isolation of the secondary kaolin from Angren deposit in the biological liquids
is realized with the use of the various types of iron-oxidizing acidophilic bacteria, breaking down
sulphide minerals. At the application of this method, iron element decrease is observed that
decrease the quality of kaolin.
Ангрен қазилмасидаги иккиламчи колинларнинг биологик
суюқликда ажратиб олиш, сульфид минералларини парчаловчи темироксидловчи
ацидофил бактерияларнинг турли хил турлари қфлланилиши орқали амалга
оширилади. Ушбу метод қфлланилганда каолиннинг сифатини пасайтирувчи темир
элементи камайиши кузатилди.
| № | Author name | position | Name of organisation |
|---|---|---|---|
| 1 | Ismatov A.M. | Namdu | |
| 2 | Mavlanova S.A. | Namdu |
| № | Name of reference |
|---|---|
| 1 | SHakarova T.I., Salimov Z.S., Mkrtchyan R.V. O vozmojnosti ‘ovqsheniya kachestva Angrenskix kaolinov. Ximicheskaya ‘romqshlennostg’ M., 2002, №12. |
| 2 | G.I. Karavayko. Mikroorganizmq i ix rolg’ v biotexnologii metallov. « Biogeotexnologiya metallov» Moskva 1969.s 11-26. |
| 3 | Karavayko G.I. i dr. Rolg’ mikroorganizmov i nekotorqx fiziko-ximicheskix faktorov sredq v razrushenii kvartsa. Mikrobiologiya, 1964, 53. №6. s 976. |
| 4 | Styriakova I, Styriak, M.’. Nandakumar and B. Mattiasson, Bacterial destruction of mica during bioleaching of kaolin and quartz sands by Bacillus cereus. World journal of Microbiology and Biotechnology, volume 19, Number 6. August 2003. ‘ages 583-590. |
| 5 | ‘latova R. G1 and ‘latov Yu.T., A’’lication of biotechnology for the ceramic industry. « Glinq i glinistqe mineralq» . ‘ushino 2006. s 106. |