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The teaching
Chemical technology field, Magister training program "Inorganic Substances and Materials Chemical Technology", specialization "The Main Inorganic Synthesis Technology", course of lections:
1. Technological gases treatment for the ammonia and methanol production
2. Ammonia synthesis and methanol synthesis
3. Nitric acid production
Postgraduate educational program "Chemical Technology", diciplines:
- Chemical technology processes and equipment
- Inorganic material nano-powder production bases
“The main inorganic synthesis technology"
The discipline purpose is to prepare competitive able graduates to the Chemical Industry.
Course content:
Technology gases treatment for the ammonia and methanol production. Industry and synthesis gases of inorganic substances synthesis technology and their properties. Gases production methods. Hydrogen production by the method of hydrocarbon gases convertion and others. Gases cleaning methods from contact poisons and other impurities.
Ammonia synthesis and methanol synthesis. Physic-chemical bases. Catalysts, energy and resources protective diagrams and the peculiarities of the ammonia production. Optimal temperature condition in the catalyst area and the constructions.
Nitric acid production. Physical-chemical bases. Diluted and concentrated nitric acid. Ammonia oxides catalysts. The contemporary highly productive manufactures.
“Chemical Thechnology processes and equipment”
The discipline is the base for postgraduates lined 05.17.08 and is necessary for qualification thesis and exam.
Content:
1. Introduction. The Chemical Thechnology processes theory.
2. Non-homogeneous system separation
3. Heat-exchange processes and equipment
4. Mass transfer processes and equipment
“Inorganic material nano-powder production bases”
The discipline is elective for postgraduates lined 05.17.08 and can be useful for qualification thesis and exam.
Content:
1. The inorganic material nano-powder production base methods
2. Material production by solutions precipitation method
3. Chemical and thermal methods
4. Mechanic-chemical methods
5. Alternating current electrochemical synthesis
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