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UCT Prague
Technická 5
166 28 Prague 6 – Dejvice
Identification No.: 60461373
VAT: CZ60461373
Copyright: UCT Prague
Information provided by the Department of Communication.
Sitemap
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[obsah] => The University of Chemistry and Technology, Prague is a natural centre of first-rate study and research in the area of chemistry in Czechia and is one of the country's largest educational and research institutions focused on technical chemistry, chemical and biochemical technologies, material and chemical engineering, food chemistry, and environmental studies.
UCT Prague - A challenge that pays off
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The University of Chemistry and Technology, Prague consists of four faculties and several other departments
[ikona] => ukazatel [obrazek] => [ogobrazek] => [pozadi] => [obsah] =>Faculty of Chemical Technology
Faculty of Environmental Technology
Faculty of Food and Biochemical Technology
Faculty of Chemical Engineering
| 402 Department of Analytical Chemistry | ||
| 403 Department of Physical Chemistry | ||
| 409 Department of Chemical Engineering | ||
| 413 Department of Mathematics (replaced by 446) | ||
| 444 Department of Physics and Measurements | ||
| 445 Department of Computing and Control Engineering (replaced by 446) | ||
| 446 Department of Mathematics, Informatics and Cybernetics | ||
| 453 Dean’s Office of Faculty of Chemical Engineering |
University Research and Education Centres
| 504 University Centre UCT Prague - Unipetrol | ||
| 550 Department of the National Institute of Virology and Bacteriology (NIVB) | ||
| 554 Department for the History of the Chemical Industry and Applied Chemistry | ||
| 557 BIOMEDREG | ||
| 558 Metrology and Testing Laboratory | ||
| 559 Prague University Analytical Center | ||
| 560 BAFA | ||
| 570 Technoparc Kralupy UCT Prague |
The Administration of University Facilities
| 712 Director´s Office | ||
| 713 Finance Department | ||
| 721 Operating Department | ||
| 723 Sázava Dormitory | ||
| 724 Volha Dormitory | ||
| 731 Technical Department | ||
| 747 Conference Center | ||
| 748 Recreation facility Jáchymov | ||
| 749 Recreation facility Pec p. Sněžkou | ||
| 755 Volha Canteen | ||
| 756 Club Carbon | ||
| 757 Zikova Canteen | ||
| 758 Camping site Běstvina |
Service Departments for all UCT Prague Faculties
| 827 Department of Physical Education and Sport | ||
| 832 Department of Chemical Education and Humanities | ||
| 834 Department of Languages | ||
| 837 Department of Economics and Management |
Rector's Offices
| 929 General Practitioner | ||
| 930 Crèche Zkumavka | ||
| 938 Department of Internal Auditing | ||
| 939 Department of Supervision | ||
| 940 Counselling and Career Centre | ||
| 955 Project Centre | ||
| 961 Rector's Secretariat | ||
| 962 Registrar's Secretariat | ||
| 963 Department of Education | ||
| 965 Research and Technology Transfer Office | ||
| 966 Personnel Department | ||
| 968 Records Office | ||
| 969 Supplies Department | ||
| 971 Finance Department | ||
| 972 Department of Safety and Risk Prevention | ||
| 974 Department of International Relations | ||
| 976 Department of Construction and Maintenance | ||
| 977 Department of Building Administration | ||
| 979 Department of Communication | ||
| 980 Central Laboratories | ||
| 990 Computer Centre | ||
| 991 Department of Strategic Planning | ||
| 992 Hollow Glass Workrooms | ||
| 994 Technology Transfer Office | ||
| 995 Department of Operation and Technical Services | ||
| 996 Department of Public Order | ||
| 997 Centre for Information Services UCT Library UCT Press |
||
| 998 Vice-Rector's without Portfolio Office |
UCT Prague is a research university primarily focused on technical chemistry, chemical and biochemical technologies, material and chemical engineering, food science, and environmental science. Its cutting-edge facilities and equipment together, with an impressive scientific and research profile, make it an ideal training ground for the managerial, R&D, and public sector leaders of the future.
