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5 Technická
166 28 Prague 6 – Dejvice
IČO: 60461337
VAT: CZ60461373
Data mail: sp4j9ch
Copyright UCT Prague 2017
Informations provided by Department of International Relations, Department of R&D, technical service by Computer Centre
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The study programmes at the Faculty of Environmental Technologies are designed for students who wish to:
• study a field that represents an interdisciplinary synthesis of technical chemistry, ecology, biological sciences and sciences dealing with the living environment,
• get an insight into chemical technologies so as to be able to minimize pollution directly at its source,
• get a good grasp of the essence of advanced environmental protection technologies,
• develop a qualified engineering approach to the analysis and solution of problems relating to the living environment,
• understand the relation between technology, environmental pollution and environmental protection technology,
• design optimal solutions in specific cases of environmental pollution,
• acquire a sound knowledge of the basic legislation concerning the living environment,
• assert themselves in interesting and well paid jobs both in their home country and abroad.
Bachelor’s programme (eng):
Environmental Technology (in Czech), Chemistry and Technology (in English)
Master’s programmes (eng):
Environmental Technology (in Czech)
Environmental Technology and Engineering, Environmental Chemistry and Technology (in English)
PhD programmes:
Environmental Chemistry and Technology (in Czech)
Chemistry and Technology of Fuels and Environment (in Czech)
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The Faculty of Environmental Protection Technology (FTOP) focuses on the issue of environmental protection. In 2019, FTO gained 2nd place in the "Faculty of the year" in the Chemistry category.
When studying at FTOP, students focus on natural science and technical subjects, thanks to which they will not get lost in the scientific or industrial sphere. The common basis with all faculties in the bachelor's fields will give students a broad general knowledge in the field of chemistry and technology, extended by the subjects of their specialization. In subsequent master's programs, students already devote themselves to their field according to specific requirements and interests. Emphasis is placed on both theoretical knowledge and practical connections, whether in our laboratories or on practice in the industry.
It is also possible to teach the master's program in Sustainability and Environmental Engineering in English or international cooperation with other European universities on the master's program IMETE or a double doctorate with universities in Belgium and France.
Graduates of our faculty find employment in various branches of industry, for example, chemical or petrochemical, and a wide range of employment is also found in the field of environmental protection. We also have graduates in analytical laboratories, inspection and control bodies, state administration, and research. Last but not least, it is worth mentioning that they are employed in project and consulting organizations or as technologists, specialists, or environmental managers. Notable graduates include, for example, Milan Smrž, author and co-author of dozens of professional publications and patents and vice-president of the European association EUROSOLAR, which strives for the complete replacement of fossil and nuclear sources with renewable ones, or Miroslav Kos, co-author of a whole range of technological solutions for WWTPs in the Czech Republic, including the New Prague Water Line, completed in 2019.
The study is also closely linked to witnessing work at all institutes, and students have the opportunity to participate in the solution of grant projects, which are subsequently used or implemented in industry, ministries, further research or take place in cooperation with foreign institutions.
The Department of Sustainable Fuels and Green Chemistry
The Department of Sustainable Fuels and Green Chemistry focuses on several areas in its pedagogical and scientific-research activities. It deals with topics that currently resonate in public and professional discussion, such as: alternative fuels and biofuels, whether gaseous or liquid; implementation of green chemistry principles in the chemical industry or air protection and climate change. We focus in detail on the conversion of biomass and waste plastics into bio-liquids and their subsequent hydrogenation treatment, the development of heterogeneous catalysts, the application of hydrogen, biogas, and bio-methane in the gas industry, the capture of carbon dioxide in order to mitigate climate change and the monitoring of air pollution. Furthermore, at the department, we deal with innovations and optimizations in traditional areas, especially in oil technology and analysis.
Department of Water Technology and Environmental Engineering
deals with pedagogical and scientific-research activities in the field of drinking water treatment and wastewater treatment. During the course of study, students can participate in many research projects in the entire field of water technology: drinking water treatment, wastewater treatment, microbiology, energy production from wastewater and other materials, etc. terrain. The institute's activities are currently focused on current topics: reuse of water, reuse of materials and energy, use of information from wastewater, safe supply of drinking water, and digitalization of water management.
Department of Power Engineering
The scientific research activity can be divided into three basic areas of research: a) Corrosion and materials in the energy sector – research is focused on testing the corrosion behavior of new materials in existing and new energy technologies (refractory steels and alloys and their behavior in supercritical energy circuits, development protective layers for coating nuclear fuel (Accident Tolerant Fuel, etc.). b) Sorption processes and ion exchange in water treatment - applications are historically associated with the production of demineralized water for energy and industry. Professional interest gradually grew into the areas of environmental protection, hydrometallurgy, and the preparation of sorbents, their lifetime in real operating conditions. An example of the topics addressed is the removal of unwanted ions from contaminated sources of drinking water and waste and process waters. A lot of attention is paid especially to oxoanions and complex ions of toxic metals and semimetals. c) Energy and material use of biomass, alternative fuels, and waste - here the research is primarily focused on the thermochemical use of waste, solid alternative fuels, bio waste, biomass, and on the circular economy of products in energy, heating, and waste management. It mainly deals with current energy topics with the aim of greater use of renewable energy sources and alternative fuels and the issue of thermochemical conversions.
