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ЧДТУ

Черкаський державний технологічний університет
Cherkasy state technological university

Черкаський державний технологічний універсітет

Ви тут: ЧДТУ Міжнародна діяльність Новини, оголошення, конференції Academic mobility program (Студентська мобільність)
Понеділок, 13 лютого 2017 00:29

Academic mobility program (Студентська мобільність)

Technical Equipment and Control Systems

3 credits

 

Annotated Plan of the Course

 

Lecture 1. General characteristics of physical-chemical methods of analysis

Features of the application of physical - chemical methods of analysis . Classification of physical - chemical methods of analysis . Methods of operations and settlement analysis.

Lecture 2. Main characteristics of the optical assays

The light absorption and law Bouguer-Lambert-Beer. Main characteristics of the electromagnetic radiation. The basic law of photometry - the law of Bouguer-Lambert-Beer. The absorption spectra. The main instrument components for photometric analysis.

Lecture 3. Optical methods of analysis

General characteristic spectral instruments. Fundamentals of emission spectroscopy. Main components of the spectral instruments. Atomic absorption analysis. Luminescent analysis.

Lecture 4. Electrochemical methods of analysis (I)

Characterization of electrochemical analysis methods. Electrodes indicator. The electrochemical cell. Indicator electrode in acid-base reactions, precipitation reactions, oxidation-reduction.

Lecture 5. Electrochemical methods of analysis (II)

Conductometry and potentiometers. Polarography, amperometry and coulometry. Voltammetry. The line inversion voltammetry, amperometric titration. direct and differential polarography method. Amperometric titration.

Lecture 6.Chromatographic analysis

General characteristics. Paper and thin layer chromatography. Mechanism of distribution. General characteristics. Gas-solid and gas-liquid chromatography. Sorbents, carriers and solvents used in chromatography. Methods for the preparation and analysis of chromatograms in various kinds of chromatography. Instruments for gas chromatography.

Lecture 7. Kinetic methods of analysis

Characteristics of kinetic methods of analysis. Influence of the concentration of the reactants in the rate of chemical reaction. Catalytic reaction for determining the concentration of catalyst. The role of catalysts in the application of kinetic methods. Sensitivity of catalytic reactions. The indicator reaction and the indicator substance.

Laboratoryclasses

Lab 1. Optical methods of analysis. Determination of iron (II) in aqueous solutions with a spectrophotometer UV-5800PC.

Lab 2. Photometric determination of phosphorus in the soil.

Lab 3. Spectrophotometric determination of heavy metal ions in aqueous solutions.

Lab 4. Photometric determination of phosphate content in drinking water.

Lab 5. Optical methods of analysis. Determination of surface active substances in aqueous solutions with a spectrophotometer UV-5800PC.

Lab 6. Optical methods of analysis. Refractometric method for determination of the substance in the aqueous solution.

Lab 7. Optical methods of analysis. Determination of dyes in aqueous solutions with a spectrophotometer UV-5800PC.

Lab 8. Optical methods of analysis. Determination turbidity of aqueous solutions with a spectrophotometer UV-5800PC.

Lab 9. Potentiometric method of analysis. Determination of sodium hydrogen carbonate technically. Determination of the mass fraction of nitrate in vegetables.

Lab 10. Optical methods of analysis. Polarimetric analysis method for determining the concentration of substances in aqueous solutions.

Lab 11. Conductometric method of analysis. Conductometric titration for Analysis mixture of strong and weak electrolytes.

Lab 12. Electrochemical methods of analysis. Determination of sodium thiosulfate in a mixture of salts.

Lab 13. Using the amperometric method of analysis for determining the concentration of Fe (II) in aqueous solution.

Lab 14. Chromatography of ion exchange. Determination of salts in solution.

Lab 15. Determination of the viscosity of aqueous solutions. Determination of molecular weight polymers.

Lab 16. Electrochemical methods of analysis. Study of physico-chemical properties of polysaccharides (chitin, chitosan).