UCT Prague has four faculties. Its competitive edge lies in its unique “weaving together” of teaching activities with the highest-quality basic and applied research. Across UCT Prague, scientific teams are intensively involved in various national and international cooperative R&D efforts. The Project Centre provides methodological and administrative support to researchers submitting project applications and managing funded projects.
UCT Prague considers the commercialisation of applied research to be an important part of its mission. For that reason, UCT Prague’ss Research and Technology Transfer Office offers researchers support, contributing to extending valourisation of scientific outputs and pursuing the quest for new collaborative partners in applied settings. In 2015, UCT Prague opened Technopark Kralupy, a science and technology hub focused on chemistry for building construction applications, materials engineering, and related fields. The Technopark plays an essential role in UCT Prague’s technology transfer efforts and strategies.
The Research and Technology Transfer Office facilitates internal grants for researchers and students, offers opportunities to compete in prestigious research competitions, and promotes active engagement and participation in student conferences.
UCT Prague is an attractive institution for young scientists and early career researchers, and the Project Centre actively supports hosting and mentoring ECRs, e.g. as part of Marie Skłodowska-Curie Actions. Here, ECRs can apply for a prestigious start-up grant, the Dagmar Procházková Fund, in order to create their own UCT Prague research groups. Postdoctoral fellows at UCT Prague receive extensive international mobility support for broadening their research horizons.
UCT Prague is actively involved in global scientific efforts and is continuously expanding and deepening its collaborations with partners around the world. The basic pillars of these activities include scientific research projects, inter-university cooperation memoranda, and Erasmus+ agreements. UCT Prague additionally creates and accredits joint study programmes with universities abroad.
Paving the way for the European Commission’s HR Excellence in Research Award, UCT Prague is committed to creating collegial working conditions, supporting continuous professional development, and transparent hiring procedures. The Personnel Department co-creates facilities for employees together with the Welcome Centre, which supports employees arriving from abroad, from assisting with the visa process to answering questions about everyday life in Prague. In its determination to be an attractive and welcoming institution for all employees and students, UCT Prague has created a Gender Equality Plan, an executive action initiative.
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Feel free to contact Department of Comunication with any inquiry. The department will provide contact on University scientific staff.
Main contact person
L Mgr. Michal Janovský
b Michal.Janovsky@vscht.cz
e + 420 220 444 159
e + 420 733 690 543
- Room: A205a
Deputy contact person
D Mgr. Jan Kříž
b Jan2.Kriz@vscht.cz
e +420 220 443 799
: +420 728 831 726
- Room A318
Whole team of Department of Comunication
Press releases
- 3. 2. 2024 DETECT! (Deep Tech Creativity) successfully completed the first phase of project activities
- 13. 2. 2024 Hydrogen Academy: a new milestone in clean energy education
- 17. 1. 2024 Jitka Čejková's successful book recently released by prestigious U.S. publisher
- 30. 11. 2023 Material genetics will be pursued by the AMULET project, which succeeded in the Excellent Research Call
- 19. 9. 2023 The Prague Dejvice concept to be completed after 100 years
- 5. 9. 2023 UCT Prague co-founds Prague.bio with goal of connecting research and business sectors
- 1. 9. 2023 Faculty of Environmental Technology celebrates its 70th birthday
- 27. 8. 2023 Prague hosted world’s leaders in catalysis
- 8. 6. 2023 UCT Prague to lead on a new project for boosting innovation and entrepreneurship through deep tech
You can find older press releases in archive.
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Counselling and Career Centre UCT Prague
We offer students and graduates counselling, psychological counselling, soft skills workshops and job offers.
Alumni Club
The Alumni Club of the UCT Prague, brings together alumni and friends of the University. It strives to create a mutual communication platform between the school, alumni and current students. The club offers alumni meetings and lectures by successful alumni.
