Browsing by Author "Hrůza Jakub"
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- ItemCartidge of the Air Laminar Flow Inlet with Antimicrobial Function(2014-01-01) Filip Tomáš; Klouda Martin; Sanetrník Filip; Hrůza Jakub; Komárek Michal; Karel Petr; Maryška Jiří
- ItemCatalytically effective filter for purification of atmospheric air(2014-01-01) Hrůza Jakub; Komárek Michal; Novák Ondřej
- ItemCleanable nanofibrous membranes for waste water purification(Technická Univerzita v Liberci, 2017-01-01) Hrůza Jakub; Bílek Petr; Ungur Ganna
- ItemCompendium of reults and documentation from filtration devices analysis(2018-01-01) Komárek Michal; Hrůza Jakub; Sedláček Jan; Matas Richard
- ItemComposite nanofiber membrane prototype(2018-01-01) Hrůza Jakub
- ItemDevice Lsd 119 for the Membrane Filtration Simulation(2018-01-01) Hrůza Jakub
- ItemEffect of Laminating Pressure on Polymeric Multilayer Nanofibrous Membranes for Liquid Filtration(MDPI, 2018-01-01) Yalcinkaya Fatma; Hrůza Jakub
- ItemEffect of Nanofibrous Membrane Structures on the Treatment of Wastewater Microfiltration(American Scientific Publishers, 2017-01-01) Yalcinkaya Fatma; Yalcinkaya Baturalp; Hrůza Jakub; Hrabák PavelAn experimental study for industrial wastewater was carried out using a cross-flow microfiltration unit. The effect of various nanofibrous membrane structures on the membrane permeability was investigated. Analysis of variations in nanofiber area weight, supporting material, the hydrophilicity of membranes, and the polymeric structure of the nanofiber layer revealed considerable effects on membrane permeability, the total amount of filtrated permeate and the total amount of carbon in the permeate solution. The removal of total organic carbon (TOC) was gradually decreased with the increasing area weight of the nanofiber layer. Low area weight nanofiber composite membranes were superior over high area weight ones, as a higher membrane permeability was maintained during the 15 hour test. The results indicate that the selection of the area weight of the nanofiber layers as well as the supporting layer are a key factor for increasing the flux and permeability.
- ItemElectrospun Filter Media for Gas and Liquid Filtration(2018-01-01) Hrůza Jakub; Petrík Stanislav
- ItemExperimental Setup for Long-term Measurement of Efficiency of Filtration Materials for Catalytic Destruction of Nitrogen Oxides At Atmospheric Concentrations(2014-01-01) Šidlof Petr; Štěpán Martin; Hrůza Jakub
- ItemExperimental setup for long-term testing of mechanical resistance of textile materials for liquid filtration(2015-01-01) Šidlof Petr; Hrůza Jakub
- ItemA filter for filtering liquids, especially waste or surface water(2018-01-01) Hrůza Jakub; Ungur Ganna
- ItemFiltration device for depth water filtration(2019-01-01) Maryšková Milena; Hrůza Jakub
- ItemFiltration device for wastewater treatment(2019-01-01) Hrůza Jakub
- ItemFiltration Element Made of Nanofibrous Composite Yarn(2014-01-01) Sanetrník Filip; Hrůza Jakub; Komárek Michal; Maryška Jiří
- ItemFiltration equipment for deep water filtration(2020-01-01) Maryšková Milena; Hrůza Jakub; Schaabová Markéta; Maryška Jiří
- ItemFiltration equipment for wastewater treatment(2020-01-01) Hrůza Jakub; Maryška Jiří
- ItemFiltration system for wastewater treatment(2020-01-01) Hrůza Jakub
- ItemFouling and Chemical Cleaning of Microfiltration Membranes: A Mini-Review(MDPI, 2021-01-01) Gül Aysegül; Hrůza Jakub; Yalcinkaya Fatma
- ItemFuel Filtration Simulation Test Device(2014-01-01) Hrůza Jakub
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