Department of Environmental Chemistry
as part of its pedagogical and research activities, it generally deals with current and very important issues of environmental protection. In a more detailed view, these activities can be divided into five areas of scope: technology for environmental protection, environmental sampling and analysis, toxicology and ecotoxicology, numerical simulation of environmental engineering processes, and environmental microbiology. The institute has spacious laboratories for practical teaching, modern equipment, qualified personnel, and traditionally excellent links with leading subjects from the institutional and applied sphere of technical environmental protection.
Department of Sustainability and Product Ecology
The pedagogical focus of the institute is based on the current social need to implement the principles of sustainability into practice. Our goal is to develop education in the field of sustainability, circular economy, product ecology, raw material safety, and other fields that are important for professionals focused on sustainability. The content of the professional and creative activities of the institute's employees is analytical work in the field of product and corporate sustainability. We conduct research focused on product ecology and ecodesign. Using analytical tools such as life cycle assessment (LCA) or material flow analysis (MFA), we determine the environmental aspects of products, services, technologies, and organizations.
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Forms of Study at the Faculty of Environmental Technology
|
The Faculty of Environmental Technology offers the following forms of study: |
 |
In five-year MSc study programs, the first three years of study are based on the core subjects which are common to all UCT faculties. The core subjects include mathematics, physics, general and inorganic chemistry, organic chemistry, analytical chemistry, physical chemistry, biochemistry, chemical engineering, and computer equipment. All UCT faculties require about the same extent of lectures, seminars, and laboratory practice in the core subjects.
In the subsequent two years of study, instruction is focused on the explanation of the principles of chemical and technological processes, and on expanding students' knowledge of these processes. The aim is to teach students how to apply theoretical knowledge of the core subjects to the solution of specific problems in technological practice and in creative research activities. The study of chemical technology is supplemented with subjects whose knowledge is considered inevitable for practice in the area of environmental protection and in the fuel processing industry.
The three-year BSc study program runs parallel to MSc study programs.
University graduates may apply, through a contest, for three-year Ph.D. study programs which are concluded with a state doctoral examination and the defense of a dissertation.
The presented survey lists all study programs and individual subprogrammes and fields of specialization taught at the Faculty. All subprogrammes taught within MSc study programs are accredited by the Federation of European National Associations of Engineers (FEANI), which allows for the award of the title Eur.Ing.
The Faculty has currently about 450 students in MSc study programs and 100 Ph.D. students.
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Department of Sustainable Fuels and Green Chemistry
The Department of Sustainable Fuels and Green Chemistry focuses on several areas in its pedagogical and scientific research activities. It deals with topics that currently resonate in public and professional discussion, such as alternative fuels and biofuels, whether gaseous or liquid; implementation of green chemistry principles in the chemical industry or air protection and climate change. We focus in detail on the conversion of biomass and waste plastics into bio-liquids and their subsequent hydrogenation treatment, the development of heterogeneous catalysts, the application of hydrogen, biogas, and bio-methane in the gas industry, the capture of carbon dioxide to mitigate climate change and the monitoring of air pollution. Furthermore, at the department, we deal with innovations and optimizations in traditional areas, especially in oil technology and analysis.
Department of Water Technology and Environmental Engineering
deals with pedagogical and scientific-research activities in the field of drinking water treatment and wastewater treatment. During the course of study, students can participate in many research projects in the entire field of water technology: drinking water treatment, wastewater treatment, microbiology, energy production from wastewater and other materials, etc. terrain. The institute's activities are currently focused on current topics: reuse of water, reuse of materials and energy, use of information from wastewater, safe supply of drinking water, and digitalization of water management.
Department of Power Engineering
The scientific research activity can be divided into three basic areas of research: a) Corrosion and materials in the energy sector – research is focused on testing the corrosion behavior of new materials in existing and new energy technologies (refractory steels and alloys and their behavior in supercritical energy circuits, development protective layers for coating nuclear fuel (Accident Tolerant Fuel, etc.). b) Sorption processes and ion exchange in water treatment - applications are historically associated with the production of demineralized water for energy and industry. Professional interest gradually grew into the areas of environmental protection, hydrometallurgy, and the preparation of sorbents, their lifetime in real operating conditions. An example of the topics addressed is the removal of unwanted ions from contaminated sources of drinking water and waste and process waters. A lot of attention is paid especially to oxoanions and complex ions of toxic metals and semimetals. c) Energy and material use of biomass, alternative fuels, and waste - here the research is primarily focused on the thermochemical use of waste, solid alternative fuels, bio waste, biomass, and on the circular economy of products in energy, heating, and waste management. It mainly deals with current energy topics with the aim of greater use of renewable energy sources and alternative fuels and the issue of thermochemical conversions.
