Autor: Łaskawiec, E. - Katalog OPAC zbiorów

Skocz do pozycji: 1.

Tytuł:: An evaluation of the phytotoxicity of filter backwash water coagulation products from a pool water system
Autorzy:: Łaskawiec, E.
Dudziak, M.
Wyczarska-Kokot, J.
Powiązania:: https://bibliotekanauki.pl/articles/207079.pdf
Data publikacji:: 2018
Wydawca:: Politechnika Wrocławska. Oficyna Wydawnicza Politechniki Wrocławskiej
Tematy:: phytotptpxicity
swimming pool water
coagulation process
Lepidium sativum
Lemna minor
fitotoksyczność
woda basenowa
proces koagulacji
Opis:: The possibility of using the process of coagulation for purifying the filter backwash water from a swimming pool water system has been presented. The assessment of the process efficiency based on the physicochemical parameters was extended by a phytotoxicity analysis of products (sludges and supernatant liquids) obtained from the coagulation processes. The phytotoxicity of sludges was examined with respect to garden cress (Lepidium sativum) and white mustard (Sinapis alba), while duckweed (Lemna minor) was used for studying liquids. Coagulation process was highly effective in purifying backwash water when the lowest of the studied aluminum coagulant doses (from 7 to 20 mg/dm³) was used. Moreover, the phytotoxicity assessment of backwash water allowed the determination of the hazard toward plants, which would be posed by using the backwash water for plant irrigation. The high stimulation of the growth of plant indices, observed in samples with raw backwash water, was caused by nutritive nitrogen and phosphorus. Their removal, in the case of postcoagulation solutions, significantly contributed to the inhibition of plant growth. In turn, sludges derived from both raw washings and coagulation exhibited phytotoxicity.
Źródło:: Environment Protection Engineering; 2018, 44, 4; 43-56
0324-8828
Pojawia się w:: Environment Protection Engineering
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 2.

Tytuł:: Selection of conditions of water recovery from the stream of washings from the swimming pool water system
Dobór warunków odzysku wody ze strumienia popłuczyn z instalacji wody basenowej
Autorzy:: Łaskawiec, E.
Dudziak, M.
Wyczarska-Kokot, J.
Powiązania:: https://bibliotekanauki.pl/articles/387996.pdf
Data publikacji:: 2017
Wydawca:: Towarzystwo Chemii i Inżynierii Ekologicznej
Tematy:: integrated process
washings nanofiltration
coagulation
sedimentation
swimming pool water
Installation
proces zintegrowany
popłuczyny
nanofiltracja
koagulacja
instalacja wody basenowej
Opis:: This study discusses the results of the preliminary tests use an integrated process coagulationsedimentationnanofiltration for the purification washings from swimming pool water treatment circulation. Studies included the effect of the terms and conditions of the preparatory process (coagulation where range of doses of coagulant 1.5–3.0 mgAl/dm3 and sedimentation where the scope of duration 0.5–24 h) on the transport and separating properties nanofiltration membranes. Comparatively, the process of nanofiltration of raw washings has been performed. DK GE Osmonics membrane was used as a nanofiltration membrane. A higher value of volumetric permeate flux was observed during the nanofiltration process for washings after coagulation process with dose 1.5 mgAl/dm3. There has also been significant improvement in transport capacity of the membrane with increased sedimentation time (to 24 hours). The presence of sediment molecules, which contributed to the reduction of the process efficiency during filtration of washings after coagulation with dose 3.0 mgAl/dm3, at the same time they caused a gradual increase in membrane separation capacity. A secondary membrane having a lower porosity than the primary membrane has been produced. The use of the integrated system has improved the transport conditions of the nanofiltration membranes, reduction of residual aluminium concentration, as well as significant improvements in other physicochemical parameters (inter alia reduction the amount of suspended solids and ultraviolet absorbance UV254).
W pracy przedstawiono wyniki badań dotyczących zastosowania zintegrowanego procesu koagulacji–sedymentacji–nanofiltracji do oczyszczania popłuczyn z obiegu uzdatniania wody basenowej. Badania obejmowały ocenę wpływu warunków prowadzenia procesów wstępnych, tj. koagulacji (zakres dawek koagulantu 1,5–3,0 mgAl/dm3) oraz sedymentacji (czas trwania 0,5–24 h) na własności transportowo-separacyjne membran nanofiltracyjnych. Porównawczo przeprowadzono proces nanofiltracji surowych popłuczyn. Obserwowano wyższą wartość objętościowego strumienia permeatu w trakcie procesu nanofiltracji dla popłuczyn po koagulacji (dawka koagulantu 1,5 mgAl/dm3). Stwierdzono znaczącą poprawę zdolności transportowych membrany wraz z wydłużeniem czasu sedymentacji (do 24 h). Obecność cząsteczek osadów, które przyczyniały się do obniżenia wydajności filtracji popłuczyn po koagulacji, w której zastosowano wyższą dawkę koagulantu (3,0 mgAl/dm3), równocześnie spowodowała stopniowy wzrost zdolności separacyjnych membrany – utworzyła się tzw. membrana wtórna charakteryzująca się mniejszą porowatością niż membrana pierwotna. W badanym przypadku zastosowanie układu zintegrowanego pozwoliło na poprawę warunków transportowych membran nanofiltracyjnych, zmniejszenie stężenia glinu pozostałego oraz znaczną poprawę pozostałych parametrów fizykochemicznych (m.in. zmniejszenie ilości zawiesin ogólnych i obniżenie absorbancji w nadfiolecie UV254).
Źródło:: Ecological Chemistry and Engineering. A; 2017, 24, 2; 227-236
1898-6188
2084-4530
Pojawia się w:: Ecological Chemistry and Engineering. A
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 3.

