Technological Processes of Inorganic Industry

Code

Course teacher

Associate teachers

Status of the course

Course objectives

Gaining knowledge about the basics of technological processes of inorganic industry and the significance of technological processes in the economy and the practical implementation, with particular emphasis on the economy and sustainable development setting.

Course enrolment requirements and entry competences required for the course

Enrolled in or passed the course Exercises in Technological Processes of Inorganic Industry

Learning outcomes expected at the level of the course (4 to 10 learning outcomes)

After passing the exam, students gain theoretical and practical knowledge of basic technological processes and allows them to be independent:
- Systematize the basic technological processes
- Interpret technological processes through conceptual, ideological and procedural and process diagrams
Knowledge of:
- Modes of combustion and fuel quality, and necessary calculations
- Basic catalytic inorganic processes
- Fundamentals of crystallization and precipitation of inorganic salts and obtaining, displays a two, three - and four component system using diagrams
- Procedures for the preparation of process water: flocculation and sedimentation, water softening, demineralization - ion exchange, reverse osmosis and electrodialysis

Course content broken down in detail by weekly class schedule (syllabus)

Week 1: Introduction, course content, basic definitions, basic technological processes and systematization display processes using diagrams, processes and sustainable development
Week 2: Oxidation and reduction processes during the combustion parameters of judgment of quality fuel stoichiometric ratio of fuel to air-surplus costs, the amount and composition of flue gas, homogeneous and heterogeneous equilibrium processes and mechanisms at combustion
Week 3: Examples of industrial gases and combustion of liquid fuels, chemical
Breeding of solid fuel, the oxidation of sulfur, nitrogen and phosphorus, and obtaining of inorganic acids
Week 4: Processes of oxidation and reduction in electrochemical processes, electrolysis of molten electrolyte, basic catalytic inorganic processes;
Week 5: Seminar (tasks): fuel, industrial electrolysis, basic catalytic processes
Week 6: Hydrogenation processes and the synthesis of ammonia
Week 7: I. Partial colloquium, processes of dissolution and crystallization (precipitation) in aqueous systems
Week 8: Three-component systems and the balance in three component systems
Week 9: Four-component systems and their representations
10th week: Basic processes of extraction and separation of mineral salts, getting
of KNO3, kaustification of soda,
11th week: Aqueous dispersion of colloids, flocculation and sedimentation of colloids
Week 12: Basic processes in the procedures for the preparation of water in industry-depositional processes
13th week: Seminar (tasks): processes of melting and crystallization in multicomponent systems, decarbonisation and softening water demineralisation
Week 14: demineralization of water, processes with ion exchange, reverse
osmosis and electrodialysis
Week 15: II. Partial preliminary examination, repetition of important issues relevant to the course
oral exam

Format of instruction:

Student responsibilities