Department of Environmental Chemistry
as part of its pedagogical and research activities, it generally deals with current and very important issues of environmental protection. In a more detailed view, these activities can be divided into five areas of scope: technology for environmental protection, environmental sampling and analysis, toxicology and ecotoxicology, numerical simulation of environmental engineering processes, and environmental microbiology. The institute has spacious laboratories for practical teaching, modern equipment, qualified personnel, and traditionally excellent links with leading subjects from the institutional and applied sphere of technical environmental protection.
Department of Sustainability and Product Ecology
The pedagogical focus of the institute is based on the current social need to implement the principles of sustainability into practice. Our goal is to develop education in the field of sustainability, circular economy, product ecology, raw material safety, and other fields that are important for professionals focused on sustainability. The content of the professional and creative activities of the institute's employees is analytical work in the field of product and corporate sustainability. We conduct research focused on product ecology and ecodesign. Using analytical tools such as life cycle assessment (LCA) or material flow analysis (MFA), we determine the environmental aspects of products, services, technologies, and organizations.
Current Research at the Faculty of Environmental Technology
From the historical point of view, the scientific and research activity at the Faculty of Environmental Technology derives from its original name, the Faculty of Fuel and Water Technology. The two basic ranges of scientific and research activity, which are closely linked and which supplement each other, embrace the processing and utilisation of individual kinds of fossil fuels on the one hand and environmental chemistry and technology on the other. The Faculty's scientific and research objectives are closely linked with its teaching activity.
Chemistry and Technology of Fuels
- Development of analytical methods for detailed evaluation of the chemical composition and structure of coal, petroleum, petroleum fractions and of by-products obtained during their processing.
- Ways to utilise and process high-boiling petroleum fractions and residues.
- Determination of qualitative and quantitative parameters of natural gas.
- Development of environment-friendly solid fuels for the household.
- Research into corrosion inhibition and materials assessment.
Environmental Chemistry and Technology
- Properties and utilisation of fuels and related ecological aspects.
- Lubricants, additives for lubricants, and biodegradable lubricants.
- Catalytic and adsorption methods of waste gas treatment, reduction of emissions in the combustion of fossil fuels.
- Development of coal-based adsorption materials.
- Analysis of contaminants in the living environment, monitoring of emissions of volatile organic substances into the atmosphere.
- Biotechnological ways of wastewater treatment and sludge processing.
- Biodegradation of xenobiotics in the environment.
- Hydrobiological and microbiological assessment of water quality.
- Assurance of good-quality drinking water for the population (removal of nitrogenous substances and organic contaminants).
- Water treatment and desalination and recycling of rare substances using ion exchangers.
- Decontamination of soil polluted by industrial products.
- Analysis of old-burden contaminants and monitoring of their changes and toxicity.
- Solidification of industrial waste.
The Faculty of Environmental Technology research programmes are supported by national and international grant agencies. They reflect the current development and scientific trends. The Faculty of Environmental Technology research workers are recognised experts in all the above areas of research.
Popularization
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 |
prof. Ing. Pavel Jeníček, CSc.