Lab 17. Kinetic methods of analysis. Determining the rate of reaction. Calculate the energy of activation for the kinetic reaction.

 

Theory and practice of inventive and innovative technologies. Scientific Research

 

12 credits

 

Annotated Plan of the Course

 

Topic 1. Coagulation and flocculation methods for the purification of wastewater

The natural polymer flocculants for wastewater treatment. Studying the properties of the polymer flocculants. The complex coagulants based on chitosan for use in water treatment processes. The use of chitosan and its derivatives to the coagulation-flocculation process for the removal of cationic and anionic species from water. The coagulation method for the purification of textile industry wastewater. The use of coagulation-flocculation for removing dyes from wastewater.

Topic 2. The use of ozonation for wastewater treatment. Study of oxidative properties of ozone.

Development of technologies in wastewater treatment from organic pollutants via chemical destruction under the influence of a strong oxidant. Ozonation for the treatment of domestic and industrial wastewater.

Topic 3. Study and processing of waste of biotechnological production

Study biotechnological process producing citric acid. Study of waste  biotechnological production of citric acid. Technology for producing chitin-containing complexes and chitosan from the filamentous fungus Aspergillus niger. Determination of the molecular weight and degree of deacetylation of chitosan. Study of physico-chemical properties of films based on chitosan. Production and use of fertilizers based on chitin-containing complexes.

Topic 4. Using reverse osmosis technology to purify drinking water.

Design and work back-osmotic and ultrafiltration devices. Investigation of the process of demineralization of waters of different origins. Using baromembrane processes in water treatment technologies.

Topic 5. Volume coagulation in wastewater treatment possesses.

Reducing the toxicity of wastewater through the application of cavitation processes that provide aggregation and sedimentation of suspended solids without adding chemicals.

Topic 6. The use of unipolar electrochemical activation of water purification (UEA)

Theoretical basis of the process. Design and installation work of (UEA). Investigation of demineralization disinfection for cleaning surface water.

Topic 7. Sandy and ion-exchange filters of continuous action (FCA).

Comparative characteristics of the filtration process. Investigation of reducing the concentration of iron ions, calcium and magnesium in the FCA.

Topic 8. Application of Cavitation systems for wastewater treatment.

The study of work units for cavitation. Intensification of processes of coagulation and flocculation.

Topic 9. Intensification of processes of nitrification and denitrification.

Study hydrazine synthesis processes under atmospheric pressure.

Topic 10. The electrochemical method of modifying natural adsorbents.

The study of the adsorption process of silver ions in the bentonite clays.

 

ENVIRONMENT PROTECTION

 

3 credits

Annotated Plan of the Course

Name and context of themes

Amm. of hours

Lections

 №1 The environmental situation in Ukraine.

2

  №2 Sustainable development Strategy of Ukraine.

4

  №3 Natural and anthropogenic pollution of the biosphere. Pollution, classification and characterization of pollutants, regulation and methods of determining the properties of pollutants, environmental pressures and the quality of the natural environment, environmental monitoring.

6

  №4 Environmental security of the atmosphere. Classification of air pollutants, quantitative analysis of the main sources of air pollution, regulation of air quality, treatment of industrial flue gas emissions.

6

  №5 Environmental security of the hydrosphere. Classification of water pollution, sources of pollution, control and water quality management, regulatory requirements for water quality conditions of wastewater discharge into water bodies, waste water treatment.

6

  №6 Environmental security of the lithosphere. Contamination of soils, estimation of soil pollution, soil pollution impact on human health, the permissible norms of pollution, control and management of the quality of soil, land reclamation.

6

  №7 Environmental security of the human. The impact of the environment on human health. Rationing quality of human nutrition, environmentally friendly food products, methods of removing harmful substances from the human body.

6

  №8 Efficient nature management and resource conservation. Non-waste and low-waste technologies, efficientmanagement of water resources, recovery and recycling of waste and the complex processing of raw materials, energy efficiency, conservation of nature reserve fund and biodiversity, environmental management perspectives.

