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Home     Ukrainian Institutes Ukrainian State Chemical Technological University

Ukrainian State Chemical Technological University

General Information

The University of Chemical Engineering is well equipped and has expertise in a wide range of areas, including:

  • Equipment for obtaining composites based on polymer matrix and reinforcing filler.
  • Equipment for investigation of mechanical, thermal-physical and frictional properties of composites.
  • Equipment for obtaining safety emulsion matrix (suitable for legal transporting in public and freight transport).
  • Equipment for mechanical, physical and chemical activation of lamellar filler surface, which improve physical and chemical characteristics of composites and anticorrosion coverings.
  • Experimental laboratory plant for deposition of metallic films from metallic technetium and rhenium on various supports. Present method allows to localize outcomes of termo-destruction process with high reliability, because deposition is going in conditions of low pressure in isolated system.
  • Glass-crystals melting and measuring equipment.

Partnership Oppotunities

  • Electrical-insulating glass-crystal covers for film heaters on metal substrates. The new glass-crystal materials is developed from doped, temperature-resistant, low-carbon steels, cuprum and titanium. The electrical-insulating covers is placed on metal substrates by methods cliche of printing, electrophoresis or spraying. Fusing temperature of covers does not exceed 850°C. During fusing alongside with melting away of cover there is its partial crystallization. In result, its fire resistance and the dielectric characteristics are increase. Designed glass-crystal of covers are characterized by heightened fire resistance (deformation point 650-800°C), high electrical-insulating properties (TK-100 > 500°C), breakdown voltage at an operation temperature not less than 5000 V. With usage designed glass-crystal materials can be made the film heating elements of household and technical assigning with a broad band of power.
  • Protective coats (based on alumina) for platinum-rhodium glass-melting vessels. Aqueous slip deposit on vessels internal surface by spray-method and strengthen at initial heating of the furnace. Novel heat-resistant composite materials take a third of platinum's sublimation.
  • Composite solid electrolytes for lithium batteries and new methods for manufacturing of thin films. Lithium oxide-saline glasses in the system Li2O-LiF-P2O5 can be used as a solid electrolytes for lithium chemical current source. Asa rule, thin films of this electrolytes is placed on the cathode by means of different evaporation methods. The application of compositions "glass - microcrystalline |3-alumina" allows considerably to increase the ionic conduction and to lower internal resistance of batteries. This effect is achieved both at the expense of high conductivity itself -alumina, and due to missequencing of a material's structure as a whole. The application of foregoing special glasses for this purpose will allow to use for drawing films cheap and simple methods accepted for glass technology. The material's ionic conductivity amount Igς250C = - 5,0..5,5 Sm./sm. Novel compositions "glass - microcrystalline β-alumina" and methods manufacturing thin films will allow to produce cheap and simple solid-state microbatteries (for example, for plastic cards).
  • Heat-resistant glass-ceramics materials in the systems Li2O-AI2O3-Si02 and Ba0-AI2O3-Si02 on the base of low-melting glasses. Proposed the original production techniques of heat-resistant glass-ceramics materials on a base of low-melting glasses. Fusing temperature of base glasses does not exceed 1000°C. Firing temperature of composite mixes on the basis of these glasses makes ~1100°C. Properties of materials and application. The catalyst (Fe203 + Cr203) on the carrier from porous glass- ceramics materials in system Li2O-Al2O3-SiO2 can be used instead of platinum at oxidation of ammonia up to nitrogen oxide.
  • Technology of surface modification of reinforcing filler for increasing of adhesion in the system polymer-fiber: carbon fibers (oxygen of air) and basalt fiber by dressing agent was developed in university.
  • Industrial emulsion explosives "Ukrainit-PP-2" by key features are at level the best world industrial explosives, by ecological compatibility of application considerably these exceed known analogues.
  • Technology of high thermal-resistant lamellar filler of anticorrosion compositions and coverings is developed in university. The technical requirements and technological regulation for pilot production of fireproof paints, heat-insulating materials and manufactures, anticorrosion compositions and coverings with basalt lamellar fillers were developed. Thermal stability of filler is under 1000 °C. Raw materials base of Ukraine is not limited.
  • Deposition technology of protective films from metallic technetium and rhenium is applied for production protection coatings. Coatings were obtaining by thermolysis of vapors of Technetium and Rhenium carbonyls. It is possible deposition of films on any material (independent of geometry of surfaces), that fusion temperature does not exceed 450°C.