|
Correspondence address:
Technická 5
166 28 Praha 6 - Dejvice
Dean's office
The location from 26/07/2022 - provisional info, the vscht.cz phone book does not yet contain current information about the rooms:
Entrance from Zikova Street 4, Prague 6
Ing. Kateřina Šritrová room B2315 1st floor
Šárka Dintarová room B2316 1st floor
 |
Faculty secretary, doctoral studiesIng. Kateřina Šritrová room B2315 |
 |
Bachelor's and Master's studiesŠárka Dintarová room B2316 |
Office Hours:
|
Monday: |
9:00–11:00 |
|
|
Tuesday: |
zavřeno |
|
|
Wednesday: |
9:00–11:00 |
14:00–15:00 |
|
Thursday: |
9:00–11:00 |
|
|
Friday: |
zavřeno |
|
DATA
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[seo_title] => 2020
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[obsah] => 215 - Department of Petroleum Technology and Alternative Fuels
- Tim Schulzke ; Stefan Conrad ; Bogdan Shumeiko ; Miloš Auersvald ; David Kubička ; F.J.M. Leonard Raymakers ; Fuels from Reliable Bio-Based Refinery Intermediates – BioMates 2020 Waste and Biomass Valorization 11 579-598
- P. Priecel ; David Kubička ; A. Vázquez-Zavala ; de los Reyes J. Antonio ; M. Pouzar ; L. Čapek ; Alternative Preparation of Improved NiMo-Alumina Deoxygenation Catalysts 2020 Frontiers in Chemistry 8 nestránkováno
- Jaroslav Aubrecht ; David Kubička ; Prémiová biopaliva ze slámy – využití sylvan procesu pro syntézu pokročilých biopaliv 2020 Paliva 12 87-92
- Josef Tomášek ; Lukáš Matějovský ; Martina Culková ; Josef Blažek ; Properties and Composition of Products from Hydrotreating of Straight-Run Gas Oil and Its Mixtures with Light Cycle Oil Over Sulfidic Ni-Mo/Al2O3 Catalyst 2020 ACS Omega 5 27922-27932
- Jaroslav Aubrecht ; Violetta Pospelova ; Oleg Kikhtyanin ; L. Dubnová ; David Kubička ; Do metal-oxide promoters of Cu hydrogenolysis catalysts affect the Cu intrinsic activity? 2020 APPLIED CATALYSIS A-GENERAL 608 nestránkováno
- Oleg Kikhtyanin ; Jaroslav Aubrecht ; Violetta Pospelova ; David Kubička ; On the origin of the transesterification reaction route during dimethyl adipate hydrogenolysis 2020 APPLIED CATALYSIS A-GENERAL 606 nestránkováno
- V. Pitschmann ; Lukáš Matějovský ; J. Zeman ; D. Vetchý ; M. Dymák ; M. Lobotka ; S. Pavloková ; Z. Moravec ; Second-generation phosgene and diphosgene detection tube 2020 Chemosensors 8 1-10
- Olga Pleyer ; Petr Straka ; Dan Vrtiška (Prac.: UTRAP, UACh); J. Hájek ; R. Černý ; Hydrocracking of Fischer-Tropsch wax 2020 Paliva 12 26-33
- Josef Blažek ; Daria Kochetkova ; Bogdan Shumeiko ; Veronika Váchová ; Petr Straka ; Effect of the hydrogen to feedstock ratio on the hydrotreating of the mixture of petroleum middle distillates and rape-seed oil 2020 Paliva 12 42-52
- Veronika Váchová ; Daria Kochetkova ; Petr Straka ; Pavel Šimáček ; Martin Staš ; Andrej Gdovin ; Zdeněk Beňo (Prac.: UPKOO); Josef Blažek ; Composition and Properties of Rapeseed Oil Hydrotreating Products over CoMo/Al2O3 and NiMo/Al2O3 Catalysts 2020 Energy & Fuels 34 9609–9619
- M.V. Alekseeva ; O.A. Bulavchenko ; A.A. Saraev ; A.M. Kremneva ; M.V. Shashkov ; O.O. Zaikina ; Y.K. Gulyaeva ; A.N. Grachev ; Oleg Kikhtyanin ; David Kubička ; V.A. Yakovlev ; Effect of temperature on the hydrotreatment of sewage sludge-derived pyrolysis oil and behavior of Ni-based catalyst 2020 Catalysts 10 1-27
- Bogdan Shumeiko ; Miloš Auersvald ; Petr Straka ; Pavel Šimáček ; Dan Vrtiška ; David Kubička ; Efficient One-Stage Bio-Oil Upgrading over Sulfided Catalysts 2020 ACS Sustainable Chemistry & Engineering 8 15149-15167
- Jan Karl ; Eliška Fišerová ; Daniel Maxa ; Explosiveness of hydrocarbon vapours in industrial installations under various conditions 2020 WIT Transactions on Engineering Sciences 129 89-99
- Eliška Lyko Vachková ; František Rejl ; Dalimil Šnita ; Tereza Čmelíková ; Zařízení pro odběr vzorků z plněné destilační kolony 2020
- R. Ramos ; A.F. Peixoto ; B.I. Arias-Serrano ; O.S.G.P. Soares ; M.F.R. Pereira ; David Kubička ; C. Freire ; Catalytic Transfer Hydrogenation of Furfural over Co3O4−Al2O3 Hydrotalcite-derived Catalyst 2020 ChemCatChem 12 1467-1475
