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Department of Economics and Management,
Department of Mathematics
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[paticka_adresa] => UCT Prague
Technická 5
166 28 Prague 6 – Dejvice
IČO: 60461373 / VAT: CZ60461373
Czech Post certified digital mail code: sp4j9ch
Copyright: UCT Prague
Information provided by the Department of International Relations and the Department of R&D. Technical support by the Computing Centre.
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[seo_title] => Department of Inorganic Technology - homepage
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[perex] => The Department of Inorganic Technology (within the Faculty of Chemical Technology) has a long-standing tradition in the education of young specialists for the production of inorganic substances. Besides teaching, research activity is a significant part of its activities.
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[obsah] => It consists of four branches, all of which have their origin in history. They deal with:
- technical electrochemistry,
- photocatalysis,
- catalytic and membrane processes,
- heterogeneous non-catalyzed reactions.
However, present topics of research are much wider and more extensive. New technological processes are studied, together with their impact on the environment and economic issues. The combination of theoretical lessons and modern research produces graduates with a high level of education. This level is rising all the time as a result of cooperation with many domestic and international universities, research institutes and industrial partners. The high level of education and flexibility of our graduates is proved by their successful careers which are not limited just to chemistry.
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Applied theoretical courses form the core of the study program. Dissertation topics originate from the research activities of the department, as well as from cooperation with domestic and international partners from both industry and research institutions.
The broad range of optional subjects offered within the study programme enables our graduates to find positions not only in the chemical sphere, but also in other technical fields.
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Every single of our activities follows several fundamental principles and the most important one is to achieve long term sustainable development.
According to interdisciplinary acpects of majority of our projects we closely cooperate with top domestic and abroad institutions. Longterm cooperation with industrail partners represents a guarantee state of art technologies and emphase practical utilization of results. For good experimental results in labaratories is mathematical modelling and simulations done by our theoretics rather indispensable.
Projects can be generally divided into the following main areas. Specific information can be found in the Research Workgroups.
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University of Chemistry and Technology, Prague
Department of Inorganic Technology
Technická 5
166 28 Praha 6 - Dejvice
Czech Republic
Location of our Department of Inorganic Technology is inside building A (right side) in corridor next to café Buf.An.
University is located northwest of the Dejvická metro station near Vítězné náměstí in Prague 6.
On the map there are buildings of UCT Prague in Dejvice:
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[obsah] => Research activities of the department cover a wide spectrum of modern inorganic technologies. Special emphasis is focused on basic research and solving problems connected with new types of energy sources and the development of new catalysts, photocatalysts or membranes. In addition, partnership with industry results in projects aimed at establishing waste-free technologies or disposal of outdated environmental harmful technologies, more efficient utilization of raw materials and the computer simulation of technological processes.
Every single of our activities follows several fundamental principles and the most important one is to achieve long term sustainable development.
According to interdisciplinary acpects of majority of our projects we closely cooperate with top domestic and abroad institutions. Longterm cooperation with industrail partners represents a guarantee state of art technologies and emphase practical utilization of results. For good experimental results in labaratories is mathematical modelling and simulations done by our theoretics rather indispensable.
Projects can be generally divided into the following main areas. Specific information can be found in the Research Workgroups.
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[obsah] => Technical electrochemistry
Research activities of the working group are primarily focused on application of electrochemistry in industrial practice and protection of environment. The main solved topics are related to the question "hydrogen economy" and to the treatment of liquid solutions using electromembrane processes.
Photocatalytic Materials and Processes
This group aims to contribute to the clarification of fundamental scientific questions and solving technical problems that still stand in wide practical application of photoactive materials (such as nanocrystalline titanium oxide) for the self-cleaning sanitary surfaces; photocatalytic purification of air, water and contaminated soils; organic synthesis; the use of solar energy and other fields.
Group webpage with more informations available at www.josefkrysagroup.com.
Catalytic and membrane processes
The focus of this research working group can be found in catalytic and separation processes. Experimental activity is aimed at the preparation, characterization and testing of catalysts and membranes for gas separation, or to study the kinetics of heterogeneous catalytic reactions. Another important part is the creation of software for simulation of some chemical-technological processes and new chemical technologies.
Heterogeneous non-catalysed reactions
The main activity of this group is more focused on applied research arising from cooperation with industrial partners. It is based on the study of the kinetics of heterogeneous non-catalysed reactions, as an example decomposition of raw materials by mineral acids.
Main activities of working group Technical Electrochemistry are focused on application of electrochemistry in environmental protection. This includes hydrogen based energy sources or waste water treatment and purification. The second part of activities represents computer modelling from electrochemical fundamentals to design and optimization of industrial units.
