Finished Grant Research Projects

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Ongoing research projects funded by grants are listed on separate page.

Počátek řešení projektu:
01/02/2018
Konec řešení projektu:
28/02/2019
Project ID: CZ.01.1.02/0.0/0.0/17_107/0012492
Funding provider: EU, OP PIK
Investigator at UCEEB: doc. Ing. Vladimír Zmrhal, Ph.D.
Project duration: 1. 2. 2018 – 28. 2. 2019
Partner: Recuair, s.r.o. In cooperation with the Recuair, s.r.o. company, we are developing a new type of small, energy-saving ventilation units with recuperation of heat. We participate on modeling of the flow and we measure the output and noise level of the new type of ventilation units. The aim is to develop ventilation units with higher efficiency of recuperation of heat using a new approach for defrosting the exchanger thanks to a new construction and design. The project reacts to the new ...
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Počátek řešení projektu:
01/05/2017
Konec řešení projektu:
31/03/2021
Project ID: CZ.01.1.02/0.0/0.0/16_084/0009975
Funding provider: Operational Programme Enterprise and Innovations for Competitiveness
Investigator at UCEEB: Ing. Jan Včelák, Ph.D.
Project duration: 1. 5. 2017 – 31. 3. 2021
Partner: Lias Vintířov, lehký stavební materiál k.s. The aim of the project is research and development of a new technology of firing light ceramic aggregate Liapor, a light granulate of ceramic mass. A new firing technology based on a rotary furnace and a cooler will allow more efficient heat transfer from flue gas directly into the batch in the individual zones of the rotary furnace and the drum cooler, thus allowing the fraction production ratio ...
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Počátek řešení projektu:
01/07/2019
Konec řešení projektu:
30/06/2022
Project ID: TK02010164
Funding provider: Technology Agency of the Czech Republic
Investigator at UCEEB:  Ing. Jan Včelák Ph.D.
Project duration: 1. 7. 2019 – 30. 6. 2022
Partners: ČVUT Faculty of Mechanical Engineering, ELPRAMO s.r.o. The goal of the current project (by 2022) is to develop, test and evaluate tools maximizing building energy flexibility. Specifically, the research deals with the development of integrated management tools suitable for residential and office buildings. These tools provide coordinated operation of building systems (heating, cooling, ventilation, shading, etc.) in order to optimize the demand response to future needs of so-called smart grid with respect to thermal comfort of ...
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Počátek řešení projektu:
01/10/2016
Konec řešení projektu:
31/07/2019
Project ID: CZ.01.1.02/0.0/0.0/15_019/0004670
Funding provider: OP Entreprise and innovations for Competitiveness
Investigator at UCEEB:  Ing. Jakub Maščuch, Ph.D.
Project Duration: 1.10. 2016 – 31.7.2019
Partner: SVÚM a.s. The aim of the project is to develop and put into operation a system for detection of corrosion-risk states due to the condensation of the combustion constitutents. This system is primarily intended for cogeneration units with an ORC cycle where waste heat from alternative sources is used and operation is thus endangered by corrosion under the dew point. An early warning system is important because of the use of flammable media in ORC cycle heat exchangers and therefore ...
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Počátek řešení projektu:
01/01/2016
Konec řešení projektu:
31/12/2017
Project ID:  LE15024
Funding provider: Ministry of Education, Youth and Sports (MEYS) – EUPRO II
Investigator at UCEEB: Ing. Mgr. Michal Kuzmič
Project duration: 1. 1. 2016 – 31. 12. 2017 Since 2016 CTU UCEEB became an active part in the European Energy Research Alliance – Joint Programme on Smart Cities. Our partners in the organisation are – among others – AIT (Austrian Institute of technology) or DTU (Dánská technologická univerzita). For the full list of members see the EERA website. UCEEB together with the Czech Institute for Informatics, Robotics and Cybernetics (CIIRC) and partners outside CTU (under leadership of Research Centre Řež) took ...
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Počátek řešení projektu:
01/01/2017
Konec řešení projektu:
31/12/2020
Project ID: TH02030649
Funding provider: Technologická agentura České republiky
Investigator at UCEEB:  Ing. Tereza Pavlů, Ph.D.
Project duration: 1. 1. 2017 – 31. 12. 2020
Partners: AZS 98 s.r.o. The main goal of this project is the use of secondary raw materials for preparing concrete products and structures for civil engineering. One of the goals is adjustment of recycling technology to achieve the high quality recycled material of similar properties for wide usage. Furthermore, the concrete mixture for concrete products and structures will be optimized according to examined properties in laboratory  and further the production technology will be implemented to recycled aggregate concrete production. The applications ...