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| Patent | Description |
| A technology for continuous production of second. and tert. amines |
Number of application: 2424-96 Number of patent: 283626 Original title: Způsob kontinuálni výroby sekund. a terc. aminů Title in English: A technology for continuous production of second. and tert. amines First author: Prof. Josef Pašek, MSc, DSc Short abstract: A method for continuous production of secondary and tertiary amines through methylation of primary and secondary amines by formaldehyde at hydrogen pressure from 2 to 10 Mpa over a fixed bed of nickel catalysts at temperature from 80 to 150°C is arranged in the technology. It is based on the invention consisting in the principle that initial material is diluted by methanol in order to achieve the amine - methanol ratio from 1:2 to 1:20, more advantageous ratio falls in the range from 1:5 to 1:8. |
| A method for preparation of N-methylmorpholine-N-oxide I |
Number of application: 1191-95 Number of patent: 284760 Original title: Způsob přípravy N - methylmorfolinoxidu Title in English: A method for preparation of N-methylmorpholine-N-oxide… First author: Prof. Josef Pašek, MSc, DSc Short abstract: A method for preparation of aqueous solutions of N-methylmorpholine-N-oxide having the compound concentrations from 45 to 70 wt% and low nitrosomorpholine content up to 50 ppb through oxidation of N-methylmorpholine by an aqueous solution of hydrogen peroxide under temperature from 60 to 75°C and the molar ratio of H2O2 : amine falling within 0.5 to 0.9. The method consists in hydrogen peroxide effect on N-methylmorpholine containing at least one of three hydrogen peroxide stabilisers of the group of sodium pyrophosphate, sodium salt of ethylenediaminetetraacetic acid, sodium stannate at total concentration within the range from 0.01 to 0.05 wt% calculated to the basis of the amine amount changed and common comercial form of the stabilisers added including their crystalline water content. It is an advantage to use A-methylmortpholine as its azeotropic mixture with water (73 wt% A-methylmorpholine). |
| A method for preparation of N-methylmorpholine-N-oxide II |
Number of application: 1190-95 Number of patent: 284545 Original title: Způsob přípravy N - methylmorfolinoxidu Title in English: A method for preparation of N-methylmorpholine-N-oxide… First author: Prof. Josef Pašek, MSc, DSc Short abstract: A method for preparation of N-methylmorpholine-N-oxide solutions having the compound concentrations from 50 to 60 wt% and low nitrosomorpholine content from 100 to 300 ppb trough oxidation of A-methylmorpholine by an aqueous solution of hydrogen peroxide under temperature from 55 to 70°C. The invented method consists in use of the molar ratio of H2O2 : amine falling within 0.4to 0.7, more advantageous from 0.5 to 0.65, while the hydrogen peroxide solution is fed into the amine solution for the period from 2 to 5 hours and then the reaction mixture is left to finish the reaction for 3 to 5 hours. The unreacted N-methylmorpholine in the reaction mixture is removed by vacuum rectification. |
| A method for preparation of N-methylmorpholine-N-oxide III | Number of application: 1189-95
Number of patent: 284681
Original title: Způsob přípravy N - methylmorfolinoxidu Title in English: A method for preparation of N-methylmorpholine-N-oxide… First author: Prof. Josef Pašek, MSc, DSc Short abstract: A method for preparation of N-methylmorpholine-N-oxide through oxidation of N-methylmorpholine by an aqueous solution of hydrogen peroxide under temperature from 55 to 75°C and the molar ratio of H2O2:amine falling within 0.4 to 0.9, there is advantageous range from 0.5 to 0.7 here, at presence of chelating agents, or potentially, of carbon dioxide, and with unreacted portion of N-methylmorrpholine distilled off under reduced pressure.The method consits in addition of hydrazine at the amount equal to 0.01 to 0.05 wt%, based on the reaction mixture, when hydrogen peroxide is already added and its concentration in the reaction mixture dropped to 0.05 to 0.15 wt%. The reaction mixture is then left to react for a half an hour up to three hours. |