[ikona] => [obrazek] => [ogobrazek] => [pozadi] => [obsah] =>OUR MAIN TOPICS?
- Hydrogen production by water electrolysis (PEM, alkaline, high temperature)
- Electrochemical synthesis of ferrates for emergency water purification
- High temperature membrane fuel cells
- Electrochemical methods of electrochemical water treatment and purification
- Electrochemical degradation of catalysts in fuel cells
- Mathematical modelling of the catalyst degradation in fuel cells
- Mathematical modelling of electrochemical reactors
- Fluids treatment by electrodialysis process
LABORATORY EQUIPMENT
- Frequency response analysers and potentiostats Solartron
- LCR bridges HAMEG
- Rotating disk electrodes PINE
- HEKA potentiostats
- ICP-OES – Optima 8000, fa. Perkin Elmer
- Electrochemical quarts nanoscales
- CNC cutter
- Deionized water production station DIWA
Further accompanied by the regular laboratory equipment of our laboratories such as furnaces, dryers, stirrers etc.
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[ikona] => [obrazek] => [ogobrazek] => [pozadi] => [obsah] =>OUR MAIN TOPICS?
- Preparation of layers of semiconductor materials (e.g. titanium dioxide, tungsten oxide, iron oxide) using various chemical and physico-chemical procedures.
- Development of semiconductor materials for photoelectrochemical water splitting using sunlight.
- Study of photocatalytic processes for sunlight energy coversion to eletrical energy.
- Development of standard methods (ISO, CEN) for testing of selfcleaning and disinfection effects of photocatalytic surfaces.
- Construction of various types of laboratory photoreactors for photocatalytic cleaning and disinfecting in liquid and gaseous phase and their testing in order to optimize the working conditions.
- Study of the kinetics of oxidative degradation of organic pollutants and photocatalytic inactivation of microorganisms.
LABORATORY EQUIPMENT
- UV/VIS spectrophotometer - Cecil Instruments (England)
- spectrophotometric analysis,
- HPLC chromatograph with a UV-Vis diode-array detector-Shimadzu (Japan)
- analysis of organic compounds (absorbing in UV) in the water,
- gas chromatograph with FID detector (Varian CP 3800))
- continuous chromatography analysis of gaseous mixtures,
- gas chromatograph with TCD, FID detector (Master, Dani)
- continuous chromatography analysis of gaseous mixtures,
- infrared spectrometer FTIR (is10, Nicolet),
- instrument for measuring the contact angle (DSA 30, Kruess),
- solar simulator (Oriel),
- dipcoater,
- spray coater,
- autoclave (Berghof);
- profilometer Dektak XT (Bruker)
- measurement of thin films thickness
- instrument for measuring photoelectrochemical properties of thin films
- instrument for measuring photocatalytic efficiency of polluitant degradation in liquid and gaseous phase
- instrument for measuring conductivity of thin films
Further accompanied by the regular laboratory equipment of our laboratories such as potentiostats, dryers, stirrers, centrifuges, furnaces, heaters, UV meters, pH meters etc.
Learn more at http://www.josefkrysagroup.com/
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[ikona] => [obrazek] => [ogobrazek] => [pozadi] => [obsah] =>OUR MAIN TOPICS?
- Preparation, development and characterization of catalysts
(for direct transformation of methane to aromatics, for environmental applications e.g. NOx decomposition). - Preparation and development of polymeric, inorganic and composite membranes (zeolite and ZIF layers on ceramic supports, mixed matrix membranes) for gas separation.
- Design of new technologies
(realized e.g. Remediation of technological ground water solutions from chemical uranium mining in the state company DIAMO Stráž pod Ralskem, Production technology of dimethyllaurylamine In Taminco Gent). - Modelling of membrane and chemical processes.
LABORATORY EQUIPMENT
- Unit for measurement of catalytic activity
- Unit for permeation/catalytic activity measurements
- GC-MS system, Trace DSQ, fa. Thermo Electron Corporation
- Analytical system for dynamic sorption and catalytic measurements, fa. Linseis
- Surface Area and Porosity Analyzer - ASAP 2020, fa. Micromeritics
- Extended Pressure Sorption Analyzer - ASAP 2050, fa. Micromeritics
- Raman spectrometer
Our working group deals with the study of solid - liquid or solid - gas reactions respectively. These reactions often play key role in field of industrial chemistry, energetics, metallurgy and/or ecology. We are focused on applied research, which especially involves the kinetics study of reactions important in the production of mineral fertilizers and processes for environmental protection.
