In the present investigation B. circulans, a heterotrophic microorganism has been used for the recovery of copper, nickel and cobalt from Indian Ocean nodules. The organism after reviving in growth medium and gradual adaption on sea nodules, was used for the bioleaching studies in shake flasks under a range of conditions such as pH, pulp density, particle size of nodules and temperature. The leaching of metals was found to be 92% Cu, 73% Ni, 72% Co, 38% Mn and 17% Fe in 25 days at 5% (w/v) pulp density (PD), 2 pH and 35°C. XRD identification of the leach residue showed the presence of some lower and mixed oxidation phases of manganese and some unaltered iron phases. Surface morphology of the bioleach residue was examined by SEM. The process...
The key for successful and efficient dissolution of copper, nickel and cobalt from the ocean mangane...
A marine organism (Bacillus M1) isolated from Indian Ocean manganese nodules was characterized. The ...
A marine organism (Bacillus M1) isolated from Indian Ocean manganese nodules was characterized. The ...
Indian Ocean manganese nodules offer a lucrative resource for valuable strategic metals like Cu, Co ...
Indian Ocean manganese nodules offer a lucrative resource for valuable strategic metals like Cu, Co ...
Indian Ocean manganese nodules offer a lucrative resource for valuable strategic metals like Cu, Co ...
Polymetallic Indian Ocean nodules offer a lucrative resource for valuable strategic metals like Cu, ...
Polymetallic Indian Ocean nodules offer a lucrative resource for valuable strategic metals like Cu, ...
Polymetallic Indian Ocean nodules offer a lucrative resource for valuable strategic metals like Cu, ...
Polymetallic Indian Ocean nodules offer a lucrative resource for valuable strategic metals like Cu, ...
Polymetallic Indian Ocean nodules offer a lucrative resource for valuable strategic metals such as C...
The biodissolution of copper, nickel and cobalt from the Indian Ocean manganese nodules has been inv...
Polymetallic Indian Ocean nodules offer a lucrative resource for valuable strategic metals such as C...
Polymetallic Indian Ocean nodules offer a lucrative resource for valuable strategic metals such as C...
The present paper studies anaerobic bio-leaching of manganese nodules by Thiobacillus ferrooxidans s...
The key for successful and efficient dissolution of copper, nickel and cobalt from the ocean mangane...
A marine organism (Bacillus M1) isolated from Indian Ocean manganese nodules was characterized. The ...
A marine organism (Bacillus M1) isolated from Indian Ocean manganese nodules was characterized. The ...
Indian Ocean manganese nodules offer a lucrative resource for valuable strategic metals like Cu, Co ...
Indian Ocean manganese nodules offer a lucrative resource for valuable strategic metals like Cu, Co ...
Indian Ocean manganese nodules offer a lucrative resource for valuable strategic metals like Cu, Co ...
Polymetallic Indian Ocean nodules offer a lucrative resource for valuable strategic metals like Cu, ...
Polymetallic Indian Ocean nodules offer a lucrative resource for valuable strategic metals like Cu, ...
Polymetallic Indian Ocean nodules offer a lucrative resource for valuable strategic metals like Cu, ...
Polymetallic Indian Ocean nodules offer a lucrative resource for valuable strategic metals like Cu, ...
Polymetallic Indian Ocean nodules offer a lucrative resource for valuable strategic metals such as C...
The biodissolution of copper, nickel and cobalt from the Indian Ocean manganese nodules has been inv...
Polymetallic Indian Ocean nodules offer a lucrative resource for valuable strategic metals such as C...
Polymetallic Indian Ocean nodules offer a lucrative resource for valuable strategic metals such as C...
The present paper studies anaerobic bio-leaching of manganese nodules by Thiobacillus ferrooxidans s...
The key for successful and efficient dissolution of copper, nickel and cobalt from the ocean mangane...
A marine organism (Bacillus M1) isolated from Indian Ocean manganese nodules was characterized. The ...
A marine organism (Bacillus M1) isolated from Indian Ocean manganese nodules was characterized. The ...