- Martin Staš ; Miloš Auersvald ; Lukáš Kejla ; Dan Vrtiška ; Jiří Kroufek ; David Kubička ; Quantitative Analysis of Pyrolysis Bio-oils: A Review 2020 Trends in Analytical Chemistry 126 1-29
- Violetta Pospelova ; Jaroslav Aubrecht ; K Pacultová ; Miloslav Lhotka ; Oleg Kikhtyanin ; David Kubička ; Does the structure of CuZn hydroxycarbonate precursors affect the intrinsic hydrogenolysis activity of CuZn catalysts? 2020 Catalysis Science and Technology 10 3303-3314
- Petr Straka ; Veronika Váchová ; Katalyzátor pro hydrogenační zpracování triglyceridů 2020
- Miloš Auersvald ; Tomáš Macek ; Tim Schulzke ; Martin Staš ; Pavel Šimáček ; Influence of biomass type on the composition of bio-oils from ablative fast pyrolysis 2020 JOURNAL OF ANALYTICAL AND APPLIED PYROLYSIS 150 104838
- Tomáš Macek ; Miloš Auersvald ; Petr Straka ; Přeměna bio-oleje na biopaliva 2. generace 2020 Paliva 12 98-106
- Olga Pleyer ; Dan Vrtiška ; Petr Straka ; A. Vráblík ; J. Jenčík ; Pavel Šimáček ; Hydrocracking of a heavy vacuum gas oil with Fischer-Tropsch wax 2020 Energies 13 nestránkováno
216 - Department of Gaseous and Solid Fuels and Air Protection
- Tomáš Hlinčík, Jan Berka, Jaroslav Kutzendörfer, Jiří Hamáček, Petr Sajdl 2020. The Effect of Long-Term Exposure to High Temperature Atmosphere on the Mechanical properties of Al2O3-Based Ceramic Materials , Ceramics-Silikáty, 64, s. 35 - 39, 2020
- Petr Buryan, Tomáš Hlinčík 2020. Aluminium-Containing Municipal-Waste Ashes and the Greenhouse Effect , Polish Journal of Environmental Studies, 29, s. 1094 - 1100, 2020
- Anežka Sedmihradská, Michael Pohořelý, Petr Jevič, Siarhei Skoblia, Zdeněk Beňo, Josef Farták, Bohumír Čech, Miloslav Hartman 2020. Pyrolysis of wheat and barley straw , Research in agricultural engineering, 66, s. 1 - 10, 2020
- Tomáš Hlinčík, Daniel Tenkrát, Marek Staf. The Measurement of Helium Leakages through Flange Gaskets for Gas-Cooled Fast Reactors Nuclear Engineering and Design, 367, 10 pages, 2020
- Barbora Miklová, Marek Staf, Ondřej Hlaváček, Veronika Kyselová. Systém pro měření adsorpce CO2 na popílcích, Chemické listy, 114, s. 406 - 410, 2020
217 - Department of Water Technology and Environmental Engineering
- Lanko, I., Flores, L., Garfí, M., Todt, V., Posada, J. A., Jenicek, P., & Ferrer, I. (2020). Life cycle assessment of the mesophilic, thermophilic, and temperature-phased anaerobic digestion of sewage sludge. Water, 12(11), 3140.
- Andreides, M.; Pokorná-Krayzelová, L.; Bartáček, J.; Jeníček, P. Biological H2S removal from gasses. In Environmental Technologies to Treat Sulfur Pollution, 2nd ed.; Lens, P. N., , , Eds.; IWA Publishing: London, 2020; pp 345–365. (book chapter)
- Tobo, Y. M.; Bartacek, J.; Nopens, I., Linking CFD and kinetic models in anaerobic digestion using a compartmental model approach. Process. 2020, 8 (6).
- Tobo, Y. M.; Rehman, U.; Bartacek, J.; Nopens, I., Partial integration of ADM1 into CFD: Understanding the impact of diffusion on anaerobic digestion mixing. Water Sci. Technol. 2020, 81 (8), 1658-1667.
- Valdés, F.; Camiloti, P. R.; Bartacek, J.; Torres-Aravena, Á.; Toledo-Alarcón, J.; Zaiat, M.; Jeison, D., Micro-oxygenation in upflow anaerobic sludge bed (UASB) reactors using a silicon membrane for sulfide oxidation. Polym. 2020, 12 (9), 1-11.
- Horová D., Bezucha P., Růžičková I. (2020) Effect of carbon source and nitrate concentration on denitrification of high-nitrate wastewater, Environment Protection Engineering, Vol. 46, 1, pp. 73 – 89. DOI: 10.37190/epe200106
- Nováková Z.: Bor - indikátor antropogenního znečištění vod; Chemické listy, přijato pod číslem 012/20, září 2020, ISSN: 0009-2770, Chemické Listy
- Maciej Białasek, Aleksandra Miłobędzka, 2020. Revealing antimicrobial resistance in stormwater with MinION, Chemosphere, Volume 258. https://doi.org/10.1016/j.chemosphere.2020.127392
- Diaz-Sosa V.R., Tapia-Salazar M., Wanner J. and Cradenas-Chavez D.L. 2020. Monitoring and Ecotoxicity Assessment of Emerging Contaminants in Wastewater Discharge in the City of Prague (Czech Republic). Water, 12(4), 1079.