| A method for preparation of N-methylmorpholine-N-oxide IV |
Number of application: 1188-95 Number of patent: 284680 Original title: Způsob přípravy N - methylmorfolinoxidu Title in English: A method for preparation of N-methylmorpholine-N-oxide… First author: Prof. Josef Pašek, MSc, DSc Short abstract: A method for production of N-methylmorpholine-N-oxide with low content of nitrosomorpholine through oxidation of N-methylmorpholine by hydrogen peroxide under temperature from 55 to 75 Cand the molar ratio of H2O2: amine falling within 0.5 to 0.9 and reaction time from 5 to 8 hours.The method consists in the extraction from solutions 50 to 70 wt% N-methylmorpholine-N-oxide by a solvent of the group of aromatic hydrocarbons, C4 to C8 ketones, or organic acid esters having total carbon atom number from 4 to 8 at temperature from 10°C to 60°C. The N-methyl morpho-line-N-oxide solutions extracted are obtained by distilling off the unreacted N-methylmorpholine. |
| Blended biodiesel |
Number of application: 3446-97 Number of patent: 285073 Original title: Směsná bionafta Title in English: Blended biodiesel First author: Prof. Karel Pecka, MSc, PhD Short abstract: Blended biodiesel represents a mixture of esters of fatty acids presented in renewable sources of carbon, namely in natural oils and fats with lower molecular alifatic alcohols, namely with methylalcohol and ethylalcohol, and hydrocarbon fraction manufactured from fossil carbon sources, showing the 10% (v/v) point of distillation in the range min. 175°C to 205°C, advantageously190°C, the 65% (v/v) point of distillation in the range min. 240°C to 260°C , advantageously 250°C, 95% (v/v) point of distillation in the range max. 295°C to 310°C, advantageously 300°C and density at 15°C in the range 805 kg.m-3 to 825 kg.m-3, advantageously 815 kg.m-3. The hydrocarbons mixture used contains preferably less than 0,01% (m/m) of sulfur, less than 10% (m/m) aromatic hydrocarbons and less than 0,05% (m/m) of polyaromatics with the more than three aromaticrings in molecule. |
| Mixture on the bases ground Portland cement clinker |
Number of application: 1707-95 Number of patent: 283298 Original title: Pojivo na bázi semletého slínku portlandského cementu Pojivo na bázi semletého slínku portlandského cementu Title in English: Mixture on the bases ground Portland cement clinker First author: Assoc. Prof. Frantiřek Škvára, MSc, DSc Short abstract: Cement based on ground clinker of Portland cement (without gypsum) with specific surface 450-700 m 2/kg, containing ligninsulfonate, sulphonated lignin (pH of lignosulphonate solution hasvalue greater 7.5-8) and salt of alkali carbonate and /or blast furnace slag, fly ash, silica fume,activated clay. This cement has very high initial and final strength, low prosity and superior resis-tance agaist agressive medium (salt). |
| The nozzle for disperzing of liquid by the compressed gas |
Number of application: 1092-94 Number of patent: 280971 Original title: Trysky pro rozprašování kapalin Title in English: The nozzle for disperzing of liquid by the compressed gas First author: Jan Kára, MSc Short abstract: Highly effective nozzle for disperzing of liquid by the compressed gas, which can disperze whatever amount of ever liquid and make aerosol with fluently eligible size of small draps in extent from several units to hundreds microns. |
| Preparation of zeolites by hydrothermal decomposition of ash |
Number of application: 4530-90 Number of patent: 282132 Original title: Způsob přípravy zeolitů Title in English: Preparation of zeolites by hydrothermal decomposition of ash First author: David Koloušek, MSc, PhD Short abstract: In preparaton of zeolites by hydrothermal decomposition of ash or fly ash modified in aq. solution of alkali metal hydroxides at 80-160°C for 1-168 h.,the power plant ash or fly ash with SiO2:Al2O3 molar ratio of 2.2-4.8 is used. The ash or fly ash may be treated by magnetic sepn. or chem. leaching with HCl prior to the modification step. The obtained zeolites with high sorption capacity are suitable for use in chem. industry. |
| Lead crystal glass with low lead leaching |