Tytuł:: Assessment of the possibility of recycling backwashing water from the swimming pool water treatment system
Ocena możliwości recyklingu popłuczyn z systemu oczyszczania wody basenowej
Autorzy:: Łaskawiec, E.
Dudziak, M.
Wyczarska-Kokot, J.
Powiązania:: https://bibliotekanauki.pl/articles/388489.pdf
Data publikacji:: 2016
Wydawca:: Towarzystwo Chemii i Inżynierii Ekologicznej
Tematy:: swimming pool water
backwashing
toxicological assessment
physicochemical analysis
biotests
wody basenowe
popłuczyny
ocena toksykologiczna
analiza fizykochemiczna
biotest
Opis:: The paper presents the physicochemical analysis and toxicological assessment of backwashing samples taken after the process of washing filter beds in a raw condition after the process of their aeration and dechlorination. The backwash water under investigation originated from circulation systems existing in two indoor swimming pool facilities. The backwash water, as used at the preliminary and the main stages, was characterized by different physicochemical properties. For toxicological assessment, the Mictorox® bioluminescence inhibition test, the Chaoborus sp. insect larva survival test and the phyto test using Lemna minor fine cilium were involved. The investigation presented in the paper included a preliminary phase focusing on the ecotoxic characterization of backwash water subjected to aeration and dechlorination processes. In turn, at the main stage, the effect of aeration duration on the quality of backwash water in terms of its physicochemical parameters was analyzed. The results of the preliminary stage investigation indicate that backwash water, both in a raw condition and after 30 minutes’ aeration, could not be discharged directly to the environment due to the threat to living organisms caused by its high toxicity. Whereas, using 160 minutes’ aeration duration contributed to a significant improvement in the quality of the backwash water and elimination of its toxic properties with respect to the indicator organisms used. The chemical dechlorination process brought about varying effects. In the case of the Microtox® test, a stimulation of bacterial bioluminescence was noted, but, at the same time, the death of individual insect larva specimens was observed. In spite of the high biomass increase in the Lemna minor test, a gradual discolouration of fronds under the influence of backwash water was observed. Because of the presence of numerous compounds being disinfection by-products, as well as coagulant residues in backwash water deriving from swimming pool systems, it is necessary to seek further solutions that will allow them to be recycled, which will result in a reduction of water consumption and effluent discharges.
W pracy przedstawiono analizę fizykochemiczną oraz ocenę toksykologiczną próbek popłuczyn pobranych po procesie płukania złóż filtracyjnych w stanie surowym po procesie napowietrzania oraz dechloracji. Badane popłuczyny pochodziły z obiegów zlokalizowanych w dwóch obiektach basenowych krytych. Do oceny toksykologicznej włączono test inhibicji bioluminescencji Mictorox®, przeżywalności larw owadów Chaoborus sp. oraz fitotest z wykorzystaniem rzęsy drobnej Lemna minor. Badania obejmowały fazę wstępną, skupiającą się na charakterystyce ekotoksykologicznej popłuczyn poddanych procesom dechloracji oraz napowietrzania. W etapie zasadniczym badań analizowano dodatkowo wpływ czasu napowietrzania na jakość popłuczyn pod względem parametrów fizykochemicznych. Wyniki wstępnego etapu badań sygnalizuj ą, że popłuczyny zarówno w stanie surowym, jak i po 30-minutowym napowietrzaniu nie mogły zostać bezpośrednio odprowadzone do środowiska ze względu na zagrożenie dla organizmów żywych, spowodowane ich wysoką toksycznością. Natomiast zastosowane wydłużenie czasu napowietrzania (160 min) przyczyni ło się do znaczącej poprawy jakości popłuczyn i pozbawienia ich właściwości toksycznych w stosunku do wykorzystanych organizmów wskaźnikowych. Zróżnicowane efekty przyniósł zabieg chemicznej dechloracji. W przypadku testu Microtox® odnotowano stymulację bioluminescencji bakterii, równocześnie zaobserwowano śmierć pojedynczych osobników larw owadów. Pomimo wysokiego przyrostu biomasy w teście z Lemna minor, zaobserwowano stopniowe odbarwienie frondów pod wpływem użytych popłuczyn. Niezbędne jest poszukiwanie dalszych rozwiązań umożliwiających ich recykling, co zapewni ograniczenie zużycia wody oraz odprowadzania ścieków.
Źródło:: Ecological Chemistry and Engineering. A; 2016, 23, 4; 401-410
1898-6188
2084-4530
Pojawia się w:: Ecological Chemistry and Engineering. A
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 4.

