| 1 |
Extracting values from mine dumps and tailings
Watson JHP, Beharrell PA
Minerals Engineering, 19(15), 1580, 2006 |
| 2 |
The adsorption of heavy metals by tochilinite, an iron sulfide material produced by chemical precipitation: Analysis using a simple theory of chemisorption
Watson JHP, Ellwood DC, Cressey BA, Lidzey RA
Separation Science and Technology, 40(5), 959, 2005 |
| 3 |
Magnetic separator with transversally magnetised disk permanent magnets
Nedelcu S, Watson JHP
Minerals Engineering, 15(5), 355, 2002 |
| 4 |
Adsorption of radioactive metals by strongly magnetic iron sulfide nanoparticles produced by sulfate-reducing bacteria
Watson JHP, Croudace IW, Warwick PE, James PAB, Charnock JM, Ellwood DC
Separation Science and Technology, 36(12), 2571, 2001 |
| 5 |
High temperature superconducting permanently magnetised discs and rings: Prospects for use in magnetic separation
Watson JHP
Minerals Engineering, 12(3), 281, 1999 |
| 6 |
Technical note an experimental study with a vortex magnetic separation (VMS) device
Li Z, Watson JHP
Minerals Engineering, 9(3), 367, 1996 |
| 7 |
A chemostat with magnetic feedback for the growth of sulphate reducing bacteria and its application to the removal and recovery of heavy metals from solution
Watson JHP, Ellwood DC, Duggleby CJ
Minerals Engineering, 9(9), 973, 1996 |
| 8 |
THE EFFECT OF THE MATRIX SHAPE ON VORTEX MAGNETIC SEPARATION
LI Z, WATSON JHP
Minerals Engineering, 8(4), 401, 1995 |
| 9 |
VORTEX MAGNETIC SEPARATION - A HIGHLY SELECTIVE PROCESS WITH HIGH RECOVERY AND A HIGH PROCESSING RATE
WATSON JHP, LI ZG
Minerals Engineering, 8(4), 574, 1995 |
| 10 |
HEAVY-METAL ADSORPTION ON BACTERIALLY PRODUCED FES
WATSON JHP, ELLWOOD DC, DENG QX, MIKHALOVSKY S, HAYTER CE, EVANS J
Minerals Engineering, 8(10), 1097, 1995 |