- Skleničková K., Koloušek D., Pečenka M., Vejmelková D., Šlouf M., Růžičková I. (2020) Application of zeolite filters in fish breeding recirculation systems and their effect on nitrifying bacteria, Aquaculture 516, 734605.
218 - Department of Power Engineering
- Kratochvilova I., Ashcheulov P., Skarohlid J., Skoda R., Kopecek J., Sajdl P., Macak J., Lajcinova M., Novakova A., Neethling J., van Vuuren A. J., Ngongo S., Xu P., Lorincik J., Steinbruck M.: Zr alloy protection against high-temperature oxidation: Coating by a double-layered structure with active and passive functional properties, Corrosion Science, 163, 108270, 2020.
- Teodoro M., Trakal L., Gallagher B. N.; Simek P., Soudek P., Pohorely M., Beesley L., Jacka L., Kovar M., Seyedsadr S., Mohan D.: Application of co-composted biochar significantly improved plant-growth relevant physical/chemical properties of a metal contaminated soil, Chemosphere 242,Pages125255, 2020.
- Ruzovic T., Svoboda K., Leitner J., Pohorely, M., Hartman M.: Thermodynamic possibilities of flue gas dry desulfurization, de-HCl, removal of mercury, and zinc compounds in a system with Na2CO3, Ca(OH)2, sulfur, and HBr addition, Chemical Papers 74 (3), 951-962, 2020.
- Hasl T., Jiricek, I., Jeremias M., Fartak J., Pohorely M.: Cost/performance analysis of commercial-grade organic phase-change materials for low-temperature heat storage, Energies 13 (1), 5, 2020.
- Sialini P., Sajdl P., Dobrovolny K.: Raman study of oxide layers on zirconium alloys using O-18 tracers, Corrosion Engineering Science and technology 55(6), 460-470, 2020.
- Sedmihradska A., Pohorely M., Jevic P., Skoblia S., Beno Z., Fartak J., Cech B., Hartman M.: Pyrolysis of wheat and barley straw, Research in Agricultural Engineering 66 (1), 8-17, 2020.
- Mosko J., Pohorely M., Skoblia S., Beno Z., Jeremias M.: Detailed analysis of sewage sludge pyrolysis gas: effect of pyrolysis temperature, Energies (Basel, Switzerland)13(16), 4087, 2020.
- Brynda J., Skoblia S., Pohorely M., Beno Z., Soukup K., Jeremias M., Mosko J., Zach B., Trakal L., Syc M., Svoboda K.: Wood chips gasification in a fixed-bed multi-stage gasifier for decentralized high-efficiency CHP and biochar production: Long-term commercial operation, Fuel 281,118637, 2020.
- Buryan P., Sajdl P.: Rozdíly ve složení popílků a jejich povrchové a podpovrchové vrstvě, Paliva 12 (3), 81-86, 2020.
- Hlincik T., Berka J., Kutzendorfer J., Hamacek J., Sajdl P.: The effect of long-term exposure to high temperature atmosphere on the mechanical properties of Al2O3-based ceramic materials, Ceramics-Silikaty 64 (1), 35-39, 2020.
- Lacmanova V., Nguyenova H. Y., Ulbrich P., Slepicka P., Sajdl P., Svorcik V., Reznickova A.: Copper layers sputtered on PTFE: Effect of annealing on antibacterial performance, Materials Today Communications 24, 101207,2020.
- Sialini P., Sajdl P., Lapčák L., Vrtílková V.: Raman study of oxide lay-ers on zirconium alloys, Chemické Listy 114 (10), 668-673, 2020.
- Guselnikova O., Trelin A., Miliutina E., Elashnikov R., Sajdl P., Postnikov P., Kolska Z., Svorcik V., Lyutakov O.: Plasmon-induced water splitting-through flexible hybrid 2D architecture up to hydrogen from seawater under NIR light, ACS Applied Materials & Interfaces 12(25), 28110-28119,2020.
- Guselnikova O., Kalachyova Y., Elashnikov R., Cieslar M., Kolska Z., Sajdl P., Postnikov P., Svorcik V., Lyutakov O.: Taking the power of plasmon-assisted chemistry on copper NPs: Preparation and application of COFs nanostructures for CO2 sensing in water, Microporous and Mesoporous Materials 309, 110577, 2020.
- Neznalova K., Sajdl P., Svorcik V., Slepicka P.: Cellulose acetate honeycomb-like pattern created by improved phase separation, eXPRESS Polymer Letters 14 (11), 1078-1088, 2020.
- Staf M., Šrámek V., Pohořelý M.: Halogenderiváty v plastech a jejich souvislost s pyrolýzou, Paliva 12(4), 136-148, 2020.