Tytuł:: Ultrafiltration for Purification and Treatment of Water Streams in Swimming Pool Circuits
Autorzy:: Łaskawiec, E.
Dudziak, M.
Wyczarska-Kokot, J.
Powiązania:: https://bibliotekanauki.pl/articles/125442.pdf
Data publikacji:: 2018
Wydawca:: Polskie Towarzystwo Inżynierii Ekologicznej
Tematy:: swimming pool water
pressure driven
membrane processes
closed circuit
water systems
water treatment systems
water recovery
Opis:: The paper presents possible applications of pressure-driven membrane processes for treatment of swimming pool water and purification of waste streams – washings. Newly identified swimming pool water quality issues are presented that require a modernization of existing technologies. The studies used polymer membranes with the same particle distribution range (50000 Da), but made of different membrane-forming materials: polyvinylidene difluoride (PVDF) and polyether sulfone (PES) for purification of washings. The ultrafiltration process allowed obtaining a high turbidity reduction rate in washings (over 95%), and also a significant reduction of total organic carbon. The effectiveness of the PES membrane was reduced after the process commencement, whereas the separation capacity of the PVDF membrane increased during the studied filtration process. While setting the operational process parameters consideration should be given also to the resistance of used membranes to chlorine present in the swimming pool water. A prolonged exposure of the polyether sulfone membrane to chloride may have caused its gradual damage and degradation of its separation properties.
Źródło:: Journal of Ecological Engineering; 2018, 19, 3; 38-44
2299-8993
Pojawia się w:: Journal of Ecological Engineering
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 5.

Tytuł:: Treatment of Pool Water Installation Washings in A Flocculation/Ultrafiltration Integrated System
Autorzy:: Łaskawiec, E.
Dudziak, M.
Wyczarska-Kokot, J.
Powiązania:: https://bibliotekanauki.pl/articles/123294.pdf
Data publikacji:: 2017
Wydawca:: Polskie Towarzystwo Inżynierii Ekologicznej
Tematy:: pressure driven membrane processes
washings
flocculation
waste streams treatment
ultrafiltration
Opis:: The article presents the possibilities of employing an integrated flocculation/ultrafiltration system in the treatment of washings generated upon the rinsing of filter beds in pool water installations. Single ultrafiltration process was used as a comparator. Flocculation was carried out using commercial dialuminium pentahydroxychloride solution widely used at pool facilities for the removal of contaminants in flocculation processes. The studies consisted in determination of correlations between the conditions of the flocculation process (variable doses of Al³⁺ ions: from 4 to 280 mg/L) and the transport/separation characteristics of ultrafiltration membranes. Flocculation was performed at different temperatures of washings i.e. 8, 21, and 30°C for each of the pre-defined doses. Ultrafiltration was highly capable of reducing the turbidity of washings and removing a large group of contaminants as determined by turbidimetry and UV₂₅₄ absorbance measurements. The studies revealed that the best transport/ separation characteristics of ultrafiltration membranes were obtained in a system in which ultrafiltration was performed following flocculation of washings carried out at 21°C using a 40 mgAl³⁺/L solution. The turbidity was reduced by ca. 99% and UV absorption was reduced by ca. 94% while the relative volumetric stream of the permeate increased by more than 35% (as compared to the filtration of washings in a single-process system). Membrane ultrafiltration significantly increased the quality of the waste stream consisting of washings from the pool water installation. Pre-processing of washings is required before ultrafiltration in order to limit the blocking of membrane pores. Flocculation may be one of such pre-processing methods.
Źródło:: Journal of Ecological Engineering; 2017, 18, 5; 96-103
2299-8993
Pojawia się w:: Journal of Ecological Engineering
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 6.

