (in Chinese). |
30 | S. Espiari, F. Rashi, S.K. Sadrnezhaad, Hydrometallurgical treatment of tailings with high zinc content, J. Hydrometallurgy. 82 (1-2) (2006) 54-62. DOI |
31 | Z. Liu, T. Xiu, Y. Du, Y. Wang, Leaching characteristics and kinetics of radioactive element uranium and thorium from ta/nb tailing, J. Radioanal. Nucl. Chem. 323 (2020) 1197-1206. DOI |
32 | S. Zeng, K.X. Tan, Effect of fractal feature of the crushing size distribution on uranium leaching rate, J. Min. Metall. Eng. 31 (2011) 16-18. |
33 | L. Sinclair, J. Thompson, In situ leaching of copper:Challenges and future prospects, J. Hydrometallurgy 157 (2015) 306-324. DOI |
34 | J. Lai, G.W. Wang, Fractal analysis of tight gas sandstones using high-pressure mercury intrusion techniques, J. Nat. Gas Sci. Eng. 24 (2015) 185-196. DOI |
35 | L.C. Zhang, S.F. Lu, D.S. Xiao, B. Li, Pore structure characteristics of tight sandstones in the northern Songliao Basin, China, J. Mar Petrol Geol. 88 (2017) 170-180. DOI |
36 | Rujiang Pan, Xiang He, Weimin Xiao, Application of CT scanning technology in 3D core reconstruction, J. Research on CT Theory and Application 27 (3) (2018) 349-356. |
37 | B. Bai, R. Zhu, S. Wu, et al., Multi-scale method of Nano(Micro)-CT study on microscopic pore structure of tight sandstone of Yanchang Formation, Ordos Basin, J. Pet Explor Dev. 40 (2013) 354-358. DOI |
38 | Heping Xie, Fractal geometry and its application in rock mechanics, J. Chinese Jounal of Geotechnical Engineering 14 (1) (1992) 14-24. |
39 | Fuyong Wang, Kun Yang, Jingxi You, Xiujie Lei, Analysis of pore size distribution and fractal dimension in tight sandstone with mercury intrusion porosimetry, J. Results in Physics 13 (2019). |
40 | H.H. Wang, G.Q. Li, D. Zhao, J.H. Ma, J. Yang, Dephosphorization of high phosphorus oolitic hematite by acid leaching and the leaching kinetics, J. Hydrometallurgy 171 (2017) 61-68. DOI |
41 | Xiaobo Guo, Zhilong Huang, Libin Zhao, Wei Han, Ruo-mei Wang, Pore structure and multi-fractal analysis of tight sandstone using MIP, NMR and NMRC methods: a case study from the Kuqa depression, China, J. Journal of Petroleum Science and Engineering 178 (2019) 544-558. DOI |
42 | V. Madakkaruppan, A. Pius, T. Sreenivas, N. Giri, C. Sarbajna, Influence of microwaves on the leaching kinetics of uraninite from a low grade ore in dilute sulfuric acid, J. Journal of Hazardous Materials 313 (2016) 9-17. DOI |
43 | Dexin Ding, Haiying Fu, Yongjun Ye, Nan Hu, Yongdong Wang, A fractal kinetic model for heap leaching of uranium ore with fractal dimension of varied particle size distribution, J. Hydrometallurgy. 136 (2013) 85-92. DOI |
44 | J. Slezak, Uranium ISL mining activities at the international atomic energy agency, J. Uranium Mining and Hydrogeology (2008) 1-10. |