- Sikarwar V. S., Hrabovský M., Van Oost G., Pohořelý M., Jeremiáš, M.: Progress in waste utilization via thermal plasma, Progress in Energy and Combustion Science 81, 100873, 2020.
240 - Department of Environmental Chemistry
- Sackey LNA. , Kočí V. , Gestel CA., Ecotoxicological effects on Lemna minor and Daphnia magna of leachates from differently aged landfills of Ghana Science of the Total Environment 2020 10.1016/j.scitotenv.2019.134295
- Kholomyeva M. , Vurm R. , Tajnaiová L. , Šír M. , Šuková M. , Kočí V. , Phycoremediation of Landfill Leachate with Desmodesmus subspicatus: A Pre-Treatment for Reverse Osmosis Water 2020 10.3390/w12061755
- Mc Gachy L. , Škarohlíd R. , Martinec M. , Sattler K., Iron Nanoparticles in Environmental Technology 21st Century Nanoscience – A Handbook, Nanopharmaceuticals, Nanomedicine, and Food Nanoscience (Volume Eight) 2020 10.1201/9780429351587
- Sackey LNA. , Kočí V. , Assessing the effects of Tropical Wood Leachate to Desmodesmus subspicatus, Lemna minor and Daphnia magna Heliyon 2020 10.1016/j.heliyon.2020.e04268
- Sackey LNA. , Mocová KA. , Kočí V. , Ecotoxicological Effect of Aged Wood Leachates to Aquatic Organisms Water 2020 10.3390/w12082091
- Škarohlíd R. , Mc Gachy L. , Martinec M. , Rošková Z. , Removal of PCE/TCE from groundwater by peroxydisulfate activated with citric acid chelated ferrous iron at 13 °C Environmental Technology & Innovation 2020 10.1016/j.eti.2020.101004
- Škarohlíd R. , Martinec M. , Mc Gachy L. , Rošková Z. , IN SITU CHEMICKÁ OXIDACE S VYUŽITÍM PEROXODISÍRANU PRO ODSTRANĚNÍ ORGANICKÝCH KONTAMINANTŮ Z HORNINOVÉHO PROSTŘEDÍ Chemické listy 2020
- Mc Gachy L. , Škarohlíd R. , Martinec M. , Rošková Z. , Šmrhová T. , Strejček M. , Uhlík O. , Marek J., Effect of chelated iron activated peroxydisulfate oxidation on perchloroethene-degrading microbial consortium Chemosphere 2020 10.1016/j.chemosphere.2020.128928
- Tajnaiová L. , Vurm R. , Kholomyeva M. , Kobera M. , Kočí V. , Determination of the ecotoxicity of herbicides roundup® classic pro and garlon new in aquatic and terrestrial environments Plants 2020 10.3390/plants9091203
- Rippelová V. , Kroužek J. , Lâsac V. , Kučera T. , Toluene oxidation by microwave assisted catalysis over alumina supported mixed cobalt-manganese oxide catalyst Waste forum 2020
- Chumchalová J. , Kubal M. , Laboratory tests for aerobic bioremediation of the contaminated sites in the Czech republic Plant, Soil and Environment 2020 10.17221/673/2019-PSE
- Chumchalová J. , Kubal M. , MPN Drop Agar Method for Determination of Heterotrophic Microorganisms in Soil and Water Samples Using Tissue Plate as a Carrier Sustainability 2020 10.3390/su12198252
- Kubal M. , Chumchalová J. , Martinec M. , Marek J., Zařízení pro separaci strategických prvků z tuhých zbytků po spalování uhlí 2020
- Mullerova M., Krtková E., Rošková Z. , F-Gases: Trends, Applications and Newly Applied Gases in the Czech Republic Atmosphere 2020 10.3390/atmos11050455
- Goswami T. , Tack FMG., Mc Gachy L. , Šír M. , Remediation of Aviation Kerosene-Contaminated Soil by Sophorolipids from Candida bombicola CB 2107 Applied Sciences 2020 10.3390/app10061981
- Havelcova M., Machovič V. (REK/CL), Novák F. (Kralupy/Kralupy), Lapčák L. (FCHI/FCHI, REK/CL), Mizera J., Hendrych J. , Chemical characterization of mountain forest soils: impact of long-term atmospheric deposition loadings (Czech-Polish-German border region) Environmental Science and Pollution Research 2020 10.1007/s11356-020-08558-x
- Vurm R. , Šír M. , Tajnaiová L. , Mc Gachy L. , Kholomyeva M. , Kočí V. , Ondráček J., Zařízení pro odstraňování polutantů z odpadních vod vznikajících při ražbě tunelů 2020
- Kroužek J. , Mašín P., Rippelová V. , Škarohlíd R. , Hendrych J. , Durďák V. , Zařízení pro odstraňování akutně toxických látek ze vzdušin, zejména při havarijních situacích 2020
241 - Department of Sustainability and Product Ecology
- Šerešová M., Štefanica J., Vitvarová M., Zakuciová K., Wolf P., Kočí V. Life cycle performance of various energy sources used in the Czech Republic. Energies. 2020, MDPI, 13(21) 1-17.
