A Comparative Study of Metal Extraction from Spent Catalyst Using Acidithiobacillus ferrooxidans
The recovery of metal values and safe disposal of
spent catalyst is gaining interest due to both its hazardous nature and
increased regulation associated with disposal methods. Prior to the
recovery of the valuable metals, removal of entrained deposits limit
the diffusion of lixiviate resulting in low recovery of metals must be
taken into consideration. Therefore, petroleum refinery spent catalyst
was subjected to acetone washing and roasting at 500oC. The treated
samples were investigated for metals bioleaching using
Acidithiobacillus ferrooxidans in batch reactors and the leaching
efficiencies were compared. It was found out that acetone washed
spent catalysts results in better metal recovery compare to roasted
spent. About 83% Ni, 20% Al, 50% Mo and 73% V were leached
using the acetone washed spent catalyst. In both the cases, Ni, V and
Mo was high compared to Al.
[1] M. Marafi, A. Stanislaus, "Optios and process for spent catalyst
handling and utilization" J. Hazard. Mater. Vol. 101, p.123-132, 2003.
[2] M. Marafi, A. Stanislaus, "Spent catalyst waste management: A review
Part I-Developments in hydroprocessing catalyst waste reduction and
use" Conserv. Recycling. Vol. 52,, p.859-873, 2008.
[3] D. Pradhan, D. Mishra, D. J. Kim, J.G. Ahan, G.R. Chaudhury,
"Bioleaching kinetics and multivariate analysis of spent petroleum
catalyst dissolution using two acidophiles" Journal of Hazardous
Materials. Vol.175, p. 267-273, 2010.
[4] R. M. Gholami, S. M. Borghei, S. M. Mousavi, "Bacterial leaching of a
spent Mo-Co-Ni refinery catalyst using Acidthiobacillus ferrooxidans
and Acidithiobacillus thiooxidans" Hydrometallurgy. Vol.106, p.26-31,
2011.
[5] D. Pradhan, D. J. Kim, J. G. Ahn, G. R. Chaudhury, S. W. Lee,"Kinetics
and statistical behavior of metals dissolution from spent petroleum
catalyst using acidophilic iron oxidizing bacteria" Journal of Industrial
and Engineering Chemistry. Vol.16, p.866-871, 2010.
[6] D. Mishra, D. J. Kim, D. E. Ralph, J. G. Ahn, Y. H. Rhee,"Bioleaching
of spent hydro-processing catalyst using acidophilic bacteria and its
kinetics aspect" J. Hazard. Mat. Vol.152, p.1082-1091, 2008.
[7] D. Mishra, D. J. Kim, D. E. Ralph, J. G. Ahn, Y. H. Rhee,"Bioleaching
of vanadium rich spent refinery catalysts using sulfur oxidizing
lithotrophs" Hydrometllurgy. Vol. 88, p.202-209, 2007.
[8] L. Briand, H. Thomas, E. Donati, "Vanadium (V) reduction in
Thiobacillus thiooxidans cultures on elemental sulfur" Biotechnology
letters. Vol. 18, p. 505-508, 1996.
[9] W. Mulak, B. Miazga, A. Szymczycha, "Kinetics of nickel leaching
from spent catalyst in sulphuric acid solution" Int. J. Miner. Process. Vol.
77, p.231- 235, 2005.
[10] D.Mishra, D. J. Kim, D. E. Ralph, J. G. Ahn, Y. H. Rhee "Bioleaching
of vanadium rich spent refinery catalysts using sulfur oxidizing
lithotrophs" Hydrometallurgy. Vol. 88, p. 202-209, 2007.
[11] D. Mishra, J. G. Ahn, D. J. Kim, G. R. Chaudhury, D. E. Ralph,
Dissolution kinetics of spent petroleum catalyst using sulfur oxidizing
acidophilic microorganisms. Journal of Hazardous Materials. Vol. 167,
p.1231-1236, 2009.
[12] Blight, K.R., Ralph, D.E., 2004. Effect of ionic strength on iron
oxidation with batch cultures of chemolithotrophic bacteria.
Hydrometallurgy 73, 325- 334.
[13] T. Rohwerder, T. Gehrke, K. Kinzler, W. Sand, "Bioleaching review
part A: progress in bioleaching: fundamentals and mechanisms of
bacterial metal sulfide oxidation" Appl Microbial Biotechnol. Vol 63, p.
239-248, 2003.
[1] M. Marafi, A. Stanislaus, "Optios and process for spent catalyst
handling and utilization" J. Hazard. Mater. Vol. 101, p.123-132, 2003.