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Počátek řešení projektu:
01/06/2018
Konec řešení projektu:
31/12/2021
Project ID: TK01030019
Funding provider: Technology Agency of the Czech Republic
Investigator at UCEEB: Ing. Zbyněk Zelený
Project duration: 1.6.2018 – 31.12.2021
Partners: SVÚM a.s., LING Krnov s. r. o. The aim of this project is to analyze (comprehensive study and testing of the combustion process) and to reduce risks (measuring and control sensors, coatings, design modifications) associated with the combustion of alternative fuels in local boilers and smaller combustion units. One of the results will be the design and modification of the combustion process of modern boilers or ORC units to ensure the most efficient and safe operation subject to the latest eco-design. Second part ...
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Počátek řešení projektu:
01/07/2019
Konec řešení projektu:
31/12/2021
Project ID: LTI19002
Funding provider: Ministry of Education, Youth and Sports, programme INTER-EXCELLENCE
Investigator at UCEEB:  Ing. Mgr. Michal Kuzmič
Project duration: 1. 7. 2019 – 31. 12. 2021
Partners:  Centrum výzkumu Řež s.r.o., Vysoká škola báňská – Technická univerzita Ostrava, Vysoké učení technické v Brně, Vysoká škola chemicko-technologická v Praze, Ústav fyzikální chemie J. Heyrovského AV ČR, v. v. i., Ústav fyziky materiálů AV ČR, v. v. i. The main objective of the EERA-CZ 2 project is to enable the participation and engagement of Czech research organizations in the European Research Area thanks to their entering European Energy Research Alliance (EERA) Joint Programmes ...
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Počátek řešení projektu:
01/01/2015
Konec řešení projektu:
31/12/2017
Project ID: TA04021195
Funding provider: Technology Agency of the Czech Republic
Investigator at UCEEB:  doc. Ing. Tomáš Matuška, Ph.D.
Project duration: 1. 1. 2015 – 31. 12. 2017
Partners: Skanska, a.s. The objective of the project is to develop, test, certify and prepare for serial production two innovative components for the energy active curtain walling facade. facade module with hybrid photovoltaic-thermal collector will be designed for combined production of energy (electricity, heat, cold). Facade module with selective optical reflection raster will be used for purposes of diffuse lighting, passive solar gain in the winter and reflection of solar radiation in the summer for reduction of ...
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Počátek řešení projektu:
01/01/2013
Konec řešení projektu:
30/06/2014
Project ID:  EAC – 2012-0600
Funded by:  European Comission
Project duration:  1. 1. 2013 – 30. 6. 2014
Investigator at UCEEB: prof. Ing. Petr Hájek, CSc.
partners: Cauberg Huygen Raadgevende Ir, Institute for Innovation and Development of University of Ljubljana, Metronik, VUPS Praha, Zuyd University CvB (coordinator)
web: http://www.eurl3a.eu/about-eurl3/
  • European Real Life Learning Lab Alliance – (01/2013 – 08/2014) was a pilot project within the European framework of the University–Business Cooperation initiative. The main aim of the initiative was to form the so called “Knowledge Alliance” (KA) to encourage structured, result-driven cooperation ventures between education, research and business bridging the gap between ...
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Počátek řešení projektu:
01/01/2021
Konec řešení projektu:
30/11/2021
Project ID: TP01010066
Funding provider: Technology Agency of the Czech Republic, Programme Gamma 2
Investigator at UCEEB: prof. Ing. Jan Tywoniak, CSc. 
Project duration: 1. 1. 2021 – 30. 11. 2021 The aim is to verify the physical feasibility and functionality of the exterior shading system for skylights according to the granted European patent EP3749824 (CTU, Tywoniak). The exterior shading system according to the patent comprises a frame positioned on the outside of the skylight with a set of adjustable shading slats, the frame carrying guiding elements for defining the position of the slats and their movement. An air gap ...
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Počátek řešení projektu:
01/04/2016
Konec řešení projektu:
30/09/2022
Project ID: PGI01361
Funding:
 ERDF – Interreg Europe
Principal Investigator UCEEB: Karolina Tomešová
Project Coordinator CVUT: Štěpánka Holečková
Duration: 1. 4. 2016 – 30 9. 2022
Partners: Extramadura Energy Agency (Lead Partner), General Direction of Industry, Energy and Mines, Extramadura Regional Government, INTELI, Autonomous Province of Trento, Managing Authority of Regional Operational Programme of Western Macedonia Region, City of Prague, Climate Protection and Energy Agency of Baden Württemberg, Plymouth City Council
Web: http://www.interregeurope.eu/finerpol/
  • UCEEB and City of Prague are both involved in Interreg Europe project FINERPOL.