Industrial emulsion
explosives "Ukrainit-PP-2"

Rhenium products:
flim on the glass.

Rhenium products: tin.

Rhenium products:
film on the steel.

Biotechnology research

The Ukrainian State Chemical Technological University (USCTU) conducts research in the following fields of "Biotechnology":

  • extracting biologically active substances (BAS) (lecytin, pectin etc. );
  • biosythesis of BAS (growth stimulators, phyto-hormones etc.);
  • vermin technologies;
  • elaboration of ozone growth regulation, obtaining synthetic BASs.

The following examples illustrate some of the technologies of vegetative raw materials processing developed at USCTU.

Complex processing of raw vegetable materials.

Within the framework of STCU project #470, specialists of "Pivdenne" and USCTU developed an experimental-industrial installation and worked out a waste free technology for the production of lecytin from phospholypids of sunflower oil. The installation is comprised of various modular units, including one for the extraction, evaporation and drying of fat.

Food supplement "Lecytin".

Biologically active food supplement "Lecytin" (BAS "Lecytin") (ТУ У 020707 58.001 - 99) used for the production of food have been developed. A comparison of samples of sunflower lecytin with its soy analogy produced by "Lukas Meyer GmbH&Co.KG" has been carried out in Hamburg (Germany) and has demonstrated that the characteristics of BAS "Lecytin" are comparable and in some cases superior to its German analogs. Testing of BAS Lecytin in the production of sugar biscuits, waffle sheet and waffles for ice-cream was carried out at Dnipropetrovsk bakery #9. It was noted that the products had an improved crumbling structure, golden color and smooth dough structure.

Waste free technology of extracting gossipol and lycetin from cotton seed oil.

The interest in extracting gossipol is due to its unique structure and possible chemical modification. During pre-clinical and clinical testing a number of substances obtained on the basis of gossipol were observed and which seem to have potential for the development of preparations for the treatment of virus hepatites, flu, rheumatic arthritis, etc. In addition, a successful outcome of this research will make it possible to obtain high quality cotton seed oil, phospholipids and pharmaceutical gossipol.

Pectin from beetroot waste.

Pectin assists in decreasing cholesterol in the human body, improves metabolism and periphery blood circulation, peristalsis of bowels, and makes up for a certain lack of food tissues. Together with vitamins it improves the immune system. In addition, pectins are widely used in the food industry. A technology for extracting pectin from beetroot waste was developed under laboratory conditions.

"Environmentally-friendly treatment of seeds with ozone (reagent-free method of ozone growth regulation)".

Treatment of seeds with ozone may either stimulate or retard growth. The beneficial influence of ozone on the growth process is manifested in an increase of the phyto-immunity of plants by 30-50%. In addition, the periods of growth of vegetation are changed (in particular in cucumbers) with a resulting increase in productivity. Future implementation of this technology of ozone growth regulation will result in an ecologically-safe high productivity process of vegetable growth for the food industry.

Bioconversion of vegetable wastes with the aim of obtaining ecologically clean stimulants for plant growth.

The biotechnology of recycling vegetable wastes with the help of a culture of the red California worm Eisenia foetida was developed. Bio-recycling results in the formation of a product which can be used as an ecologically clean fertiliser (biohumus). One ton of biohumus can substitute for 20 tons of manure, and is characterized by high bactericide properties, and contains important biostimulants as well as micro- and macro- elements (nitrogen, phosphor, potassium, calcium, iron, zinc, copper etc) required for proper growth. The University is eager to cooperate with foreign partners.

Staff of laboratory of chemical
technology of natural polymers
are studying samples of lecithin

Staff of Biotechnology Department
are doing a research on ozonation

Contact Details

Oleksandr Pivovarov, Rector
Address: Gagarin ave. 8, Dnipropetrovsk, Ukraine
+380 562 474670
Fax: + 380 562 473316
E-mail: This e-mail address is being protected from spambots. You need JavaScript enabled to view it


0 #1 phyto-renew 350 2014-06-14 11:37
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