Items where Subject is "Metallurgy > Extractive Metallurgy"
Group by: Creators | Item Type
Number of items at this level: 20.
Abhilash, and Pandey, B D (2013) Microbially Assisted Leaching of Uranium—A Review. Mineral Processing and Extractive Metallurgy Review, 34 . pp. 81-113.
Agrawal, A and Kumari, S and Sahu, K K (2009) Iron and copper recovery/removal from industrial wastes: A review. Industrial & Engineering Chemistry Research, 48 (13). pp. 6145-6161.
Babu, M Nani and Sahu, K K and Pandey, B D (2002) Zinc recovery from sphalerite concentrate by direct oxidative leaching with ammonium, sodium and potassium persulphates. Hydrometallurgy, 64 (2). pp. 119-129.
Bhattacharya, Maitreyee (2016) Reaction Mechanism and Thermodynamics of Segregation Roasting of Iron Oxide. International Journal of Mineral Processing and Extractive Metallurgy, 1(5) . pp. 64-69.
Choi, Seo-Young and Nguyen, Viet Tu and Lee, Jae-chun and Kang, Ho and Pandey, B D (2014) Liquid–liquid extraction of Cd(II) from pure and Ni/Cd acidic chloride media using Cyanex 921: A selective treatment of hazardous leachate of spent Ni–Cd batteries. Journal of Hazardous Materials, 278 (IF-4.331). pp. 258-266.
Hung Ha, Vinh and Lee, Jae-chun and Huyunh, Trung Hai and Jeong, Jinki and Pandey, B D (2014) Optimizing the thiosulfate leaching of gold from printed circuit boards of discarded mobile phone. Hydrometallurgy, 149 (IF-2.224). pp. 118-126.
Murthy, D S R and Kumar, Vinod and Rao, K V (2003) Extraction of gold from an Indian low-grade refractory gold ore through physical beneficiation and thiourea leaching. Hydrometallurgy, 68 (1-3). pp. 125-130.
Pal, J and Ghorai, S and Goswami, M C and Ghosh, Sukomal and Ghosh, Dinabandhu and Bandyopadhyay, D (2009) Development of Fluxed iron oxide pellets strengthened by CO2 treatment for use in basic oxygen steel making. ISIJ International, 49 (2). pp. 210-219.
Pal, J and Ghorai, S and Venkatesh, P and Goswami, M C and Bandopadhyay, D and Ghosh, Sukomal (2013) Development of fluxed micropellets for sintering utilising iron oxide waste fines. Ironmaking & Steelmaking, 40(7) (IF-0.454). pp. 498-504.
Pal, J and Goswami, M C and Mahato, B and Ghosh, Sukomal and Ghosh, Dinabandhu and Bandyopadhyay, D (2009) High Temperature Characterization of CO2 Treated Fluxed Pellets Developed for Basic Oxygen Steel Making. ISIJ International, 49 (9). pp. 1325-1332.
Paswan, Dayanand (2016) An over view on testing of Raw materials. National Workshop on Experimental techniques in extractive metallurgy (ETEM-2016) . pp. 83-92.
Prasad, Sanjay and Pandey, B D (1998) Alternative processes for treatment of chalcopyrite —A review. Minerals Engineering, 11 (8). pp. 763-781.
Puvvada, G V K (1999) Liquid–liquid extraction of gallium from Bayer process liquor using Kelex 100 in the presence of surfactants. Hydrometallurgy, 52 (1). pp. 9-19.
Shanmuganathan, P and Lakshmipathiraj, P and Srikanth, S and Nachiappan, A L and Sumathy, A (2008) Toxicity characterization and long-term stability studies on copper slag from the ISASMELT process. Resources Conservation and Recycling, 52 (4). pp. 601-611.
Sinha, A N and Balasundaram, L J (1965) Measurement of curie temperature by an induction method. NML Technical Journal, 7 (4). pp. 7-8.
Sinha, Manish K and Sahu, S K and Meshram, Pratima and Pandey, B D (2014) Solvent extraction and separation of zinc and iron from spent pickle liquor. Hydrometallurgy, 147–148 (IF-2.224). pp. 103-111.
Sinha, Manish K and Sahu, S K and Meshram, Pratima and Pandey, B D and Kumar, Vinay (2011) Solvent extraction and separation of copper and zinc from a pickling solution. In: 15th International Conference on Nonferrous Metals 2011, 7-8 July 2011, Kolkata,India.
Srikanth, S and Kumar, Rakesh and Devi, L M and Kumar, Satender and Hait, Jhumki and Khan, Z H (2009) Insitu activation leaching and exsitu activation-pressure leaching of zircon in acid and alkaline solutions (OLP-0095). Exploratory (OLP). CSIR-NML, Jamshedpur. (Submitted)
Tandon, D S and Saha, A K and Mahanty, M S and Bhatnagar, P P (1971) Studies on ammoniacal pressure leaching of bulk Ni-Cu-Mo sulphide concentrate. NML Technical Journal, 13 (4). pp. 87-92.