Number of application: 1248-92 Number of patent: 277955 Original title: Křišťálové olovnaté sklo s nízkým výluhem olova Title in English: Lead crystal glass with low lead leaching First author: Prof. L.Šašek, MSc, DSc. Short abstract: Lead crystal glass with low lead leaching is intended for the man-made and machine – made utility glassware, especially those of luxurious character, with higher refractive index. The glass contains in % by weight: from 50 to 60 of SiO2,from 24 to 27 of PbO, from 0,1 to 3,5 of Al2O3, from 0,1 to 2 of B2O3, from 1,5 to 7 of CaO, from 6,5 to 11,5 of K2O and from 0,5 to 4,5 of Na2O, the content of Fe2O3 is in the range from 0,01 to 0,02 in % by weight the total sum of PbO and alkaline oxides is lower than 21 (expressed in mole %). The properties of the glass can be further modified by at least one oxide from the group incorporating ZnO, BaO, and MgO in the range from 0,1 to7 in % by weight. Another modifiers are individually or in a combination Sb2O3 and As2O3 in amount from 0,1 to 0,7 in % by weight. |
| Lead-free crystal glass with the refractive index higher than 1,52 |
Number of application: 2338-93 Number of patent: 279603 Original title: Křišťálové bezolovnaté sklo s indexem lomu vyšším než 1,52 Title in English: Lead-free crystal glass with the refractive index higher than 1,52 First author: Miroslav Rada, MSc, PhD Short abstract: Lead-free crystal glass with the refractive index higher than 1,52 is intended for the man-made utility glasware, especially those of luxurious character, with high lustre and light transmittance.The glass contains SiO2, Al2O3, ZrO2, HfO2, TiO2, CaO, MgO, ZnO, K2O, Na2O, Sb2O3, Fe2O3,sulphates, chlorides and at least one component from the group incorporating Er2O3, Nd2O3,CeO2, CoO,NiO,manganese oxides and selenium compounds. Utility and technological properties are advantageously modified by at least one oxide from the group comprising BaO, B2O3,P2O5 and Li2O and further from the group comprising SnO2, La2O3, Bi2O3, MoO3 and WO3. |
| Refractory mixture |
Number of application: 843-96 Number of patent: 283459 Original title: Směsi pro žáruvzdorné účely Title in English: Refractory mixture First author: Václav Ševčík, MSc Short abstract: Mixture for refractory uses, based on ground Portland (silicate) clinker (without gypsum) and admixture of Al2O3 type or hydrated Al2O3 with particle size less than 150um and refractory aggregate.This mixture has the properties comparable with alumina cement with low Al2O3 content. Refractoriness of this mixture is approx. 1230°C. |
| Potentiometric sensor |
Number of application: 808-98 Number of patent: 285072 Original title: Potenometrický senzor Title in English: Potentiometric sensor First author: Assoc. Prof. Radko Volf, MSc, PhD Short abstract: Potentiometric sensor for determination of cysteine concentration, consist from body of sensor,in which is placed electrical conductive caster (roll), that is in electrical contact with base of electrode made of chemical indiferent material. On this electrode is incrust layer of polymerized (Co2+)5,15 - bis(2-aminophenyl) - 2,8,12,18 - tetraethyl - 3,7,13,17 tetramethylporphyrine. Base of electrode is made of platinum, gold, graphite or glassy carbon. As a reference electrode with adventage the argentchloride electrode was used. |
| Refence element of the pellistor-senzor |
Number of application: 6777-90 Number of patent: 277279 Original title: Srovnávací element snímače pracujícícho na principu katalytického spalování Title in English: Refence element of the pellistor-senzor First author: Assoc. Prof. Karel Kadlec, MSc, PhD Short abstract: Reference element (pellistor-compensator) is formed from a coil of the platinum wire.The platinum wire coil is embedded within a ceramic material (for example Al2O3). An amorphous gold layer is formed on the ceramic pellet and with a glass-layer is covered on the outside of the element. |
| The coulometric titration flow-cell |
