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Małgorzata Szlachta
Małgorzata Szlachta
Wrocław University of Science and Technology
在 pwr.edu.pl 的电子邮件经过验证
标题
引用次数
引用次数
年份
The application of Fe–Mn hydrous oxides based adsorbent for removing selenium species from water
M Szlachta, N Chubar
Chemical Engineering Journal 217, 159-168, 2013
1042013
Adsorption of arsenite and selenite using an inorganic ion exchanger based on Fe–Mn hydrous oxide
M Szlachta, V Gerda, N Chubar
Journal of colloid and interface science 365 (1), 213-221, 2012
922012
Adsorption of methylene blue and Congo red from aqueous solution by activated carbon and carbon nanotubes
M Szlachta, P Wójtowicz
Water Science and Technology 68 (10), 2240-2248, 2013
772013
Effects of natural organic matter removal by integrated processes: alum coagulation and PAC-adsorption
M Szlachta, W Adamski
Water Science and Technology 59 (10), 1951-1957, 2009
722009
Effect of Fe oxidation state (+ 2 versus+ 3) in precursor on the structure of Fe oxides/carbonates-based composites examined by XPS, FTIR and EXAFS
N Chubar, V Gerda, M Szlachta, G Yablokova
Solid State Sciences 121, 106752, 2021
572021
Zastosowanie absorbancji właściwej w nadfiolecie (SUVA) w ocenie jakości wody
M Mołczan, M Szlachta, A Karpińska, A Biłyk
Ochrona Środowiska 28 (4), 11-16, 2006
512006
Static and dynamic adsorptive removal of selenite and selenate by alkoxide-free sol–gel-generated Mg–Al–CO3 layered double hydroxide: effect of competing ions
N Chubar, M Szlachta
Chemical Engineering Journal 279, 885-896, 2015
442015
Effective separation of uranium from mine process effluents using chitosan as a recyclable natural adsorbent
M Szlachta, R Neitola, S Peräniemi, J Vepsäläinen
Separation and Purification Technology 253, 117493, 2020
432020
The application of iron mesh double layer as anode for the electrochemical treatment of Reactive Black 5 dye
WT Mook, MA Ajeel, MK Aroua, M Szlachta
Journal of Environmental Sciences 54, 184-195, 2017
432017
Optimisation of Reactive Black 5 dye removal by electrocoagulation process using response surface methodology
WT Mook, MK Aroua, M Szlachta, CS Lee
Water Science and Technology 75 (4), 952-962, 2017
402017
Palm shell-based activated carbon for removing reactive black 5 dye: equilibrium and kinetics studies
MW Tze, MK Aroua, M Szlachta
BioResources 11 (1), 1432-1447, 2016
392016
Combined solar electrocoagulation and adsorption processes for Pb (II) removal from aqueous solution
F Hussin, MK Aroua, M Szlachta
Chemical Engineering and Processing-Process Intensification 143, 107619, 2019
332019
Biochar derived from fruit by-products using pyrolysis process for the elimination of Pb (II) ion: An updated review
F Hussin, MK Aroua, M Szlachta
Chemosphere 287, 132250, 2022
292022
Mechanism of selenite removal by a mixed adsorbent based on Fe–Mn hydrous oxides studied using X-ray absorption spectroscopy
N Chubar, V Gerda, M Szlachta
Environmental science & technology 48 (22), 13376-13383, 2014
282014
Treatment of arsenic-rich waters using granular iron hydroxides
M Szlachta, P Wójtowicz
Desalination and Water Treatment 57 (54), 26376-26381, 2016
122016
Anion exchange pretreatment for the removal of natural organic matter from humic rich water
M Molczan, M Szlachta
Water Science and Technology: Water Supply 11 (6), 699-710, 2011
112011
Aeration performance of hydrodynamic flow regulators
P Wójtowicz, M Szlachta
Water science and technology 67 (12), 2692-2698, 2013
82013
Wykorzystanie adsorpcji na pylistym węglu aktywnym do usuwania rozpuszczonych substancji organicznych z wody
M Szlachta, W Adamski
Ochrona Środowiska 31 (2), 61-66, 2009
82009
Analiza zjawisk w koagulacji objętościowej wspomaganej pylistym węglem aktywnym
M Szlachta
Rozprawa doktorska, Politechnika Wrocławska, Instytut Inżynierii Ochrony …, 2007
82007
Ocena skuteczności usuwania naturalnych związków organicznych z wody w procesie koagulacji objętościowej
M Szlachta, W Adamski
Ochrona Środowiska 30 (3), 9-13, 2008
72008
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