  • The aim is to support new policies or improve existing policies aimed at creating financial instruments, particularly those ...
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Počátek řešení projektu:
01/09/2015
Konec řešení projektu:
31/12/2018
Project ID:   VI20152018010
Funded by:  Ministerstvo vnitra ČR
Project duration:  1. 9. 2015 – 31. 12. 2018
Investigator at UCEEBprof. Ing. Evžen Amler, CSc. The main objective of the project is to create a qualitative new system to collect the scent imprints and maintaining these in selected solvents based on water-soluble nanofibers. The system will allow ultrasensitive adhesion of scent molecules onto a modified nanofibrous surface subsequently followed by a transfer of scent imprints into a form suitable for maintenance, transport and eventually for further chemical analyses leading to scent imprints digitalisation. These advanced chromatographic, eventually spectroscopic methods allow creation ...
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Počátek řešení projektu:
01/04/2017
Konec řešení projektu:
31/12/2021
Project ID: 17-322851A
Funding provider: AZV ČR
Investigator at UCEEB: RNDr. Jan Sabó CSc.
Project duration: 1. 4. 2017 – 31. 12. 2021
Partner: Univerzita Karlova v Praze, 2LF, Veterinární a farmaceutická univerzita Brno The incisional hernia is one of the most frequent complications affecting around 20% of all laparotomies. Around half of them suffer a recurrence when operated and one forth when surgical mesh is used. Unfortunately, even the surgical mesh can cause a wide range of complications and poses a lifelong risk for the patient. The biological mesh has brought a certain change to this concept. However, due to its biological origin ...
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Počátek řešení projektu:
01/01/2020
Konec řešení projektu:
31/01/2022
Project ID: 20-12941S
Funding provider: Czech Science Foundation (GACR)
Investigator at UCEEB:  Ing. Kamil Staněk, Ph.D.
Project duration: 1. 1. 2020 – 31. 1. 2022 Mould growth on wood is often a precursor of further decay. Current predictive mould growth models used in building science are based on laboratory experiments, in which the material sample is in hygrothermal equilibrium with ambient air. However, such condition is rarely satisfied in real life building structures and thus these models often fail. The main objective of this project is to deepen the understanding of fungal growth on wood exposed to changing boundary conditions ...
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Počátek řešení projektu:
01/01/2018
Konec řešení projektu:
31/12/2021
Project ID:  TH03030230
Funding provider:  Technology Agency of the Czech Republic
Project duration:  1. 1. 2018 – 31. 12. 2021
Investigator at UCEEB: prof. Ing. Jan Tywoniak CSc.
partners: LIKO-S a.s., Mendelova univerzita v Brně The aim of the project is to find solutions for vegetation roofs and vegetation facades which will bring real and quantifiable contribution to the creation of the indoor environment of buildings, the microclimate of buildings, the improvement of the water balance in the urbanized space and at the same time they will be technically repeatable with acceptable investment costs, guaranteed low operating costs and adequate lifetime. The project focuses primarily on ...
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Počátek řešení projektu:
01/07/2020
Konec řešení projektu:
30/06/2021
Project ID: TP01010066
Funding provider: Technology Agency of the Czech Republic, Programme Gamma 2
Investigator at UCEEB: doc. Ing. Tomáš Matuška, Ph.D.
Project duration: 1. 7. 2020 – 30. 6. 2021 The project will verify the functionality of a design prototype solution of developed hybrid glazed photovoltaic-thermal (FVT) collectors in a pilot solar system installed in real operating conditions (proof-of-concept) in the supply of heat and electricity to a specific building. The system will be closely monitored to obtain sufficient information on functionality, reliability and durability. The aim of the project is to show a prototype solution of hybrid photovoltaic-thermal ...
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Počátek řešení projektu:
01/04/2019
Konec řešení projektu:
31/03/2022
Project ID: FV40148
Funding provider: Ministry of Industry and Trade
Investigator at UCEEB: doc. Ing. Petr Kuklík, CSc.
Project duration: 1. 4. 2019 – 31. 3. 2022
Partners: Zlínské stavby a.s. The goal of this project is to develop timber-concrete composite floor element with no competition on the market. Thanks to high level of prefabrication, we will be able to obtain the floor element´s highest quality while the lowest requirements for construction time on site. The subject of research and experimental development is fully prefabricated element achieving the best rate between final price and its utility properties thanks to innovative materials. The development ...
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Počátek řešení projektu:
01/06/2018
Konec řešení projektu:
31/05/2021
Project ID: TK01020024
Funding provider: Technology Agency of the Czech Republic
Investigator at UCEEB: doc. Ing. Lukáš Ferkl, Ph.D.