- Matuštík, J.; Hnátková, T; Kočí, V. Life cycle assessment of biochar-to-soil systems: A review. Journal of Cleaner Production, 2020, 259: 120998
- Pešta J., Šerešová M., Kočí V. Carbon Footprint Assessment of Construction Waste Packaging Using the Package-to-Product Indicator. Sustainability. 2020, MDPI, 12(23) 1-14.
- Matuštík, J; Kočí, V. A comparative life cycle assessment of electronic retail of household products. Sustainability, 2020, 12.11: 4604
- Šerešová M., Kočí V. Proposal of Package-to-Product Indicator for Carbon Footprint Assessment with Focus on the Czech Republic. Sustainability. 2020, MDPI, 12(7) 1-17.
- Pešta, J.; Pavlů, T.; Fořtová, K.; Kočí, V. Sustainable Masonry Made from Recycled Aggregates: LCA Case Study. Sustainability 2020, 12, 1581.
- Ženíšek, M.; Pešta, J.; Tipka, M.; Kočí, V.; Hájek, P. Optimization of RC Structures in Terms of Cost and Environmental Impact—Case Study. Sustainability 2020, 12, 8532.
- Tajnaiová, L., Vurm, R., Kholomyeva, M., Kobera, M., Kočí, V.: Determination of the Ecotoxicity of Herbicides Roundup and Garlon in Aquatic and Terrestrial Environments. Plants 2020, 9, 1203.
- Skleničková, K., Abbrent, S., Halecký, M., Kočí, V., Beneš, H.: Biodegradability and ecotoxicity of polyurethane foams - a review. Critical Reviews in Environmental Science and Technology, , 52:2, 157-202.
- Králová N., Šerešová M., Kočí V. Porovnání environmentálních dopadů různých typů jogurtových kelímků. Entecho. 2020, VŠCHT Praha, 1, 6-9.
- Sackey, L.N.A.; Mocová, K.A.; Kočí, V. Ecotoxicological Effect of Aged Wood Leachates to Aquatic Organisms. Water 2020, 12, 2091.
- Kašpar, O.; Koyuncu, A. H.; Hubatová-Vacková, A.; Balouch, M.; Tokárová, V., Influence of channel height on mixing efficiency and synthesis of iron oxide nanoparticles using droplet-based microfluidics. RSC Advances 2020, 10 (26), 15179-15189.
- Kočí, V., Picková, E.: Life Cycle Perspective of Liquid Epoxy Resin Use in the Automotive Industry. Polish Journal of Environmental Studies, Volume: 29, Issue: 1, Pages: 1-15, Published: 2020.
- Pittermannová, A.; Ruberová, Z.; Lizoňová, D.; Hubatová-Vacková, A.; Kašpar, O.; Zadražil, A.; Král, V.; Pechar, M.; Pola, R.; Bibette, J.; Bremond, N.; Štěpánek, F.; Tokárová, V., Functionalized hydrogel microparticles prepared by microfluidics and their interaction with tumour marker carbonic anhydrase IX. Soft Matter 2020.
- Haider, M.; Elsherbeny, A.; Jagal, J.; Hubatová-Vacková, A.; Saad Ahmed, I. Optimization and Evaluation of Poly(lactide-co-glycolide) Nanoparticles for Enhanced Cellular Uptake and Efficacy of Paclitaxel in the Treatment of Head and Neck Cancer. Pharmaceutics 2020, 12, 828.
- Zakuciová, K., Carvalho, A., Štefanica, J., Vitvarová, M., Pilař, L., Kočí, V.: Environmental and Comparative Assessment of Integrated Gasification Gas Cycle with CaO Looping and CO2 Adsorption by Activated Carbon: A Case Study of the Czech Republic. Energies 2020, 13(16), 4188.
- Sackey, L. N.A., Kočí, V.: Cornelis A.M.van Gestel: Ecotoxicological effects on Lemna minor and Daphnia magna of leachates from differently aged landfills of Ghana. Science of the Total Environment, 698 (2020) 1–7.
- Sackey, LNA; Mocova, KA; Petrova, S; Koci, V: Toxicity of wood leachate to algae Desmodesmus subspicatus and plant Lemna minor. Environmental science and pollution research, 2020, 6 (7).
- Sackey, Lyndon N.A, Kočí, V.: 2020. Assessing the effects of Tropical Wood Leachate to Desmodesmus subspicatus, Lemna minor and Daphnia magna. Heliyon 6(7) 2020.