rok 2006 - Fakulta chemickej a potravinárskej technológie ...
rok 2006 - Fakulta chemickej a potravinárskej technológie ...
rok 2006 - Fakulta chemickej a potravinárskej technológie ...
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Processes of Organic<br />
Technology<br />
(2-1 h) Králik<br />
1. semester (MSc) Laboratory Practise I (0-8 h) Cvengrošová, Gašparovičová, Hronec, Horváth,<br />
Kaszonyi, Mravec, Štolcová<br />
2. semester (MSc) Kinetics and Reactors (0-2 h) Kaszonyi<br />
2. semester (MSc)<br />
Process Design (2-1 h) Hronec, Králik<br />
Technology of Monomers<br />
and Polymers<br />
(2-0 h) Štolcová<br />
Special Organic Products (2-0 h) Mravec<br />
Analysis of Complex<br />
Organic Systems<br />
(0-2 h) Štolcová, Cvengrošová<br />
Laboratory Practise II (0-7 h)<br />
Cvengrošová, Horváth, Hronec, Kaszonyi,<br />
Gašparovičová, Mravec, Štolcová<br />
3. semester (MSc) Coating Materials (2-0 h) Kramár<br />
Manufacturing of<br />
Pharmaceuticals<br />
(2-1 h) Mravec<br />
Laboratory Practise III (0-14 h)<br />
Cvengrošová, Horváth, Hronec, Kaszonyi,<br />
Gašparovičová, Mravec, Štolcová<br />
Environmental<br />
Technologies<br />
(2-0 h) Mravec<br />
4. semester (MSc)<br />
1. -2. semester<br />
(PhD)<br />
Seminar to Masters<br />
Theses<br />
Sophisticated Materials (2 h) Hronec<br />
Kinetics and Modeling (2 h) Kaszonyi<br />
IV. CURRENT RESEARCH PROJECTS<br />
(0-3 h) Cvengrošová, Hronec, Kaszonyi, Štolcová<br />
VEGA project No.1/2459/05 Catalysts for speciality chemicals (M. Hronec)<br />
The scientific objective of the project is to use a series of well characterized catalysts in the synthesis of nitrogen<br />
and oxygen containing compounds in order to establish quantitative relationships between the catalytic properties<br />
(activity, selectivity, deactivation) and chemical properties of the catalysts. Catalytic reactions are focused on the<br />
preparation of industrially very important nitrogen and oxygen containing compounds or their precursors using<br />
oxidation, hydrogenation, and condensation processes. Gas-phase hydroxylation and oxidative amination of<br />
benzene, liquid phase hydrogenation of aromatic nitro compounds, partial oxidation of methane to formaldehyde,<br />
selective oxidation of cyclohexylamine to cyclohexanone oxime, oxidation of propylene to propylene oxide and<br />
head-tail oxidative condensation of aniline are the main reactions. The benefits expected are mainly clean<br />
processes for the synthesis of these chemicals or new catalysts.<br />
Project duration: from January <strong>2006</strong> to December 2008<br />
VEGA project No. 1/3587/06I ntermediates for fine chemicals (D. Mravec)<br />
The main objective of the project is utilisation of enviro-catalysts (ion-exchange resins and zeolites) for<br />
development of important organic chemicals: Glycerol ethers as perspective oxygenate additives to<br />
fuels (utilisation of bioglycerol from FAME production), shape-selective alkylation of toluene with<br />
isobutylene over zeolite catalysts with the aim of 4-tert-butyl toluene (intermediate) preparation. Shape<br />
selective alkylation of aromatic amines over zeolite catalysts. The benefits are enviromentaly-friendly<br />
ways for preparation of organic intermediates and products.<br />
APVV project No. 20-036805 Chemical and biochemical transformations of glycerol from<br />
renewable sources to fine chemicals and fuel components without sulfur (A. Kaszonyi)<br />
Research and development of new catalytic and biochemical methods of production of chemical<br />
specialties and fuel components without sulfur, which enhance the appreciation of glycerol from<br />
renewable bio-sustainable sources. Mainly catalytic and biochemical transformation of glycerol to<br />
commercially prospective products and development of refining technology of raw glycerol. The goal of<br />
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