Tytuł:: The use of Membrane Techniques in Swimming Pool Water Treatment
Autorzy:: Łaskawiec, E.
Madej, M.
Dudziak, M.
Wyczarska-Kokot, J.
Powiązania:: https://bibliotekanauki.pl/articles/952481.pdf
Data publikacji:: 2017
Wydawca:: Polskie Towarzystwo Inżynierii Ekologicznej
Tematy:: pressure membrane processes
ultrafiltration
nanofiltration
toxicological assessment
Opis:: The paper has determined the suitability of membrane processes (UF ultrafiltration, UF, and nanofiltration, NF) for the purification of waste streams, so-called backwash water, obtained from washing filtration beds in a swimming pool water system. The backwash water samples were taken from the circuits located in two indoor facilities with a different purpose of the basins. Moreover, the samples were characterized by varying quality, as described by selected physicochemical parameters (such as turbidity and ultraviolet absorbance UV254). Commercial membranes were used for the tests. The transport-separation properties of the membranes were determined based on the volumetric flux of the permeate. In addition, backwash water samples before and after the membrane process were subjected to toxicological assessment using the Microtox® screening test. The performed processes contributed to a significant reduction in turbidity and the value of UV254 ultraviolet absorbance, both in the ultrafiltration and nanofiltration processes. Whereas, significant differences in transport properties were noted within individual processes. A great influence of backwash water quality, including physicochemical parameters, on the course and results of the membrane filtration processes was demonstrated. In all of the nanofiltration cycles carried out, the removal of the toxic properties of the backwash water with respect to bacteria in the Microtox® test was found. Nevertheless, samples with high values of resultant physicochemical parameters after the ultrafiltration process were still characterized by high toxicity. Pressure membrane processes show high effectiveness in the removal of contaminants from backwash water. However, it is necessary to introduce supporting processes aimed at reducing membrane pore blocking by deposits and organic compounds, and in the case of ultrafiltration, assuring the safety of the purified stream in terms of the toxicological effect.
Źródło:: Journal of Ecological Engineering; 2017, 18, 4; 130-136
2299-8993
Pojawia się w:: Journal of Ecological Engineering
Dostawca treści:: Biblioteka Nauki

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Skocz do pozycji: 7.

Tytuł:: Elimination of Bisphenol A from Wastewater through Membrane Filtration Processes
Autorzy:: Dudziak, M.
Kudlek, E.
Łaskawiec, E.
Felis, E.
Kowalska, K.
Garbaczewski, L.
Powiązania:: https://bibliotekanauki.pl/articles/123664.pdf
Data publikacji:: 2018
Wydawca:: Polskie Towarzystwo Inżynierii Ekologicznej
Tematy:: wastewater treatment
bisphenol A
ultrafiltration
reverse osmosis
complex purification process
Opis:: New priorities for the environment have resulted in a reassessment of modern technology for treatment of urban wastewater. Urban wastewater treatment mainly involves the elimination or reduction of anthropogenic organic micropollutants in the aquatic environment. In this paper, the effectiveness of bisphenol A elimination from wastewater, after biological treatment, through a complex ultrafiltration/reverse osmosis purification process was evaluated. The effectiveness of the wastewater treatment process in the tested system was also evaluated with a number of other physical and chemical analyses for pH, turbidity, colour, absorbance, TOC, phenol index, conductivity and the concentration of selected heavy metals. Within this study, the change in the hydraulic performance of the membranes was also investigated. The effectiveness of the reduction of bisphenol A concentrations during the process of ultrafiltration was small, due to the significant difference between the size of the pores of the membrane and the size of eliminated micropollutants. In the process of reverse osmosis, the wastewater treatment system reported that the concentration of bisphenol A was reduced by 68%. In the tested treatment system, the ultrafiltration/reverse osmosis completely removed colour, lead and chromium. Other contaminants were eliminated by more than 31%. In both membrane processes, there was evidence that the membrane pores were blocked, but this occurred to a greater extent during the process of reverse osmosis.
Źródło:: Journal of Ecological Engineering; 2018, 19, 1; 69-74
2299-8993
Pojawia się w:: Journal of Ecological Engineering
Dostawca treści:: Biblioteka Nauki

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