Project duration: 1. 6. 2018 – 31. 5. 2021
Partners: Honeywell, spol. s r.o. The project aims at fulfilling the European and Czech energy commitments to increase efficiency and decrease greenhouse gases. Buildings are the biggest sole energy consumer (40%) and an important producer of CO2 (36%). Project Hydronics 4.0 focuses on a development of a new generation of heat distribution and delivery system with the potential for significant savings in material, time, labor and most importantly for up to 40% savings in operating costs ...
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Počátek řešení projektu:
01/06/2019
Konec řešení projektu:
31/05/2019
Project ID: LTI19013
Funding provider: Ministry of Education, Youth and Sports, programme Inter-Excellence
Investigator at UCEEB: Ing. Antonín Lupíšek, Ph.D.
Project duration: 1. 6. 2019 – 31. 5. 2022 As a result of a low number of applications submitted to international project calls, the Czech Republic does not fully capitalise on drawing funds from international projects funded by the European Union. The project Improving the Quality of Support Infrastructure in the Field of Energy Efficient Buildings (Inform EEB-CZ) uses the platform EEB-CZ which was created within a project from the call EUPRO II to support and promote Czech organizations in the field of ...
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Počátek řešení projektu:
01/01/2017
Konec řešení projektu:
31/12/2019
Project ID: TH02010917
Funding provider: Technology Agency of the Czech Republic, programme Epsilon
Investigator at UCEEB: doc. Ing. Petr Kuklík, CSc.
Project duration: 1. 1. 2017 – 31. 12. 2019
Partner: BOVA Březnice spol. s r.o. New fasteners and upgrade some existing metal fasteners for wood and wood-concrete structures are the aim of the project. Innovation will contribute to the expansion of product portfolio and will strengthen the competitiveness of the Czech producer on the domestic and especially foreign market. Extension of the production program and the increase in production volume will have a positive impact on employment in the surrounding area. ...
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Počátek řešení projektu:
01/07/2018
Konec řešení projektu:
30/06/2022
Project ID: TK01020180
Funding provider: Technology Agency of the Czech Republic
Investigator at UCEEB: Ing. Jan Včelák, Ph.D
Project duration: 1. 7. 2018 – 30. 6. 2022
Partners: Korado, a.s. Proposed project is dealing with design of innovative air handling unit for local air treatment which is using thermoelectric modules. The aim of the project is to develop unit prototype including smart control module with measurement of indoor air quality and control algorithms taking available renewable energy into account. Using the support from the technical agency the project development will speed up and more personal capacities will be assigned to the development. The functional ...
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Počátek řešení projektu:
01/01/2018
Konec řešení projektu:
31/12/2020
Project ID: 18-26297S
Funding provider:  Czech Science Foundation
Investigator at UCEEB: doc. Ing. Petr Kuklík, CSc.
Project duration: 1. 1. 2018 – 31. 12. 2020
Partner:  Ústav anorganické chemie AV ČR External wooden constructions have own place in building industry from ages. The external wooden construction easily degrade due to UV radiation, atmospheric condition and biological aggressors. Solution of this weakness could be photocatalytic materials. Those materials are efficient UV absorbers and they are able to destroy biological aggressors also. Nowadays, there is no information about the interactions between wooden surface and non-photoactive or photoactive form of TiO2. This material will be ...
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Počátek řešení projektu:
01/09/2017
Konec řešení projektu:
31/08/2019
Project ID: TJ01000432
Funding provider: Technology Agency of the Czech Republic 
Investigator at UCEEB: Ing. Kristina Fořtová, Ph.D. 
Project duration: 1.9.2017 – 31.8.2019 Aim of the project is an anchor element designed to interrupt the thermal bridge when the anchoring elements are connected to the insulate facade systems. The project focuses on a system solution that allows the transfer of all internal forces (tension, pressure, bending). The subject of the project will be a detail that will allow anchoring of the supporting elements at various points of the front plate, thus ensuring a greater rectification of the subsequent structures. Part of the variant solution ...
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Počátek řešení projektu:
01/01/2017
Konec řešení projektu:
31/12/2018
Project ID: CZ.01.1.02/0.0/0.0/15_013/0004988
Funding provider: OP Enterprise and Innovations for Competitiveness
Investigator at UCEEB: Ing. Marek Pokorný, Ph.D.
Project duration: 1. 1. 2017 – 31. 12. 2018
Partner: FK Servis, s.r.o. The project solves the transfer of advanced fire engineering knowledge from the academic sphere for practical use in the enterprise. The aim of the project is to support the development and optimization of in-house design procedures for low-pressure water fog units, which can increase the fire resistance especially for existing and new beam and surface structures by a highly efficient cooling mode. Three dimensional validation for the validation of mathematical model results is ...
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