[2] M. Marafi, A. Stanislaus, "Spent catalyst waste management: A review
Part I-Developments in hydroprocessing catalyst waste reduction and
use" Conserv. Recycling. Vol. 52,, p.859-873, 2008.
[3] D. Pradhan, D. Mishra, D. J. Kim, J.G. Ahan, G.R. Chaudhury,
"Bioleaching kinetics and multivariate analysis of spent petroleum
catalyst dissolution using two acidophiles" Journal of Hazardous
Materials. Vol.175, p. 267-273, 2010.
[4] R. M. Gholami, S. M. Borghei, S. M. Mousavi, "Bacterial leaching of a
spent Mo-Co-Ni refinery catalyst using Acidthiobacillus ferrooxidans
and Acidithiobacillus thiooxidans" Hydrometallurgy. Vol.106, p.26-31,
2011.
[5] D. Pradhan, D. J. Kim, J. G. Ahn, G. R. Chaudhury, S. W. Lee,"Kinetics
and statistical behavior of metals dissolution from spent petroleum
catalyst using acidophilic iron oxidizing bacteria" Journal of Industrial
and Engineering Chemistry. Vol.16, p.866-871, 2010.
[6] D. Mishra, D. J. Kim, D. E. Ralph, J. G. Ahn, Y. H. Rhee,"Bioleaching
of spent hydro-processing catalyst using acidophilic bacteria and its
kinetics aspect" J. Hazard. Mat. Vol.152, p.1082-1091, 2008.
[7] D. Mishra, D. J. Kim, D. E. Ralph, J. G. Ahn, Y. H. Rhee,"Bioleaching
of vanadium rich spent refinery catalysts using sulfur oxidizing
lithotrophs" Hydrometllurgy. Vol. 88, p.202-209, 2007.
[8] L. Briand, H. Thomas, E. Donati, "Vanadium (V) reduction in
Thiobacillus thiooxidans cultures on elemental sulfur" Biotechnology
letters. Vol. 18, p. 505-508, 1996.
[9] W. Mulak, B. Miazga, A. Szymczycha, "Kinetics of nickel leaching
from spent catalyst in sulphuric acid solution" Int. J. Miner. Process. Vol.
77, p.231- 235, 2005.
[10] D.Mishra, D. J. Kim, D. E. Ralph, J. G. Ahn, Y. H. Rhee "Bioleaching
of vanadium rich spent refinery catalysts using sulfur oxidizing
lithotrophs" Hydrometallurgy. Vol. 88, p. 202-209, 2007.
[11] D. Mishra, J. G. Ahn, D. J. Kim, G. R. Chaudhury, D. E. Ralph,
Dissolution kinetics of spent petroleum catalyst using sulfur oxidizing
acidophilic microorganisms. Journal of Hazardous Materials. Vol. 167,
p.1231-1236, 2009.
[12] Blight, K.R., Ralph, D.E., 2004. Effect of ionic strength on iron
oxidation with batch cultures of chemolithotrophic bacteria.
Hydrometallurgy 73, 325- 334.
[13] T. Rohwerder, T. Gehrke, K. Kinzler, W. Sand, "Bioleaching review
part A: progress in bioleaching: fundamentals and mechanisms of
bacterial metal sulfide oxidation" Appl Microbial Biotechnol. Vol 63, p.
239-248, 2003.
@article{"International Journal of Chemical, Materials and Biomolecular Sciences:55472", author = "Haragobinda Srichandan and Sradhanjali Singh and Dong Jin Kim and Seoung-Won Lee", title = "A Comparative Study of Metal Extraction from Spent Catalyst Using Acidithiobacillus ferrooxidans", abstract = "The recovery of metal values and safe disposal of
spent catalyst is gaining interest due to both its hazardous nature and
increased regulation associated with disposal methods. Prior to the
recovery of the valuable metals, removal of entrained deposits limit
the diffusion of lixiviate resulting in low recovery of metals must be
taken into consideration. Therefore, petroleum refinery spent catalyst
was subjected to acetone washing and roasting at 500oC. The treated
samples were investigated for metals bioleaching using
Acidithiobacillus ferrooxidans in batch reactors and the leaching
efficiencies were compared. It was found out that acetone washed
spent catalysts results in better metal recovery compare to roasted
spent. About 83% Ni, 20% Al, 50% Mo and 73% V were leached
using the acetone washed spent catalyst. In both the cases, Ni, V and
Mo was high compared to Al.", keywords = "Acetone wash, At. ferrooxidans, Bioleaching, Calcined, Metal recovery.", volume = "7", number = "6", pages = "405-5", }