[ikona] => [obrazek] => [ogobrazek] => [pozadi] => [obsah] =>OUR MAIN TOPICS?
- Dissolution of raw materials by mineral acids (phosphates, magnesite, limestone, dolomite)
- Dissolutions are initial reactions for mineral fertilizers production, the main target is to convert insoluble compounds to their soluble forms, which is essential for plant intake of nutrients.
- Treatment of industrial waste water
- Treatment of waste acids
- Reprocessing of secondary industrial biaproducts (gypsums)
- Determination of solids textural characteristics by mercury porosimetry
- Using porosimeter Autopore IV we are able to measure pore distribution in range from 100 μm to 1,5 nm. The knowledge of pore distribution is important for research of catalysts, membranes, sorbents, raw materials or cermaic materials
LABORATORY EQUIPMENT
- Mercury Porosimeter AutoPore IV 9500 (fa. Micromeritics)
- Reactor System Globe (fa. Syrris) with jacketed vessels from 0.5 to 3 dm3 and probes for measurement of various reaction parameters (temperature, pH solution, stirring speed, volume of added reactant…)
- Optical Microscope Axio Scope.A1 (fa. Zeiss)
- Automatic titration apparatus Titroline Alpha 50 plus (fa. Schott)
- Analytical Screening Device AS 200 (fa. Retsch) – wet and dry analysis of particle size distribution
- Liquid Circulation Thermostat A40 Presto (fa. Julabo) (programmable)
- Other laboratory equipment: dryers (fa. Memmert), analytical balances (fa. Mettler), stirrers (fa. IKA), thermostats (fa. Julabo) and pH-meters Orion A211 (fa. Thermo Scientific) or ProLab 1000 (fa. Schott).
Technical electrochemistry
- Frequency response analysers and potentiostats Solartron
- LCR bridges HAMEG
- Rotating disk electrodes PINE
- HEKA potentiostats
- ICP-OES – Optima 8000, fa. Perkin Elmer
- Electrochemical quarts nanoscales
- CNC cutter
- Deionized water production station DIWA
Photocatalysis
- UV/VIS spectrophotometer - Cecil Instruments (England)
- spectrophotometric analysis,
- HPLC chromatograph with a UV-Vis diode-array detector-Shimadzu (Japan)
- analysis of organic compounds (absorbing in UV) in the water,
- gas chromatograph with FID detector (Varian CP 3800))
- continuous chromatography analysis of gaseous mixtures,
- gas chromatograph with TCD, FID detector (Master, Dani)
- continuous chromatography analysis of gaseous mixtures,
- infrared spectrometer FTIR (is10, Nicolet),
- instrument for measuring the contact angle (DSA 30, Kruess),
- solar simulator (Oriel),
- dipcoater,
- spray coater,
- autoclave (Berghof);
- profilometer Dektak XT (Bruker)
- measurement of thin films thickness
- instrument for measuring photoelectrochemical properties of thin films
- instrument for measuring photocatalytic efficiency of polluitant degradation in liquid and gaseous phase
- instrument for measuring conductivity of thin films
Catalytic and membrane processes
- Unit for measurement of catalytic activity
- Unit for permeation/catalytic activity measurements
- GC-MS system, Trace DSQ, fa. Thermo Electron Corporation
- Analytical system for dynamic sorption and catalytic measurements, fa. Linseis
- Surface Area and Porosity Analyzer - ASAP 2020, fa. Micromeritics
- Extended Pressure Sorption Analyzer - ASAP 2050, fa. Micromeritics
- Raman spectrometer
Heterogeneous non-catalysed reactions
- Mercury Porosimeter AutoPore IV 9500 (fa. Micromeritics)
- Reactor System Globe (fa. Syrris) with jacketed vessels from 0.5 to 3 dm3 and probes for measurement of various reaction parameters (temperature, pH solution, stirring speed, volume of added reactant…)
- Optical Microscope Axio Scope.A1 (fa. Zeiss)
- Automatic titration apparatus Titroline Alpha 50 plus (fa. Schott)
- Analytical Screening Device AS 200 (fa. Retsch) – wet and dry analysis of particle size distribution
- Liquid Circulation Thermostat A40 Presto (fa. Julabo) (programmable)
Other laboratory equipment: dryers (fa. Memmert), analytical balances (fa. Mettler), stirrers (fa. IKA), thermostats (fa. Julabo) and pH-meters Orion A211 (fa. Thermo Scientific), ProLab 1000 (fa. Schott) etc.
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