6

  9 Prospects for the use of alternative energy sources. Using the energy of the sun, wind, heat and water; green technology and biotechnology.

6

  №10 The organizational and legal management of environmental security. Organizational management systems, environmental management, environmental marketing, environmental audit and expertise.

6

Seminars

1. The environmental situation and the condition of drinking water in Ukraine.

4

2. Agroecological estimation of soil.

4

3. Environmental problems of air.

4

4. The environmental problems of water bodies and their solutions.

4

5. Medical and demographic problems in Ukraine.

4

6. Technogenic security.

4

7. Environmental and economical sustainability of Ukraine.

4

8. Environmental Sustainability.

4

9. Environmental security.

4

                                                                                                                                                      90 hours

 

INNOVATION POLICY AND TECHNOLOGY TRANSFERMANAGEMENT

3 credits

 

Annotated Plan of the Course

Name and context of themes

Amm. of hours

TECHNOLOGY TRANSFERMANAGEMENT

№1 Intellectual property as an object of management. General concepts and terms, intellectual property as a right.

2

 №2 Objects of intellectual property rights. Classification of intellectual property rights, objects of copyright and related rights.

4

 №3 The results of scientific and technical activity. The invention, utility model, industrial model, scientific discovery.

6

 №4 Subjects of intellectual property rights. Subjects of copyright and related rights, the subjects of the rights to the results of scientific and technical activity.

4

 № 5 Legal protection of inventions and utility models. General provisions for the right and the procedure of obtaining a patent, the rights and obligations under the patent, the protection of the patent owner's rights.

4

 № 6 Patent information and documentation. General information about patent information and documentation, international classification of industrial property objects.

4

 №7 Licensing and committing to technology. Transfer of ownership of intellectual property licensing agreements (license types, forms of payment), transfer of the know-how and other forms of conveyance and acquisition of commercial technologies (engineering, industrial cooperation, franchising).

6

 8 The international transfer of technology, as the country's economic growth factor. Motivation for Technology Transfer, areas and forms of international technology transfer.

6

 №9 Economic mechanism of international technology transfer. Methods of technology transfer, the basic form of technology transfer on a commercial basis, informal channels of technology transfer, without-payment forms of technology transfer.

4

Тема№10 Protection of intellectual property rights. Types of intellectual property rights violations, the responsibility for violation of the rights of intellectual property, the forms and methods of protection of intellectual property rights.

4

INNOVATION POLICY

№11 The concept and definition of innovation. Concepts and definitions, categories and types of innovation, evaluation of innovative potential.

4

 №12 Innovation processes and innovation management. Developing a successful innovation activity, the Roberts Frohman model, Cooper model, Van de Van model.

8

 №13 Planning and development of innovative activities. Innovation Pyramid.

4

 №14 Innovation and continuous improvement. Deming cycle, Kaizen cycle.

4

№15 Innovative project management. Hiam cycle, stakeholder management, project constraints management.

14

№16 Transnational Partnership. Identification and selection of potential partners, the individual contribution of the partners, the establishment of dead-lines, the definition of the boundaries of the partnership, the organization of the management structure, funding of a partnerships, monitoring and evaluation of the partnership.

12

         

                                                                                                                                                      90 hours

 

Transfer + accommodation

 

The territorial layout of Сherkasy state technological university https://chdtu.edu.ua/info/map

Dormitories https://chdtu.edu.ua/fhtso/ktgrs/materialno-tekhnichne-zabezpechennya-spetsialnostej

Laboratory hospitality   30 – 40 Euro (900-1200 UAH) per month

Transfer http://www.uz.gov.ua/en/passengers/timetable/?ntrain=54731&by_id=1

             http://booking.uz.gov.ua/en/

 

You can get from Kyiv to Cherkasy by bus from The Central railway station. It costs 5 Euro (150 UAH).