Number of application: 6117-90 Number of patent: 283461 Original title: Průtočná coulometrická titrační cela s nastavitelnou výškou Title in English: The coulometric titration flow-cell First author: Jiří Krofta, MSc, PhD Short abstract: The coulometric titration flow-cell has been designed for electochemical analysis of substances in passing through gas. The oulometric titration flow-cell is composed of the electrode holder with a gas supply tube, which is terminated by a porous glass insert (frit). The inner coat of the electrodes is situated above the porous glass. The gas outlets are made in the upper part of the coat. A tube of chemically resistant material protrudes onto the coat. Electrode connecting wires are attached to the tube, providing thus a water-tight connection with the electrodes that are fixed at the lower end of the tube.Within the inner covering coat, the tube with electrodes can be moved in the direction of the longitudinal axis of the coulometric titration flow cell. |
| Process and apparatus for product. of butylacetate and isobutylacetate |
Number of application: WO 99/48855 Number of patent: Original title: Způsob a zařízení pro výrobu butylacetátu a isobutylacetátu Title in English: Procces and apparatus for product. of butylacetate and isobutylacetate First author: Prof. Jiří Hanika, MSc, DSc Short abstract: The invention relates to a procces of butylacetate production by esterification of acetic acid withbutanol in the presence of a solid acidic catalyst in which distillatory separation of components runs simultaneously with esterification. Thus, acetic acid and butanol are introduced in defined amounts and in the molar ratio1:1 to 1:10 into a systém, in which the reaction and the distillatory separation proceeds in three zones. The reaction together with distillatory separation of the components with different boiling points run in the reaction zone, while only distillation takes place in lower and upper separation zones. A volatile mixture is separated in the upper separation zone, from which after being cooled at 5 to 80°C and organic phases are separated, the latest being refluxed into the system.The ratio of the feed amount to the organic phase reflux amount is 1:1 to 1:20 , the reflux amount representing 60 to 100% of the whole amount of the organic phase. |
| Method of stimulation of anaerobic digestion and biogas production |
Number of application: 1236-94 Number of patent: 281637 Original title: Způsob stimulace tvorby bioplynu při anaerobní metanové fermentaci Title in English: Method of stimulation of anaerobic digestion and biogas production First author: Prof. Michal Dohányos, MSc, PhD Short abstract: The method of stimulation of biogas production and acceleration of degradation rate of organicmaterials during anaerobic digestion of sewage sludges, waste biomass and anaerobic waste-water treatment is based on the addition of the cell lysate before/or during fermentation. Cell lysate is considered to be a released content of bacteria cells into a bulk liquid after destruction of cellwalls. The cell lysate is prepared by a rapid thermal conditioning of the biomass from anaerobic reactor by heating at the temperature 100 to 200°C, pressure 0.1 to 1.5 Mpa, pH 6 to 8 for 0.2 to 10 minutes followed by pressure release. The dose of the cell lysate is 0.1 to 20% related to the fermented biomass. |
| The process and device for phenolate liquors treatment |
Number of application: 2411-94 Number of patent: 281728 Original title: Způsob a zařízení ke zpracování fenolátových louhů Title in English: The process and device for phenolate liquors treatment First author: Assoc. Prof. Václav Linek, MSc. PhD Short abstract: The phenolate liquors are treated using a gaseous carbondioxide and organic solvent, which together with diluted phenols makes the separated phase in aqueous medium. The process is realized in two stages under the pressure range from 100 to 1500 kPa and under the temperature range from 40 to 100°C. In the first stage a two phase mixture is formed containing both a sodium carbonate solution and an unsaturated carbolic acid solution (0.5-0.8 mol of bonded CO2 per1 mol of Na+). In the second stage the unsaturated carbolic acid solution is purged by water and saturated by high-percentage (90% of CO2 in minimum) gaseous carbon dioxide.The saturation is carried out up to the bonded and free CO2 content 0.9 mol of CO2 per 1 mol of Na+. |