M a y 0 9 - 1 0 , 2 0 1 9

S t o c k h o l m , S w e d e n

Page 30

Journal of Organic & Inorganic Chemistry

ISSN: 2472-1123

Advanced Chemistry 2019

2

nd

European Congress on

Advanced Chemistry

I

n the 20

th

century, a huge amount of experimental material was accumulated

that confirms the correctness of M Faraday’s views on the effect of electric

current on chemical reactions. Key moments and main theses of M Faraday's

works: identity of energy manifestations in the interaction of material objects;

the discrete nature of the electric current. The concept of the discrete nature of

electric current allows the use of a combination of electric current parameters

to organize unusual chemical reactions. The provision on the identity of

energy manifestations in the interaction of material objects provides the basis

for revising the scientific provisions on the mechanism of heat exchange

between material objects. A method has been developed for using combined

electrochemical reactions to obtain a leaching agent and extract metals

into a solution from mineral raw materials in the volume of a single reactor.

In the course of the research, a sodium hydroxide solution served as the

starting solution for the reactions. A sulfur-graphite electrode was used as a

source of sulfur for the preparation of reagents. When extracting metals into

solution, it was shown that virtually all physicochemical factors influence

the leaching process and the microstructure of inorganic aqueous solutions

should be considered as one of the important parameters of the technological

process. In particular, the pH of the initial and productive solutions changes

with temperature. For productive solutions, this change is not reversible. It

is shown that surface tension decreases with increasing sodium hydroxide

concentration. The degree of extraction of copper in the electroleaching of the

concentrate - 1 for 6 hours is at 0.1 M sodium hydroxide 21.5%, 0.2 M - 30.04%,

0.5 M - 43.1%, 1.0 M - 46 3%. With an increase in temperature to 450°C, copper

recovery increases from 26.8% to 35.7%.

Biography

Sharipov Rustam Hasanovich has studied at the Kazakh

National Technical University named after KI Satpayev in the

Specialty Metallurgy from 2005 to 2009. He has studied at

the on the Specialty Material Science and Technology of New

Materials from the same University from 2005 to 2009. He

has worked in the National Center for Complex Processing of

Mineral Raw Materials of the Republic of Kazakhstan in the

Laboratory Technology of Electrochemical Productions as an

Engineer-Researcher from 2009 to 2013. He has studied in the

Graduate School of the Kazakh-BritishTechnical University with

a Degree in Metallurgy. Currently, he is working as a Research

Assistant at the Advanced Materials and Technologies

Laboratory at the Kazakh-British Technical University.

freedom.k@mail.ru

Organization of unusual and combined chemical reactions to

extract metals from refractory ores

Sharipov R H, Utelbayev B T and Suleimenov E N

Kazakh-British Technical University, Kazakhstan

Sharipov R H et al., J Org Inorg Chem 2019, Volume:5

DOI: 10.21767/2472-1123-C2-023