Browsing by Author "Hrabák Pavel"
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- ItemAccumulation and toxicity of organochlorines in green microalgae(2018-01-01) Hrabák Pavel; Antoš Vojtěch
- ItemAccumulation of hexachlorocyclohexanes in Alnus glutinosa biomass(Vodní zdroje Ekomonitor. spol. s.r.o, 2015, 2015-01-01) Antoš Vojtěch; Hrabák Pavel; Macháčková Jiřina; Černík Miroslav; Kvapil Petr; Polách Libor; Šupíková Irena
- ItemAnaerobic sorption biofilter for treatment of groundwaters contaminated by organochloride pesticides. A verified technology.(2019-01-01) Hrabák Pavel; Šupíková Irena; Fučík Petr
- ItemAttached and planktonic bacterial communities on bio-based plasticgranules and micro-debris in seawater and freshwater(Elsevier, 2021-01-01) Nguyen Nhung Anh Huynh; El-Temsah Yehia Sayed Ismail; Hrabák Pavel; Borůvka Martin; Kejzlar Pavel; Bakalova Totka; Ševců Alena
- ItemBiodegradation of High Concentration of Aliphatic Hydrocarbons in Soil from a Petroleum Refinery: Implications for Applicability of New Actinobacterial Strains(2018-01-01) Hrabák Pavel; Czinnerová Marie; Ševců Alena; Kakosová Eva
- ItemChemical degradation of PCDD/F in contaminated sediment(SOC ECOLOGICAL CHEMISTRY & ENGINEERING, 2016-01-01) Hrabák Pavel; Homolková Martina; Černík Miroslav; Waclawek Stanislaw
- ItemChemical Oxidation of Polycyclic Aromatic Hydrocarbons in Water By Ferrates(VI)(SOC ECOLOGICAL CHEMISTRY & ENGINEERING, 2020-01-01) Antošová Barbora; Hrabák Pavel; Antoš Vojtěch; Waclawek Stanislaw Witold
- ItemComposite sorption material based on biochar for anaerobic sorption biofilter(2020-01-01) Antoš Vojtěch; Hrabák Pavel; Lísková Klára; Fučík Petr; Šupíková Irena; Polách Libor
- ItemDegradability of chlorophenols using ferrate(VI) in contaminated groundwater(Springer Berlin Heidelberg, 2016-01-01) Homolková Martina; Hrabák Pavel; Kolář Michal; Černík Miroslav
- ItemDegradability of hexachlorocyclohexanes in water using ferrate (VI)(IWA Publishing 2015, 2015-01-01) Homolková Martina; Hrabák Pavel; Kolář Michal; Černík Miroslav
- ItemDetermination of C10-c40 Hydrocarbons by Gc-fid Method(2014-01-01) Kakosová Eva; Hrabák Pavel
- ItemDetermination of organochlorinated pesticides by electrospun polyethersulfone nanofibres(Tanger, spol. s.r.o. 2017, 2017-01-01) Antoš Vojtěch; Hrabák Pavel; Kejzlar Pavel
- ItemDetermination of Organochlorinated Pesticides by Electrospun Polyethersulfone Nanofibres(Tanger, Ltd., 2018-01-01) Kejzlar Pavel; Hrabák Pavel; Antoš Vojtěch; Lísková Klára
- ItemDIRECT/AUTOMATED MEASUREMENT OF DISSOLVED GASES METHANE, ETHANE, ETHENE DURING REDUCTIVE DEHALOGENATION OF CONTAMINATED WATER(Vodní zdroje Ekomonitor. spol. s.r.o, 2015, 2015-01-01) Kakosová Eva; Antoš Vojtěch; Jiříčková Lucie; Hrabák Pavel; Černík Miroslav
- ItemDiscovering the potential of an nZVI-biochar composite as a material for the nanobioremediation of chlorinated solvents in groundwater: Degradation efficiency and effect on resident microorganisms(Elsevier, 2021-01-01) Semerád Jaroslav; Ševců Alena; Nguyen Nhung Anh Huynh; Hrabák Pavel; Špánek Roman; Bobčíková Kateřina; Pospíšková Kristýna; Filip Jan; Medřík Ivo; Kašlík Josef; Šafařík Ivo; Filipová Alena; Nosek Jaroslav; Pivokonský Martin; Cajthaml Tomáš
- 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.
- ItemEffects of various chemical oxidation agents on soil microbial communities(ELSEVIER SCIENCE SA, 2017-01-01) Hrabák Pavel; Černík Miroslav; Novotný Vít; Czinnerová Marie
- ItemEndocrine disruptors in the effluent of WWTP in Liberec(2015-01-01) Hrabák Pavel
- ItemGroundwater Remediation by in Situ Chemical Oxidation - Advantages and Pitfals(Brno University of Technology, 2014-01-01) Kakosová Eva; Waclawek Stanislaw; Hrabák Pavel
- ItemHCH Removal in a Biochar-Amended Biofilter(2021-01-01) Amirbekov Aday; Mamirova Aigerim; Ševců Alena; Špánek Roman; Hrabák Pavel
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