| 1 |
Effective bioremediation of Cu(II) contaminated waters with immobilized sulfate-reducing bacteria-microalgae beads in a continuous treatment system and mechanism analysis
Li YC, Yang XY, Geng B, Liu X
Journal of Chemical Technology and Biotechnology, 93(5), 1453, 2018 |
| 2 |
Retrospective future proofing of a copper mine: Quantification of errors and omissions in'As-built' documentation
Love PED, Zhou JY, Matthews J, Sing MCP
Journal of Loss Prevention in The Process Industries, 43, 414, 2016 |
| 3 |
Stability of As(V)-sorbed schwertmannite under porphyry copper mine conditions
HoungAloune S, Hiroyoshi N, Ito M
Minerals Engineering, 74, 51, 2015 |
| 4 |
Electrokinetic remediation of mine tailings by applying a pulsed variable electric field
Rojo A, Hansen HK, Monardez O
Minerals Engineering, 55, 52, 2014 |
| 5 |
Electrokinetic remediation using pulsed sinusoidal electric field
Rojo A, Hansen HK, Cubillos M
Electrochimica Acta, 86, 124, 2012 |
| 6 |
Electrokinetic remediation with high frequency sinusoidal electric fields
Rojo A, Hansen HK, Agramonte M
Separation and Purification Technology, 79(2), 139, 2011 |
| 7 |
Effect of electrode pulsation on the rate of simultaneous electrochemical recovery of copper and regeneration of ferric salts from dilute solutions
El-Gayar DA, El-Shazly AH, El-Taweel YA, Sedahmed GH
Chemical Engineering Journal, 162(3), 877, 2010 |
| 8 |
Electrodialytic remediation of copper mine tailings with sinusoidal electric field
Rojo A, Hansen H, del Campo J
Journal of Applied Electrochemistry, 40(6), 1095, 2010 |
| 9 |
Technological assessment of a mining-waste dump at the Dexing copper mine, China, for possible conversion to an in situ bioleaching operation
Wu AX, Yin SH, Wang HJ, Qin WQ, Qiu GZ
Bioresource Technology, 100(6), 1931, 2009 |
| 10 |
Heavy metal impact on bacterial biomass based on DNA analyses and uptake by wild plants in the abandoned copper mine soils
Guo ZH, Megharaj M, Beer M, Ming H, Rahman MM, Wu WH, Naidu R
Bioresource Technology, 100(17), 3831, 2009 |
